Overexpression, purification and characterization of the acidic ribosomal P-proteins from Candida albicans

60S acidic ribosomal protein P1-B CaRP1B Q9HFQ6 Candida albicans 108 MSTEASVSYAALILADAEQEITSEKLLAITKAAGANVDQVWADVFAKAVEGKNLKELLFSFAAAAPASGAAAGSASGAAAGGEAAAEEAAEEEAAEESDDDMGFGLFD Disordered 1 108 MSTEASVSYAALILADAEQEITSEKLLAITKAAGANVDQVWADVFAKAVEGKNLKELLFSFAAAAPASGAAAGSASGAAAGGEAAAEEAAEEEAAEESDDDMGFGLFD Native Relationship to function unknown Molecular assembly Protein-protein binding Paper 15182941 Abramczyk D, Tchorzewski M, Krokowski D, Boguszewska A, Grankowski N Overexpression, purification and characterization of the acidic ribosomal P-proteins from Candida albicans 2004 Biochim Biophys Acta 1672 3 214-23 60S acidic ribosomal protein P2-beta L12EIA L45 YL44C YPA1 P02400 133071 A35109 Saccharomyces cerevisiae (Baker's yeast) 110 MKYLAAYLLLVQGGNAAPSAADIKAVVESVGAEVDEARINELLSSLEGKGSLEEIIAEGQKKFATVPTGGASSAAAGAAGAAAGGDAAEEEKEEEAKEESDDDMGFGLFD Disordered - Molten Globule 1 110 MKYLAAYLLLVQGGNAAPSAADIKAVVESVGAEVDEARINELLSSLEGKGSLEEIIAEGQKKFATVPTGGASSAAAGAAGAAAGGDAAEEEKEEEAKEESDDDMGFGLFD Native Function arises via a molten globule to order transition Molecular recognition effectors Protein-protein binding Far-UV circular dichroism (CD) Nuclear magnetic resonance (NMR) Analytical ultracentrifugation Hydrogen-deuterium Exchange Thermal stability Paper 9236009 Zurdo J, Sanz JM, Gonzalez C, Rico M, Ballesta JP The exchangeable yeast ribosomal acidic protein YP2beta shows characteristics of a partly folded state under physiological conditions 1997 Biochemistry 36 31 9625-35 10913306 Zurdo J, Gonzalez C, Sanz JM, Rico M, Remacha M, Ballesta JP Structural differences between Saccharomyces cerevisiae ribosomal stalk proteins P1 and P2 support their functional diversity 2000 Biochemistry 39 30 8935-43 Adenovirus ssDNA binding protein Early E2A DNA-binding protein P03265 P03265 118736 W7AD25 Human adenovirus type 5 529 MASREEEQRETTPERGRGAARRPPTMEDVSSPSPSPPPPRAPPKKRMRRRIESEDEEDSSQDALVPRTPSPRPSTSAADLAIAPKKKKKRPSPKPERPPSPEVIVDSEEEREDVALQMVGFSNPPVLIKHGKGGKRTVRRLNEDDPVARGMRTQEEEEEPSEAESEITVMNPLSVPIVSAWEKGMEAARALMDKYHVDNDLKANFKLLPDQVEALAAVCKTWLNEEHRGLQLTFTSNKTFVTMMGRFLQAYLQSFAEVTYKHHEPTGCALWLHRCAEIEGELKCLHGSIMINKEHVIEMDVTSENGQRALKEQSSKAKIVKNRWGRNVVQISNTDARCCVHDAACPANQFSGKSCGMFFSEGAKAQVAFKQIKAFMQALYPNAQTGHGHLLMPLRCECNSKPGHAPFLGRQLPKLTPFALSNAEDLDADLISDKSVLASVHHPALIVFQCCNPVYRNSRAQGGGPNCDFKISAPDLLNALVMVRSLWSENFTELPRMVVPEFKWSTKHQYRNVSLPVAHSDARQNPFDF Disordered - Extended Flexible Loop 297 331 IEMDVTSENGQRALKEQSSKAKIVKNRWGRNVVQI Native 1ADTA 1ADVA 1ADVB 1ANVA Function arises via a disorder to order transition Molecular recognition effectors DNA unwinding Protein-DNA binding X-ray crystallography 7.2 ethanol 5 NaCl 1.6 phosphate buffer 100 protein 0.5 Paper 8039495 Tucker, P., Tsernoglou, D., Tucker, A., Coenjaerts, F., Leenders, H., Vliet, P. Crystal structure of the adenovirus DNA binding protein reveals a hook-on model for cooperative DNA binding. 1994 13 13 2994-3002 9545375 Dekker, J. Kanellopoulos, P. N. van Oosterhout, J. A. Stier, G. Tucker, P. A. van der Vliet, P. C. ATP-independent DNA unwinding by the adenovirus single-stranded DNA binding protein requires a flexible DNA binding loop 1998 Journal of Molecular Biology 277 4 825-838 4040872 Tsernoglou D, Tsugita A, Tucker AD, van der Vliet PC Characterization of the chymotryptic core of the adenovirus DNA-binding protein 1985 FEBS Lett 188 2 248-52 This region is known as the flexible loop. It goes from disordered to ordered upon binding to DNA, helps to stabilize the binding complex and plays an important role in DNA replication. Disordered - Extended 401 406 KPGHAP Native 1ADTA 1ADVA 1ADVB 1ANVA Relationship to function unknown Unknown Unknown X-ray crystallography 7.2 ethanol 5 NaCl 1.6 phosphate buffer 100 protein 0.5 Paper 8039495 Tucker, P., Tsernoglou, D., Tucker, A., Coenjaerts, F., Leenders, H., Vliet, P. Crystal structure of the adenovirus DNA binding protein reveals a hook-on model for cooperative DNA binding. 1994 13 13 2994-3002 9545375 Dekker, J. Kanellopoulos, P. N. van Oosterhout, J. A. Stier, G. Tucker, P. A. van der Vliet, P. C. ATP-independent DNA unwinding by the adenovirus single-stranded DNA binding protein requires a flexible DNA binding loop 1998 Journal of Molecular Biology 277 4 825-838 4040872 Tsernoglou D, Tsugita A, Tucker AD, van der Vliet PC Characterization of the chymotryptic core of the adenovirus DNA-binding protein 1985 FEBS Lett 188 2 248-52 This region is part of the C-terminal portion of the protein which is important in chain formation and DNA replication. Disordered - Extended 453 464 PVYRNSRAQGGG Native 1ADTA 1ADVA 1ADVB 1ANVA Relationship to function unknown Unknown Unknown X-ray crystallography 7.2 ethanol 5 NaCl 1.6 phosphate buffer 100 protein 0.5 Paper 8039495 Tucker, P., Tsernoglou, D., Tucker, A., Coenjaerts, F., Leenders, H., Vliet, P. Crystal structure of the adenovirus DNA binding protein reveals a hook-on model for cooperative DNA binding. 1994 13 13 2994-3002 9545375 Dekker, J. Kanellopoulos, P. N. van Oosterhout, J. A. Stier, G. Tucker, P. A. van der Vliet, P. C. ATP-independent DNA unwinding by the adenovirus single-stranded DNA binding protein requires a flexible DNA binding loop 1998 Journal of Molecular Biology 277 4 825-838 4040872 Tsernoglou D, Tsugita A, Tucker AD, van der Vliet PC Characterization of the chymotryptic core of the adenovirus DNA-binding protein 1985 FEBS Lett 188 2 248-52 This region is part of the C-terminal portion of the protein which is important for chain formation and DNA replication. Ordered 332 400 SNTDARCCVHDAACPANQFSGKSCGMFFSEGAKAQVAFKQIKAFMQALYPNAQTGHGHLLMPLRCECNS 1ADTA 1ADVA 1ADVB 1ANVA Paper 9545375 Dekker J, Kanellopoulos PN, van Oosterhout JA, Stier G, Tucker PA, van der Vliet PC ATP-independent DNA unwinding by the adenovirus single-stranded DNA binding protein requires a flexible DNA binding loop 1998 J Mol Biol 277 4 825-38 8039495 Tucker PA, Tsernoglou D, Tucker AD, Coenjaerts FE, Leenders H, van der Vliet PC Crystal structure of the adenovirus DNA binding protein reveals a hook-on model for cooperative DNA binding 1994 Embo J 13 13 2994-3002 4040872 Tsernoglou D, Tsugita A, Tucker AD, van der Vliet PC Characterization of the chymotryptic core of the adenovirus DNA-binding protein 1985 FEBS Lett 188 2 248-52 Ordered 407 452 FLGRQLPKLTPFALSNAEDLDADLISDKSVLASVHHPALIVFQCCN 1ADTA 1ADVA 1ADVB 1ANVA Paper 9545375 Dekker J, Kanellopoulos PN, van Oosterhout JA, Stier G, Tucker PA, van der Vliet PC ATP-independent DNA unwinding by the adenovirus single-stranded DNA binding protein requires a flexible DNA binding loop 1998 J Mol Biol 277 4 825-38 8039495 Tucker PA, Tsernoglou D, Tucker AD, Coenjaerts FE, Leenders H, van der Vliet PC Crystal structure of the adenovirus DNA binding protein reveals a hook-on model for cooperative DNA binding 1994 Embo J 13 13 2994-3002 4040872 Tsernoglou D, Tsugita A, Tucker AD, van der Vliet PC Characterization of the chymotryptic core of the adenovirus DNA-binding protein 1985 FEBS Lett 188 2 248-52 Ordered 465 529 PNCDFKISAPDLLNALVMVRSLWSENFTELPRMVVPEFKWSTKHQYRNVSLPVAHSDARQNPFDF 1ADTA 1ADVA 1ADVB 1ANVA Paper 9545375 Dekker J, Kanellopoulos PN, van Oosterhout JA, Stier G, Tucker PA, van der Vliet PC ATP-independent DNA unwinding by the adenovirus single-stranded DNA binding protein requires a flexible DNA binding loop 1998 J Mol Biol 277 4 825-38 8039495 Tucker PA, Tsernoglou D, Tucker AD, Coenjaerts FE, Leenders H, van der Vliet PC Crystal structure of the adenovirus DNA binding protein reveals a hook-on model for cooperative DNA binding 1994 Embo J 13 13 2994-3002 4040872 Tsernoglou D, Tsugita A, Tucker AD, van der Vliet PC Characterization of the chymotryptic core of the adenovirus DNA-binding protein 1985 FEBS Lett 188 2 248-52 Antibacterial protein FALL-39 precursor Antibacterial protein LL-37 Antimicrobial protein CAP-18 CAP18 precursor FALL-39 peptide antibiotic hCAP-18 LL-37 P49913 P49913 1706745 I38932 Homo sapiens (Human) 170 MKTQRNGHSLGRWSLVLLLLGLVMPLAIIAQVLSYKEAVLRAIDGINQRSSDANLYRLLDLDPRPTMDGDPDTPKPVSFTVKETVCPRTTQQSPEDCDFKKDGLVKRCMGTVTLNQARGSFDISCDKDNKRFALLGDFFRKSKEKIGKEFKRIVQRIKDFLRNLVPRTES Disordered - Extended 134 170 LLGDFFRKSKEKIGKEFKRIVQRIKDFLRNLVPRTES Engineered Function arises via a disorder to order transition Unknown Unknown Near-UV circular dichroism (CD) spectroscopy 298 6 magnesium sulfate salt 84 sodium chloride salt 160 Paper 9452503 Johansson, J. Gudmundsson, G. H. Rottenberg, M. E. Berndt, K. D. Agerberth, B. Conformation-dependent antibacterial activity of the naturally occurring human peptide LL-37. 1998 J Biol Chem 273 6 3718-3724 The disordered region became significantly more disordered below pH 5. At pH of 2, it was completely disordered. At pH of 13, it adopted a helical structure. Antitermination protein N Antitermination protein N of bacteriophage lambda Nucleocapsid protein PN Regulatory protein N P03045 P03045 132276 P03045 Bacteriophage lambda 107 MDAQTRRRERRAEKQAQWKAANPLLVGVSAKPVNLPILSLNRKPKSRVESALNPIDLTVLAEYHKQIESNLQRIERKNQRTWYSKPGERGITCSGRQKIKGKSIPLI Disordered 1 107 MDAQTRRRERRAEKQAQWKAANPLLVGVSAKPVNLPILSLNRKPKSRVESALNPIDLTVLAEYHKQIESNLQRIERKNQRTWYSKPGERGITCSGRQKIKGKSIPLI Paper 9659923 Mogridge J, Legault P, Li J, Van Oene MD, Kay LE, Greenblatt J Independent ligand-induced folding of the RNA-binding domain and two functionally distinct antitermination regions in the phage lambda N protein 1998 Mol Cell 1 2 265-75 Cytochrome c Apocytochrome c P00004 117995 A00005 Equus caballus (Horse) 104 GDVEKGKKIFVQKCAQCHTVEKGGKHKTGPNLHGLFGRKTGQAPGFTYTDANKNKGITWKEETLMEYLENPKKYIPGTKMIFAGIKKKTEREDLIAYLKKATNE Disordered 1 104 GDVEKGKKIFVQKCAQCHTVEKGGKHKTGPNLHGLFGRKTGQAPGFTYTDANKNKGITWKEETLMEYLENPKKYIPGTKMIFAGIKKKTEREDLIAYLKKATNE Paper 4344990 Stellwagen E, Rysavy R, Babul G The conformation of horse heart apocytochrome c 1972 J Biol Chem 247 24 8074-7 DNA-(apurinic or apyrimidinic site) lyase APE nuclease APEX nuclease Apurinic/apyrimidinic endonuclease HAP1 Major apurinic/apyrimidinic endonuclease Ref-1 P27695 Hs.73722 P27695 18375505 S23550 Homo sapiens (Human) 318 MPKRGKKGAVAEDGDELRTEPEAKKSKTAAKKNDKEAAGEGPALYEDPPDQKTSPSGKPATLKICSWNVDGLRAWIKKKGLDWVKEEAPDILCLQETKCSENKLPAELQELPGLSHQYWSAPSDKEGYSGVGLLSRQCPLKVSYGIGDEEHDQEGRVIVAEFDSFVLVTAYVPNAGRGLVRLEYRQRWDEAFRKFLKGLASRKPLVLCGDLNVAHEEIDLRNPKGNKKNAGFTPQERQGFGELLQAVPLADSFRHLYPNTPYAYTFWTYMMNARSKNVGWRLDYFLLSHSLLPALCDSKIRSKALGSDHCPITLYLAL Disordered - Extended 1 43 MPKRGKKGAVAEDGDELRTEPEAKKSKTAAKKNDKEAAGEGPA Complex Native 1HD7A Relationship to function unknown Unknown Disordered region is not essential for protein function Unknown X-ray crystallography 4.6 lead (II) acetate 1 polyethylene glycol 4000 25% (w/v) sodium acetate pH 4.6 0.1 Paper 11286553 Beernink PT, Segelke BW, Hadi MZ, Erzberger JP, Wilson DM 3rd, Rupp B Two divalent metal ions in the active site of a new crystal form of human apurinic/apyrimidinic endonuclease, Ape1: implications for the catalytic mechanism 2001 J Mol Biol 307 4 1023-34 This structure is refered to as 'form II' in Beernink (2001). Disordered - Extended 36 43 EAAGEGPA Complex Engineered Fragment 1BIX_ Relationship to function unknown Unknown Disordered region is not essential for protein function Unknown X-ray crystallography 6.2 1,4- Dioxane 5 percent w/v calcium acetate 292 Kelvin 200 crystals flash cooled 110 Kelvin HEPES pH 7.4 10 MES pH 6.2 100 PEG 8000 16 to 20 percent w/v samarium acetate 7.5-30 mM well solution 3 Paper 9351835 Gorman MA, Morera S, Rothwell DG, de La Fortelle E, Mol CD, Tainer JA, Hickson ID, Freemont PS The crystal structure of the human DNA repair endonuclease HAP1 suggests the recognition of extra-helical deoxyribose at DNA abasic sites 1997 Embo J 16 21 6548-58 This structure is refered to as 'form I' in Beernink (2001). The experimental sequence did not contain the N-terminal residues 1-35. Disordered - Extended 102 112 NKLPAELQELP Complex Native 1HD7A Relationship to function unknown Unknown Unknown X-ray crystallography 4.6 lead (II) acetate 1 polyethylene glycol 4000 25% (w/v) sodium acetate pH 4.6 0.1 Paper 11286553 Beernink PT, Segelke BW, Hadi MZ, Erzberger JP, Wilson DM 3rd, Rupp B Two divalent metal ions in the active site of a new crystal form of human apurinic/apyrimidinic endonuclease, Ape1: implications for the catalytic mechanism 2001 J Mol Biol 307 4 1023-34 This structure is refered to as 'form II' in Beernink (2001). Disordered - Extended 123 127 SDKEG Complex Native 1HD7A Relationship to function unknown Unknown Unknown X-ray crystallography 4.6 lead (II) acetate 1 polyethylene glycol 4000 25% (w/v) sodium acetate pH 4.6 0.1 Paper 11286553 Beernink PT, Segelke BW, Hadi MZ, Erzberger JP, Wilson DM 3rd, Rupp B Two divalent metal ions in the active site of a new crystal form of human apurinic/apyrimidinic endonuclease, Ape1: implications for the catalytic mechanism 2001 J Mol Biol 307 4 1023-34 This structure is refered to as 'form II' in Beernink (2001). Disordered 100 104 SENKL Complex Engineered Relationship to function unknown Unknown Unknown X-ray crystallography 6.2 1,4- Dioxane 5 percent w/v calcium acetate 292 Kelvin 200 crystals flash cooled 110 Kelvin HEPES pH 7.4 10 MES pH 6.2 100 PEG 8000 16 to 20 percent w/v samarium acetate 7.5-30 mM well solution 3 Paper 11286553 Beernink PT, Segelke BW, Hadi MZ, Erzberger JP, Wilson DM 3rd, Rupp B Two divalent metal ions in the active site of a new crystal form of human apurinic/apyrimidinic endonuclease, Ape1: implications for the catalytic mechanism 2001 J Mol Biol 307 4 1023-34 This structure is refered to as 'form I' in Beernink (2001). The experimental sequence did not contain the N-terminal residues 1-35. Disordered - Extended 1 42 MPKRGKKGAVAEDGDELRTEPEAKKSKTAAKKNDKEAAGEGP Complex Native 1E9NA 1E9NB Relationship to function unknown Unknown Disordered region is not essential for protein function Unknown X-ray crystallography 7.5 HECAMEG 19.5 lead (II) acetate 1 polyethylene glycol 4000 25% (w/v) sodium acetate 0.2 Tris-HCl pH 7.5 0.1 Paper 9351835 Gorman MA, Morera S, Rothwell DG, de La Fortelle E, Mol CD, Tainer JA, Hickson ID, Freemont PS The crystal structure of the human DNA repair endonuclease HAP1 suggests the recognition of extra-helical deoxyribose at DNA abasic sites 1997 Embo J 16 21 6548-58 This region is not essential for function (Gorman 1997). This structure is refered to as 'form III' in Beernink (2001) For forms I, II and III of this protein referenced in Beernick (2001) , there is relatively high thermal motion in the areas of residues 100-110, 145, 200 and 270. These areas also show large root-mean-square fluctuations. POU domain class 2, associating factor 1 B-cell-specific coactivator BOB.1/OBF.1 B cell-specific transcription co-activator BOB-1 OCA-B OCT binding factor 1 Q64693 1150493 S63588 Mus musculus (Mouse) 256 MLWQKSTAPEQAPAPPRPYQGVRVKEPVKELLRRKRGHTSVGAAGPPTAGVLPHQPLATYSTVGPSCLDMEVSASTVTEEGTLCAGWLSQPAPATLHALAPWTPYTEYVSHEAVSCPYSTDMYVQPVCPSYTVVGPSSVLTYASPPLITNVTPRSTATPAVGPQLEGPEHQAPLTYFPWPQPLSTLPTSSLQYQPPAPTLSGPQFVQLPISIPEPVLQDMDDPRRAISSLTIDKLLLEEEESNTYELNHTLSVEGF Disordered 1 256 MLWQKSTAPEQAPAPPRPYQGVRVKEPVKELLRRKRGHTSVGAAGPPTAGVLPHQPLATYSTVGPSCLDMEVSASTVTEEGTLCAGWLSQPAPATLHALAPWTPYTEYVSHEAVSCPYSTDMYVQPVCPSYTVVGPSSVLTYASPPLITNVTPRSTATPAVGPQLEGPEHQAPLTYFPWPQPLSTLPTSSLQYQPPAPTLSGPQFVQLPISIPEPVLQDMDDPRRAISSLTIDKLLLEEEESNTYELNHTLSVEGF Paper 10329190 Chang JF, Phillips K, Lundback T, Gstaiger M, Ladbury JE, Luisi B Oct-1 POU and octamer DNA co-operate to recognise the Bob-1 transcription co-activator via induced folding 1999 J Mol Biol 288 5 941-52 Transcription initiation factor IIA small chain TFIIA 13.5 kDa subunit TOA2 P32774 418109 Saccharomyces cerevisiae (Baker's yeast) 122 MAVPGYYELYRRSTIGNSLVDALDTLISDGRIEASLAMRVLETFDKVVAETLKDNTQSKLTVKGNLDTYGFCDDVWTFIVKNCQVTVEDSHRDASQNGSGDSQSVISVDKLRIVACNSKKSE Disordered 89 103 DSHRDASQNGSGDSQ Complex Molecular assembly Protein-protein binding Transactivation (transcriptional activation) X-ray crystallography 103 Paper 8610010 Tan S, Hunziker Y, Sargent DF, Richmond TJ Crystal structure of a yeast TFIIA/TBP/DNA complex 1996 Nature 381 6578 127-51 Monoamine-sulfating phenol sulfotransferase Catecholamine sulfotransferase EC 2.8.2.1 HAST3 M-PST Placental estrogen sulfotransferase Sulfotransferase, monoamine-preferring Thermolabile phenol sulfotransferase TL-PST P50224 Hs.458369 P50224 10835035 A55451 Homo sapiens (Human) 295 MELIQDTSRPPLEYVKGVPLIKYFAEALGPLQSFQARPDDLLINTYPKSGTTWVSQILDMIYQGGDLEKCNRAPIYVRVPFLEVNDPGEPSGLETLKDTPPPRLIKSHLPLALLPQTLLDQKVKVVYVARNPKDVAVSYYHFHRMEKAHPEPGTWDSFLEKFMAGEVSYGSWYQHVQEWWELSRTHPVLYLFYEDMKENPKREIQKILEFVGRSLPEETMDFMVQHTSFKEMKKNPMTNYTTVPQELMDHSISPFMRKGMAGDWKTTFTVAQNERFDADYAEKMAGCSLSFRSEL Disordered - Extended 216 261 PEETMDFMVQHTSFKEMKKNPMTNYTTVPQELMDHSISPFMRKGMA Fragment 1CJMA Function arises via a disorder to order transition Metal sponge Substrate/ligand binding X-ray crystallography 293 lithium sulfate 0.5 PAP at 277 K pre-incubation for 1-2 hours polyethylene glycol 8000 5-7% (w/v) Paper 10543947 Bidwell LM, McManus ME, Gaedigk A, Kakuta Y, Negishi M, Pedersen L, Martin JL Crystal structure of human catecholamine sulfotransferase 1999 J Mol Biol 293 3 521-530 Disordered 1 7 MELIQDT Fragment 1CJMA Function arises via a disorder to order transition Unknown Substrate/ligand binding X-ray crystallography 293 lithium sulfate 0.5 PAP at 277 K pre-incubation for 1-2 hours polyethylene glycol 8000 5-7% (w/v) Paper 10543947 Bidwell LM, McManus ME, Gaedigk A, Kakuta Y, Negishi M, Pedersen L, Martin JL Crystal structure of human catecholamine sulfotransferase 1999 J Mol Biol 293 3 521-530 Disordered 64 77 GGDLEKCNRAPIYV Fragment 1CJMA Function arises via a disorder to order transition Unknown Substrate/ligand binding X-ray crystallography 293 lithium sulfate 0.5 PAP at 277 K pre-incubation for 1-2 hours polyethylene glycol 8000 5-7% (w/v) Paper 10543947 Bidwell LM, McManus ME, Gaedigk A, Kakuta Y, Negishi M, Pedersen L, Martin JL Crystal structure of human catecholamine sulfotransferase 1999 J Mol Biol 293 3 521-530 Disordered 91 93 SGL Fragment 1CJMA Function arises via a disorder to order transition Unknown Substrate/ligand binding X-ray crystallography 293 lithium sulfate 0.5 PAP at 277 K pre-incubation for 1-2 hours polyethylene glycol 8000 5-7% (w/v) Paper 10543947 Bidwell LM, McManus ME, Gaedigk A, Kakuta Y, Negishi M, Pedersen L, Martin JL Crystal structure of human catecholamine sulfotransferase 1999 J Mol Biol 293 3 521-530 Disordered 294 295 EL Fragment 1CJMA Function arises via a disorder to order transition Unknown Substrate/ligand binding X-ray crystallography 293 lithium sulfate 0.5 PAP at 277 K pre-incubation for 1-2 hours polyethylene glycol 8000 5-7% (w/v) Paper 10543947 Bidwell LM, McManus ME, Gaedigk A, Kakuta Y, Negishi M, Pedersen L, Martin JL Crystal structure of human catecholamine sulfotransferase 1999 J Mol Biol 293 3 521-530 Disordered 216 224 PEETMDFMV Fragment 1CJMA Function arises via a disorder to order transition Unknown Substrate/ligand binding X-ray crystallography 293 lithium sulfate 0.5 PAP at 277 K pre-incubation for 1-2 hours polyethylene glycol 8000 5-7% (w/v) Paper 10543947 Bidwell LM, McManus ME, Gaedigk A, Kakuta Y, Negishi M, Pedersen L, Martin JL Crystal structure of human catecholamine sulfotransferase 1999 J Mol Biol 293 3 521-530 Ordered 8 63 SRPPLEYVKGVPLIKYFAEALGPLQSFQARPDDLLINTYPKSGTTWVSQILDMIYQ 1CJMA Paper 10543947 Bidwell LM, McManus ME, Gaedigk A, Kakuta Y, Negishi M, Pedersen L, Martin JL Crystal structure of human catecholamine sulfotransferase 1999 J Mol Biol 293 3 521-530 Ordered 78 90 RVPFLEVNDPGEP 1CJMA Paper 10543947 Bidwell LM, McManus ME, Gaedigk A, Kakuta Y, Negishi M, Pedersen L, Martin JL Crystal structure of human catecholamine sulfotransferase 1999 J Mol Biol 293 3 521-530 Ordered 94 215 ETLKDTPPPRLIKSHLPLALLPQTLLDQKVKVVYVARNPKDVAVSYYHFHRMEKAHPEPGTWDSFLEKFMAGEVSYGSWYQHVQEWWELSRTHPVLYLFYEDMKENPKREIQKILEFVGRSL 1CJMA Paper 10543947 Bidwell LM, McManus ME, Gaedigk A, Kakuta Y, Negishi M, Pedersen L, Martin JL Crystal structure of human catecholamine sulfotransferase 1999 J Mol Biol 293 3 521-530 Ordered 262 293 GDWKTTFTVAQNERFDADYAEKMAGCSLSFRS 1CJMA Paper 10543947 Bidwell LM, McManus ME, Gaedigk A, Kakuta Y, Negishi M, Pedersen L, Martin JL Crystal structure of human catecholamine sulfotransferase 1999 J Mol Biol 293 3 521-530 Cystic fibrosis transmembrane conductance regulator cAMP-dependent chloride channel CFTR Cystic fibrosis transmembrane conductance regulator, ATP-binding cassette P13569 1705762 DVHUCF Homo sapiens (Human) 1480 MQRSPLEKASVVSKLFFSWTRPILRKGYRQRLELSDIYQIPSVDSADNLSEKLEREWDRELASKKNPKLINALRRCFFWRFMFYGIFLYLGEVTKAVQPLLLGRIIASYDPDNKEERSIAIYLGIGLCLLFIVRTLLLHPAIFGLHHIGMQMRIAMFSLIYKKTLKLSSRVLDKISIGQLVSLLSNNLNKFDEGLALAHFVWIAPLQVALLMGLIWELLQASAFCGLGFLIVLALFQAGLGRMMMKYRDQRAGKISERLVITSEMIENIQSVKAYCWEEAMEKMIENLRQTELKLTRKAAYVRYFNSSAFFFSGFFVVFLSVLPYALIKGIILRKIFTTISFCIVLRMAVTRQFPWAVQTWYDSLGAINKIQDFLQKQEYKTLEYNLTTTEVVMENVTAFWEEGFGELFEKAKQNNNNRKTSNGDDSLFFSNFSLLGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMVIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIFGVSYDEYRYRSVIKACQLEEDISKFAEKDNIVLGEGGITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNLQPDFSSKLMGCDSFDQFSAERRNSILTETLHRFSLEGDAPVSWTETKKQSFKQTGEFGEKRKNSILNPINSIRKFSIVQKTPLQMNGIEEDSDEPLERRLSLVPDSEQGEAILPRISVISTGPTLQARRRQSVLNLMTHSVNQGQNIHRKTTASTRKVSLAPQANLTELDIYSRRLSQETGLEISEEINEEDLKECFFDDMESIPAVTTWNTYLRYITVHKSLIFVLIWCLVIFLAEVAASLVVLWLLGNTPLQDKGNSTHSRNNSYAVIITSTSSYYVFYIYVGVADTLLAMGFFRGLPLVHTLITVSKILHHKMLHSVLQAPMSTLNTLKAGGILNRFSKDIAILDDLLPLTIFDFIQLLLIVIGAIAVVAVLQPYIFVATVPVIVAFIMLRAYFLQTSQQLKQLESEGRSPIFTHLVTSLKGLWTLRAFGRQPYFETLFHKALNLHTANWFLYLSTLRWFQMRIEMIFVIFFIAVTFISILTTGEGEGRVGIILTLAMNIMSTLQWAVNSSIDVDSLMRSVSRVFKFIDMPTEGKPTKSTKPYKNGQLSKVMIIENSHVKKDDIWPSGGQMTVKDLTAKYTEGGNAILENISFSISPGQRVGLLGRTGSGKSTLLSAFLRLLNTEGEIQIDGVSWDSITLQQWRKAFGVIPQKVFIFSGTFRKNLDPYEQWSDQEIWKVADEVGLRSVIEQFPGKLDFVLVDGGCVLSHGHKQLMCLARSVLSKAKILLLDEPSAHLDPVTYQIIRRTLKQAFADCTVILCEHRIEAMLECQQFLVIEENKVRQYDSIQKLLNERSLFRQAISPSDRVKLFPHRNSSKCKSKPQIAALKEETEEEVQDTRL Disordered 708 831 IRKFSIVQKTPLQMNGIEEDSDEPLERRLSLVPDSEQGEAILPRISVISTGPTLQARRRQSVLNLMTHSVNQGQNIHRKTTASTRKVSLAPQANLTELDIYSRRLSQETGLEISEEINEEDLKE Paper Ostedgaard Lynda S, Baldursson Olafur, Vermeer Daniel W, Welsh Michael J, Robertson Andrew W A functional R domain from cystic fibrosis transmembrane conductance regulator is predominantly unstructured in solution 2000 PNAS 97 10 5657-5662 The sequence contains a mismatch at amino acid 470 when compared to PIR and SwissProt. Choriogonadotropin beta chain [Precursor] CG-beta Chorionic gonadotropin beta subunit Hcg Human chorionic gonadotropin P01233 116184 KTHUB Homo sapiens (Human) 145 SKEPLRPRCRPINATLAVEKEGCPVCITVNTTICAGYCPTMTRVLQGVLPALPQVVCNYRDVRFESIRLPGCPRGVNPVVSYAVALSCQCALCRRSTTDCGGPKDHPLTCDDPRFQDSSSSKAPPPSLPSPSRLPGPSDTPILPQ Disordered 112 145 DPRFQDSSSSKAPPPSLPSPSRLPGPSDTPILPQ Paper 8202136 Lapthorn AJ, Harris DC, Littlejohn A, Lustbader JW, Canfield RE, Machin KJ, Morgan FJ, Isaacs NW Crystal structure of human chorionic gonadotropin 1994 Nature 369 6480 455-61 SwissProt and NCBI have a sequence of 165 amino acids. This includes a 20 amino acid signal region on the N-terminal. Clusterin [Precursor] DAG Dimeric acid glycoprotein SGP-2 Sulfated glycoprotein 2 Testosterone repressed prostate message-2 TRPM-2 P05371 461756 A27205 Rattus norvegicus (Rat) 447 MKILLLCVALLLTWDNGMVLGEQEFSDNELQELSTQGSRYVNKEIQNAVQGVKHIKTLIEKTNAERKSLLNSLEEAKKKKEGALDDTRDSEMKLKAFPEVCNETMMALWEECKPCLKHTCMKFYARVCRSGSGLVGRQLEEFLNQSSPFYFWMNGDRIDSLLESDRQQSQVLDAMQDSFTRASGIIDTLFQDRFFTHEPQDIHHFSPMGFPHKRPHFLYPKSRLVRSLMPLSHYGPLSFHNMFQPFFDMIHQAQQAMDVQLHSPALQFPDVDFLKEGEDDPTVCKEIRHNSTGCLKMKGQCEKCQEILSVDCSTNNPAQANLRQELNDSLQVAERLTQQYNELLHSLQSKMLNTSSLLEQLNDQFTWVSQLANLTQGDDQYLRVSTVTTHSSDSEVPSRVTEVVVKLFDSDPITVVLPEEVSKDNPKFMDTVAEKALQEYRRKSRME Disordered 66 97 RKSLLNSLEEAKKKKEGALDDTRDSEMKLKAF Paper 14769047 Barghorn S, Davies P, Mandelkow E Tau paired helical filaments from Alzheimer's disease brain and assembled in vitro are based on beta-structure in the core domain 2004 Biochemistry 43 6 1694-1703 Disordered 386 445 TVTTHSSDSEVPSRVTEVVVKLFDSDPITVVLPEEVSKDNPKFMDTVAEKALQEYRRKSR Paper 11570883 Bailey RW, Dunker AK, Brown CJ, Garner EC, Griswold MD Clusterin, a binding protein with a molten globule-like region 2001 Biochemistry 40 39 11828-40 PIR has a mismatch at amino acid 187. cAMP-dependent protein kinase inhibitor, alpha form cAMP-dependent protein kinase inhibitor cAMP-dependent protein kinase inhibitor, muscle/brain isoform PKI-alpha P04541 48428970 A01340 Homo sapiens (Human) 75 TDVETTYADFIASGRTGRRNAIHDILVSSASGNSNELALKLAGLDINKTEGEEDAQRSSTEQSGEAQGEAAKSES Disordered 1 75 TDVETTYADFIASGRTGRRNAIHDILVSSASGNSNELALKLAGLDINKTEGEEDAQRSSTEQSGEAQGEAAKSES Paper 1862343 Knighton DR, Zheng JH, Ten Eyck LF, Xuong NH, Taylor SS, Sowadski JM Structure of a peptide inhibitor bound to the catalytic subunit of cyclic adenosine monophosphate-dependent protein kinase 1991 Science 253 5018 414-20 2040607 Thomas J, Van Patten SM, Howard P, Day KH, Mitchell RD, Sosnick T, Trewhella J, Walsh DA, Maurer RA Expression in Escherichia coli and characterization of the heat-stable inhibitor of the cAMP-dependent protein kinase 1991 J Biol Chem 266 17 10906-11 7922031 Wu H, Lustbader JW, Liu Y, Canfield RE, Hendrickson WA Structure of human chorionic gonadotropin at 2.6 A resolution from MAD analysis of the selenomethionyl protein 1994 Structure 2 6 545-58 Cyclin-dependent kinase inhibitor 1 CDK-interacting protein 1 Cyclin-dependent kinase inhibitor p21 MDA-6 Melanoma differentiation associated protein 6 p21 P38936 Hs.370771 P38936 2134956 I68674 Homo sapiens 164 MSEPAGDVRQNPCGSKACRRLFGPVDSEQLSRDCDALMAGCIQEARERWNFDFVTETPLEGDFAWERVRGLGLPKLYLPTGPRRGRDELGGGRRPGTSPALLQGTAEEDHVDLSLSCTLVPRSGEQAEGSPGGPGDSQGRKRRQTSMTDFYHSKRRLIFSKRKP Disordered - Extended p21-F (full length) 1 164 MSEPAGDVRQNPCGSKACRRLFGPVDSEQLSRDCDALMAGCIQEARERWNFDFVTETPLEGDFAWERVRGLGLPKLYLPTGPRRGRDELGGGRRPGTSPALLQGTAEEDHVDLSLSCTLVPRSGEQAEGSPGGPGDSQGRKRRQTSMTDFYHSKRRLIFSKRKP Native Function arises via a disorder to order transition Molecular assembly Protein-protein binding Aberrant mobility on SDS-PAGE gel Far-UV circular dichroism (CD) Gel filtration/size exclusion chromatography Insensitivity to pH extremes Mass spectrometry-based high resolution hydrogen-deuterium exchange Nuclear magnetic resonance (NMR) Sensitivity to proteolysis Paper 8876165 Kriwacki RW, Hengst L, Tennant L, Reed SI, Wright PE Structural studies of p21Waf1/Cip1/Sdi1 in the free and Cdk2-bound state: conformational disorder mediates binding diversity 1996 Proc Natl Acad Sci U S A 93 21 11504-9 9297835 Kriwacki RW, Wu J, Tennant L, Wright PE, Siuzdak G Probing protein structure using biochemical and biophysical methods. Proteolysis, matrix-assisted laser desorption/ionization mass spectrometry, high-performance liquid chromatography and size-exclusion chromatography of p21Waf1/Cip1/Sdi1 1997 J Chromatogr A 777 1 23-30 Cyclin-dependent kinase inhibitor 1C Cyclin-dependent kinase inhibitor p57 p57KIP2 P49918 Hs.106070 P49918 4557441 G02424 Homo sapiens 316 MSDASLRSTSTMERLVARGTFPVLVRTSACRSLFGPVDHEELSRELQARLAELNAEDQNRWDYDFQQDMPLRGPGRLQWTEVDSDSVPAFYRETVQVGRCRLLLAPRPVAVAVAVSPPLEPAAESLDGLEEAPEQLPSVPVPAPASTPPPVPVLAPAPAPAPAPVAAPVAAPVAVAVLAPAPAPAPAPAPAPAPVAAPAPAPAPAPAPAPAPAPAPDAAPQESAEQGANQGQRGQEPLADQLHSGISGRPAAGTAAASANGAAIKKLSGPLISDFFAKRKRSAPEKSSGDVPAPCPSPSAAPGVGSVEQTPRKRLR Disordered - Extended 1 316 MSDASLRSTSTMERLVARGTFPVLVRTSACRSLFGPVDHEELSRELQARLAELNAEDQNRWDYDFQQDMPLRGPGRLQWTEVDSDSVPAFYRETVQVGRCRLLLAPRPVAVAVAVSPPLEPAAESLDGLEEAPEQLPSVPVPAPASTPPPVPVLAPAPAPAPAPVAAPVAAPVAVAVLAPAPAPAPAPAPAPAPVAAPAPAPAPAPAPAPAPAPAPDAAPQESAEQGANQGQRGQEPLADQLHSGISGRPAAGTAAASANGAAIKKLSGPLISDFFAKRKRSAPEKSSGDVPAPCPSPSAAPGVGSVEQTPRKRLR Native Function arises via a disorder to order transition Molecular recognition effectors Protein-protein binding Analytical ultracentrifugation 278 Far-UV circular dichroism (CD) 7 DTT 0.001 NaCl salt 50 sodium phosphate salt 10 Gel filtration/size exclusion chromatography 7 DTT 1 NaCl salt 150 sodium phosphate salt 10 Intrinsic fluorescence 7 DTT 1 NaCl salt 50 sodium phosphate salt 10 Nuclear magnetic resonance (NMR) 303 6.6 DTT 1 NaCl salt 50 sodium phosphate salt 10 Paper 11746698 Adkins JN, Lumb KJ Intrinsic structural disorder and sequence features of the cell cycle inhibitor p57Kip2 2002 Proteins 46 1 1-7 9251023 Dynlacht BD, Ngwu C, Winston J, Swindell EC, Elledge SJ, Harlow E, Harper JW Purification and analysis of CIP/KIP proteins 1997 Methods Enzymol 283 230-44 Disordered - Extended inhibition domain 27 91 TSACRSLFGPVDHEELSRELQARLAELNAEDQNRWDYDFQQDMPLRGPGRLQWTEVDSDSVPAFY Fragment Native Function arises via a disorder to order transition Molecular recognition effectors Protein-protein binding Analytical ultracentrifugation 278 Far-UV circular dichroism (CD) 7 DTT 0.001 NaCl salt 50 sodium phosphate salt 10 Paper 11746698 Adkins JN, Lumb KJ Intrinsic structural disorder and sequence features of the cell cycle inhibitor p57Kip2 2002 Proteins 46 1 1-7 9251023 Dynlacht BD, Ngwu C, Winston J, Swindell EC, Elledge SJ, Harlow E, Harper JW Purification and analysis of CIP/KIP proteins 1997 Methods Enzymol 283 230-44 This fragment had 90% inhibition activity towards A-CDK2. Cyclin-dependent kinase inhibitor 1B Cyclin-dependent kinase inhibitor p27 p27Kip1 P46527 1168871 Homo sapiens (Human) 198 MSNVRVSNGSPSLERMDARQAEHPKPSACRNLFGPVDHEELTRDLEKHCRDMEEASQRKWNFDFQNHKPLEGKYEWQEVEKGSLPEFYYRPPRPPKGACKVPAQESQDVSGSRPAAPLIGAPANSEDTHLVDPKTDPSDSQTGLAEQCAGIRKRPATDDSSTQNKRANRTEENVSDGSPNAGSVEQTPKKPGLRRRQT Disordered 22 106 EHPKPSACRNLFGPVDHEELTRDLEKHCRDMEEASQRKWNFDFQNHKPLEGKYEWQEVEKGSLPEFYYRPPRPPKGACKVPAQES Paper 15024385 Lacy ER, Filippov I, Lewis WS, Otieno S, Xiao L, Weiss S, Hengst L, Kriwacki RW p27 binds cyclin-CDK complexes through a sequential mechanism involving binding-induced protein folding 2004 Nat Struct Mol Biol 11 4 358-64 8684460 Russo AA, Jeffrey PD, Patten AK, Massague J, Pavletich NP Crystal structure of the p27Kip1 cyclin-dependent-kinase inhibitor bound to the cyclin A-Cdk2 complex 1996 Nature 382 6589 325-31 Ubiquinol-cytochrome c reductase iron-sulfur subunit, mitochondrial [Precursor] Cytochrome Bc1 Complex Ubiquinol Cytochrome C Oxidoreductase, Complex III P13272 1351360 A34660 Bos taurus (Bovine) 274 MLSVAARSGPFAPVLSATSRGVAGALRPLVQAAVPATSESPVLDLKRSVLCRESLRGQAAGRPLVASVSLNVPASVRYSHTDIKVPDFSDYRRPEVLDSTKSSKESSEARKGFSYLVTATTTVGVAYAAKNVVSQFVSSMSASADVLAMSKIEIKLSDIPEGKNMAFKWRGKPLFVRHRTKKEIDQEAAVEVSQLRDPQHDLERVKKPEWVILIGVCTHLGCVPIANAGDFGGYYCPCHGSHYDASGRIRKGPAPLNLEVPSYEFTSDDMVIVG Disordered 1 45 MLSVAARSGPFAPVLSATSRGVAGALRPLVQAAVPATSESPVLDL Paper 9651245 Iwata S, Lee JW, Okada K, Lee JK, Iwata M, Rasmussen B, Link TA, Ramaswamy S, Jap BK Complete structure of the 11-subunit bovine mitochondrial cytochrome bc1 complex 1998 Science 281 5373 64-71 DNA-binding protein RAP1 Repressor/activator site binding protein SBF-E TUF P11938 730473 S50714 Saccharomyces cerevisiae (Baker's yeast) 827 MSSPDDFETAPAEYVDALDPSMVVVDSGSAAVTAPSDSAAEVKANQNEENTGATAAETSEKVDQTEVEKKDDDDTTEVGVTTTTPSIADTAATANIASTSGASVTEPTTDDTAADEKKEQVSGPPLSNMKFYLNRDADAHDSLNDIDQLARLIRANGGEVLDSKPRESKENVFIVSPYNHTNLPTVTPTYIKACCQSNSLLNMENYLVPYDNFREVVDSRLQEESHSNGVDNSNSNSDNKDSIRPKTEIISTNTNGATEDSTSEKVMVDAEQQARLQEQAQLLRQHVSSTASITSGGHNDLVQIEQPQKDTSNNNNSNVNDEDNDLLTQDNNPQTADEGNASFQAQRSMISRGALPSHNKASFTDEEDEFILDVVRKNPTRRTTHTLYDEISHYVPNHTGNSIRHRFRVYLSKRLEYVYEVDKFGKLVRDDDGNLIKTKVLPPSIKRKFSADEDYTLAIAVKKQFYRDLFQIDPDTGRSLITDEDTPTAIARRNMTMDPNHVPGSEPNFAAYRTQSRRGPIAREFFKHFAEEHAAHTENAWRDRFRKFLLAYGIDDYISYYEAEKAQNREPEPMKNLTNRPKRPGVPTPGNYNSAAKRARNYSSQRNVQPTANAASANAAAAAAAAASNSYAIPENELLDEDTMNFISSLKNDLSNISNSLPFEYPHEIAEAIRSDFSNEDIYDNIDPDTISFPPKIATTDLFLPLFFHFGSTRQFMDKLHEVISGDYEPSQAEKLVQDLCDETGIRKNFSTSILTCLSGDLMVFPRYFLNMFKDNVNPPPNVPGIWTHDDDESLKSNDQEQIRKLVKKHGTGRMEMRKRFFEKDLL Disordered 482 512 TDEDTPTAIARRNMTMDPNHVPGSEPNFAAY Paper 8620531 Konig P, Giraldo R, Chapman L, Rhodes D The crystal structure of the DNA-binding domain of yeast RAP1 in complex with telomeric DNA 1996 Cell 85 1 125-36 Elongation factor G Elongation Factor G Without Nucleotide P13551 1827912 Thermus thermophilus 691 MAVKVEYDLKRLRNIGIAAHIDAGKTTTTERILYYTGRIHKIGEVHEGAATMDFMEQERERGITITAAVTTCFWKDHRINIIDTPGHVDFTIEVERSMRVLDGAIVVFDSSQGVEPQSETVWRQAEKYKVPRIAFANKMDKTGADLWLVIRTMQERLGARPVVMQLPIGREDTFSGIIDVLRMKAYTYGNDLGTDIREIPIPEEYLDQAREYHEKLVEVAADFDENIMLKYLEGEEPTEEELVAAIRKGTIDLKITPVFLGSALKNKGVQLLLDAVVDYLPSPLDIPPIKGTTPEGEVVEIHPDPNGPLAALAFKIMADPYVGRLTFIRVYSGTLTSGSYVYNTTKGRKERVARLLRMHANHREEVEELKAGDLGAVVGLKETITGDTLVGEDAPRVILESIEVPEPVIDVAIEPKTKADQEKLSQALARLAEEDPTFRVSTHPETGQTIISGMGELHLEIIVDRLKREFKVDANVGKPQVAYRETITKPVDVEGKFIRQTGGRGQYGHVKIKVEPLPRGSGFEFVNAIVGGVIPKEYIPAVQKGIEEAMQSGPLIGFPVVDIKVTLYDGSYHEVDSSEMAFKIAGSMAIKEAVQKGDPVILEPIMRVEVTTPEEYMGDVIGDLNARRGQILGMEPRGNAQVIRAFVPLAEMFGYATDLRSKTQGRGSFVMFFDHYQEVPKQVQEKLIKGQ Disordered 40 67 HKIGEVHEGAATMDFMEQERERGITITA Paper 11054294 Laurberg M, Kristensen O, Martemyanov K, Gudkov AT, Nagaev I, Hughes D, Liljas A Structure of a mutant EF-G reveals domain III and possibly the fusidic acid binding site 2000 J Mol Biol 303 4 593-603 Disordered 400 475 ESIEVPEPVIDVAIEPKTKADQEKLSQALARLAEEDPTFRVSTHPETGQTIISGMGELHLEIIVDRLKREFKVDAN Paper 11054294 Laurberg M, Kristensen O, Martemyanov K, Gudkov AT, Nagaev I, Hughes D, Liljas A Structure of a mutant EF-G reveals domain III and possibly the fusidic acid binding site 2000 J Mol Biol 303 4 593-603 EMB-1 protein Embryonic abundant protein from carrot P17639 119316 JQ2273 Daucus carota (Carrot) 92 MASQQEKKELDARARQGETVVPGGTGGKSLEAQQHLAEGRSKGGQTRKEQLGGEGYHEMGRKGGLSNNDMSGGERAEQEGIDIDESKFRTKK Disordered 1 92 MASQQEKKELDARARQGETVVPGGTGGKSLEAQQHLAEGRSKGGQTRKEQLGGEGYHEMGRKGGLSNNDMSGGERAEQEGIDIDESKFRTKK Paper Eom J, Baker WR, Kintanar A, Wurtele ES The embryo-specific EMB-1 protein of Daucus carota is flexible and unstructured in solution 1996 Plant Science 115 17-24 Estradiol 17 beta-dehydrogenase 1 17-beta-HSD 1 20-alpha-HSD 20 alpha-hydroxysteroid dehydrogenase E2DH EC 1.1.1.62 Placental 17-beta-hydroxysteroid dehydrogenase P14061 Hs.448861 P14061 4504501 DEHUE7 Homo sapiens (Human) 327 ARTVVLITGCSSGIGLHLAVRLASDPSQSFKVYATLRDLKTQGRLWEAARALACPPGSLETLQLDVRDSKSVAAARERVTEGRVDVLVCNAGLGLLGPLEALGEDAVASVLDVNVVGTVRMLQAFLPDMKRRGSGRVLVTGSVGGLMGLPFNDVYCASKFALEGLCESLAVLLLPFGVHLSLIECGPVHTAFMEKVLGSPEEVLDRTDIHTFHRFYQYLAHSKQVFREAAQNPEEVAEVFLTALRAPKPTLRYFTTERFLPLLRMRLDDPSGSNYVTAMHREVFGDVPAKAEAGAEAGGGAGPGAEDEAGRSAVGDPELGDPPAAPQ Disordered - Extended 285 327 GDVPAKAEAGAEAGGGAGPGAEDEAGRSAVGDPELGDPPAAPQ Native 1BHS_ 1DHTA 1EQUA 1EQUB 1IOL_ 3DHEA Relationship to function unknown Unknown Unknown X-ray crystallography Mass spectrometry-based high resolution hydrogen-deuterium exchange Paper 8756321 Azzi A, Rehse PH, Zhu DW, Campbell RL, Labrie F, Lin SX Crystal structure of human estrogenic 17 beta-hydroxysteroid dehydrogenase complexed with 17 beta-estradiol 1996 Nat Struct Biol 3 8 665-668 7663947 Ghosh D, Pletnev VZ, Zhu DW, Wawrzak Z, Duax WL, Pangborn W, Labrie F, Lin SX Structure of human estrogenic 17 beta-hydroxysteroid dehydrogenase at 2.20 A resolution 1995 Structure 3 5 503-513 10625652 Han Q, Campbell RL, Gangloff A, Huang YW, Lin SX Dehydroepiandrosterone and dihydrotestosterone recognition by human estrogenic 17beta-hydroxysteroid dehydrogenase. C-18/c-19 steroid discrimination and enzyme-induced strain 2000 J Biol Chem 275 2 1105-1111 9927655 Sawicki MW, Erman M, Puranen T, Vihko P, Ghosh D Structure of the ternary complex of human 17beta-hydroxysteroid dehydrogenase type 1 with 3-hydroxyestra-1,3,5,7-tetraen-17-one (equilin) and NADP+ 1999 Proc Natl Acad Sci U S A 96 3 840-845 The 3DHE:A PDB file gives this protein fragment as complexed with Dehydroepiandrosterone. The 1DHT:A PDB file gives this protein fragment as complexed with Dihydrotestosterone. The 1EQU:A and B PDB files, give this protein fragment as complexed with NADP+ and 3-hydroxyestra-1,3,5,7-tetraen-17-one, (equilin). The 1IOL PDB file gives this protein fragment as complexed with Estradiol. The 1BHS PDB file gives the amino acid sequence for the uncomplexed, unmutated crystal structure of this protein. Disordered - Extended 190 207 TAFMEKVLGSPEEVLDRT Complex Native 1IOL_ Relationship to function unknown Molecular recognition effectors Unknown Substrate/ligand binding X-ray crystallography Paper 8756321 Azzi A, Rehse PH, Zhu DW, Campbell RL, Labrie F, Lin SX Crystal structure of human estrogenic 17 beta-hydroxysteroid dehydrogenase complexed with 17 beta-estradiol 1996 Nat Struct Biol 3 8 665-668 The 1IOL PDB file gives this protein fragment as complexed with Estradiol. Disordered - Extended 191 195 AFMEK Complex 1FDS_ 1FDT_ Function arises from the disordered state Molecular recognition effectors Disordered region is not essential for protein function Substrate/ligand binding X-ray crystallography Mass spectrometry-based high resolution hydrogen-deuterium exchange Paper 8805577 Breton R, Housset D, Mazza C, Fontecilla-Camps JC The structure of a complex of human 17beta-hydroxysteroid dehydrogenase with estradiol and NADP+ identifies two principal targets for the design of inhibitors 1996 Structure 4 8 905-915 The 1FDT PDB gives this protein fragment as complexed with 17-Beta-Estradiol and NADP+ at low temperature, 123 K. The 1FDS PDB file gives this protein fragment as complexed with 17-Beta-Estradiol at room temperature. Disordered - Extended 192 198 FMEKVLG Complex 1FDS_ 1FDT_ Function arises from the disordered state Molecular recognition effectors Disordered region is not essential for protein function Substrate/ligand binding X-ray crystallography Mass spectrometry-based high resolution hydrogen-deuterium exchange Paper 8805577 Breton R, Housset D, Mazza C, Fontecilla-Camps JC The structure of a complex of human 17beta-hydroxysteroid dehydrogenase with estradiol and NADP+ identifies two principal targets for the design of inhibitors 1996 Structure 4 8 905-915 The 1FDT PDB gives this protein fragment as complexed with 17-Beta-Estradiol and NADP+ at low temperature, 123 K. The 1FDS PDB file gives this protein fragment as complexed with 17-Beta-Estradiol at room temperature. Disordered - Extended 286 327 DVPAKAEAGAEAGGGAGPGAEDEAGRSAVGDPELGDPPAAPQ Complex 1FDS_ 1FDT_ 1FDUA 1FDUB 1FDUC 1FDUD 1FDVA 1FDVB 1FDVC 1FDVD 1FDW_ 1I5RA 1JTVA Relationship to function unknown Unknown Disordered region is not essential for protein function Protein-lipid interaction Infrared spectroscopy Mass spectrometry-based high resolution hydrogen-deuterium exchange Nuclear magnetic resonance (NMR) X-ray crystallography Paper 8805577 Breton R, Housset D, Mazza C, Fontecilla-Camps JC The structure of a complex of human 17beta-hydroxysteroid dehydrogenase with estradiol and NADP+ identifies two principal targets for the design of inhibitors 1996 Structure 4 8 905-915 12490543 Gangloff A, Shi R, Nahoum V, Lin SX Pseudo-symmetry of C19 steroids, alternative binding orientations, and multispecificity in human estrogenic 17beta-hydroxysteroid dehydrogenase 2003 Faseb J 17 2 274-276 12223444 Qiu W, Campbell RL, Gangloff A, Dupuis P, Boivin RP, Tremblay MR, Poirier D, Lin SX A concerted, rational design of type 1 17beta-hydroxysteroid dehydrogenase inhibitors: estradiol-adenosine hybrids with high affinity 2002 Faseb J 16 13 1829-1831 9525918 Mazza C, Breton R, Housset D, Fontecilla-Camps JC Unusual charge stabilization of NADP+ in 17beta-hydroxysteroid dehydrogenase 1998 J Biol Chem 273 14 8145-8152 The 1I5R:A PDB file gives this protein as complexed with an 8-methylene-based inhibitor- an EM-1745 complex. The 1JTV:A PDB file gives this protein fragment as complexed with testosterone. The 1FDW PDB file gives this protein fragment as complexed with Estradiol and has the mutation H221Q. The 1FDV PDB file gives this protein fragment as complexed with NAD+ and has the mutation H221L. The experimental sequence used for PDB ID 1FDV contained a H221L substitution. The 1FDU PDB file gives this protein fragment as complexed with Estradiol and NADP+ and has the mutation H221L. The experimental sequence used for the PDB ID 1FDU contained a H221L substitution. The 1FDT PDB file gives this protein fragment as complexed with 17-Beta-Estradiol and NADP+ at low temperature, 123 K. The 1FDS PDB file gives this protein fragment as complexed with 17-Beta-Estradiol at room temperature. Disordered - Extended 288 327 PAKAEAGAEAGGGAGPGAEDEAGRSAVGDPELGDPPAAPQ Complex 1FDS_ 1FDT_ Relationship to function unknown Unknown Disordered region is not essential for protein function Protein-lipid interaction X-ray crystallography Mass spectrometry-based high resolution hydrogen-deuterium exchange Paper 8805577 Breton R, Housset D, Mazza C, Fontecilla-Camps JC The structure of a complex of human 17beta-hydroxysteroid dehydrogenase with estradiol and NADP+ identifies two principal targets for the design of inhibitors 1996 Structure 4 8 905-915 The 1FDT PDB gives this protein fragment as complexed with 17-Beta-Estradiol and NADP+ at low temperature, 123 K. The 1FDS PDB file gives this protein fragment as complexed with 17-Beta-Estradiol at room temperature. Disordered - Extended 289 327 AKAEAGAEAGGGAGPGAEDEAGRSAVGDPELGDPPAAPQ Complex 1FDS_ 1FDT_ Relationship to function unknown Unknown Disordered region is not essential for protein function Protein-lipid interaction X-ray crystallography Mass spectrometry-based high resolution hydrogen-deuterium exchange Paper 8805577 Breton R, Housset D, Mazza C, Fontecilla-Camps JC The structure of a complex of human 17beta-hydroxysteroid dehydrogenase with estradiol and NADP+ identifies two principal targets for the design of inhibitors 1996 Structure 4 8 905-915 The 1FDT PDB gives this protein fragment as complexed with 17-Beta-Estradiol and NADP+ at low temperature, 123 K. The 1FDS PDB file gives this protein fragment as complexed with 17-Beta-Estradiol at room temperature. Disordered 190 197 TAFMEKVL Complex 1FDT_ Function arises from the disordered state Molecular recognition effectors Substrate/ligand binding X-ray crystallography 123 Mass spectrometry-based high resolution hydrogen-deuterium exchange Paper 8805577 Breton R, Housset D, Mazza C, Fontecilla-Camps JC The structure of a complex of human 17beta-hydroxysteroid dehydrogenase with estradiol and NADP+ identifies two principal targets for the design of inhibitors 1996 Structure 4 8 905-915 The 1FDT PDB gives this protein fragment as complexed with 17-Beta-Estradiol and NADP+ at low temperature, 123 K. Disordered 192 195 FMEK Complex 1FDT_ Function arises from the disordered state Molecular recognition effectors Substrate/ligand binding X-ray crystallography 123 Mass spectrometry-based high resolution hydrogen-deuterium exchange Paper 8805577 Breton R, Housset D, Mazza C, Fontecilla-Camps JC The structure of a complex of human 17beta-hydroxysteroid dehydrogenase with estradiol and NADP+ identifies two principal targets for the design of inhibitors 1996 Structure 4 8 905-915 The 1FDT PDB gives this protein fragment as complexed with 17-Beta-Estradiol and NADP+ at low temperature, 123 K. Disordered - Extended 199 202 SPEE Complex Engineered 1FDUA Function arises from the disordered state Molecular recognition effectors Disordered region is not essential for protein function Substrate/ligand binding X-ray crystallography Paper 9525918 Mazza C, Breton R, Housset D, Fontecilla-Camps JC Unusual charge stabilization of NADP+ in 17beta-hydroxysteroid dehydrogenase 1998 J Biol Chem 273 14 8145-8152 The experimental sequence used for the PDB ID 1FDU contained a H221L substitution. Disordered - Extended 198 202 GSPEE Complex Engineered 1FDUB Function arises from the disordered state Molecular recognition effectors Substrate/ligand binding X-ray crystallography Paper 9525918 Mazza C, Breton R, Housset D, Fontecilla-Camps JC Unusual charge stabilization of NADP+ in 17beta-hydroxysteroid dehydrogenase 1998 J Biol Chem 273 14 8145-8152 The experimental sequence included a H221L substitution. Disordered - Extended 198 201 GSPE Complex Engineered 1FDUD Function arises from the disordered state Molecular recognition effectors Substrate/ligand binding X-ray crystallography Paper 9525918 Mazza C, Breton R, Housset D, Fontecilla-Camps JC Unusual charge stabilization of NADP+ in 17beta-hydroxysteroid dehydrogenase 1998 J Biol Chem 273 14 8145-8152 The experimental sequence included a H221L substitution. Disordered - Extended 191 198 AFMEKVLG Complex Engineered 1FDVA 1FDVB 1FDVC 1FDVD Function arises from the disordered state Molecular recognition effectors Substrate/ligand binding X-ray crystallography Mass spectrometry-based high resolution hydrogen-deuterium exchange Paper 9525918 Mazza C, Breton R, Housset D, Fontecilla-Camps JC Unusual charge stabilization of NADP+ in 17beta-hydroxysteroid dehydrogenase 1998 J Biol Chem 273 14 8145-8152 The experimental sequence used for PDB ID 1FDV contained a H221L substitution. Disordered - Extended 191 200 AFMEKVLGSP Complex Engineered 1FDVA 1FDVB 1FDVC 1FDVD Relationship to function unknown Molecular recognition effectors Substrate/ligand binding X-ray crystallography Mass spectrometry-based high resolution hydrogen-deuterium exchange Paper 9525918 Mazza C, Breton R, Housset D, Fontecilla-Camps JC Unusual charge stabilization of NADP+ in 17beta-hydroxysteroid dehydrogenase 1998 J Biol Chem 273 14 8145-8152 The experimental sequence used for PDB ID 1FDV contained a H221L substitution. Disordered - Extended 192 197 FMEKVL Complex Engineered 1FDW_ Function arises from the disordered state Molecular recognition effectors Disordered region is not essential for protein function Substrate/ligand binding X-ray crystallography Paper 9525918 Mazza C, Breton R, Housset D, Fontecilla-Camps JC Unusual charge stabilization of NADP+ in 17beta-hydroxysteroid dehydrogenase 1998 J Biol Chem 273 14 8145-8152 The sequence used for PDB ID 1FDW contained a H221Q substitution. Disordered 286 289 DVPA Complex Engineered Fragment 1A27_ Relationship to function unknown Unknown Disordered region is not essential for protein function Protein-lipid interaction X-ray crystallography Paper 9525918 Mazza C, Breton R, Housset D, Fontecilla-Camps JC Unusual charge stabilization of NADP+ in 17beta-hydroxysteroid dehydrogenase 1998 J Biol Chem 273 14 8145-8152 The 1A27 PDB file gives this protein fragment as complexed with Estradiol and NADP+. It also has a C-terminal deletion mutation. Disordered 190 201 TAFMEKVLGSPE Complex 1EQUA 1EQUB Function arises from the disordered state Molecular recognition effectors Substrate/ligand binding X-ray crystallography Paper 9927655 Sawicki MW, Erman M, Puranen T, Vihko P, Ghosh D Structure of the ternary complex of human 17beta-hydroxysteroid dehydrogenase type 1 with 3-hydroxyestra-1,3,5,7-tetraen-17-one (equilin) and NADP+ 1999 Proc Natl Acad Sci U S A 96 3 840-845 Disordered - Extended 192 207 FMEKVLGSPEEVLDRT Complex Native 1DHTA 3DHEA Relationship to function unknown Molecular recognition effectors Disordered region is not essential for protein function Substrate/ligand binding X-ray crystallography Paper 10625652 Han Q, Campbell RL, Gangloff A, Huang YW, Lin SX Dehydroepiandrosterone and dihydrotestosterone recognition by human estrogenic 17beta-hydroxysteroid dehydrogenase. C-18/c-19 steroid discrimination and enzyme-induced strain 2000 J Biol Chem 275 2 1105-1111 The 3DHE PDB file gives this protein fragment as complexed with Dehydroepiandrosterone. The 1DHT PDB file gives this protein fragment as complexed with Dihydrotestosterone. Disordered 191 197 AFMEKVL Complex 1JTVA Function arises from the disordered state Molecular recognition effectors Substrate/ligand binding X-ray crystallography Paper 12490543 Gangloff A, Shi R, Nahoum V, Lin SX Pseudo-symmetry of C19 steroids, alternative binding orientations, and multispecificity in human estrogenic 17beta-hydroxysteroid dehydrogenase 2003 Faseb J 17 2 274-276 The 1JTV PDB file gives this protein fragment as complexed with testosterone. E7 protein E7 protein from HPV16 P03129 6469700 Human papillomavirus type 16 98 MHGDTPTLHEYMLDLQPETTDLYCYEQLSDSSEEEDEIDGPAGQAEPDRAHYNIVTFCCKCDSTLRLCVQSTHVDIRTLEDLLMGTLGIVCPICSQKP Disordered 1 98 MHGDTPTLHEYMLDLQPETTDLYCYEQLSDSSEEEDEIDGPAGQAEPDRAHYNIVTFCCKCDSTLRLCVQSTHVDIRTLEDLLMGTLGIVCPICSQKP Paper 8245034 Pahel G, Aulabaugh A, Short SA, Barnes JA, Painter GR, Ray P, Phelps WC Structural and functional characterization of the HPV16 E7 protein expressed in bacteria 1993 J Biol Chem 268 34 26018-25 Fibronectin-binding protein [Precursor] Fibronectin binding protein FNBP P14738 120457 Staphylococcus aureus 1018 MKNNLRYGIRKHKLGAASVFLGTMIVVGMGQDKEAAASEQKTTTVEENGNSATDNKTSETQTTATNVNHIEETQSYNATVTEQPSNATQVTTEEAPKAVQAPQTAQPANIETVKEEVVKEEAKPQVKETTQSQDNSGDQRQVDLTPKKATQNQVAETQVEVAQPRTASESKPRVTRSADVAEAKEASNAKVETGTDVTSKVTVEIGSIEGHNNTNKVEPHAGQRAVLKYKLKFENGLHQGDYFDFTLSNNVNTHGVSTARKVPEIKNGSVVMATGEVLEGGKIRYTFTNDIEDKVDVTAELEINLFIDPKTVQTNGNQTITSTLNEEQTSKELDVKYKDGIGNYYANLNGSIETFNKANNRFSHVAFIKPNNGKTTSVTVTGTLMKGSNQNGNQPKVRIFEYLGNNEDIAKSVYANTTDTSKFKEVTSNMSGNLNLQNNGSYSLNIENLDKTYVVHYDGEYLNGTDEVDFRTQMVGHPEQLYKYYYDRGYTLTWDNGLVLYSNKANGNEKNGPIIQNNKFEYKEDTIKETLTGQYDKNLVTTVEEEYDSSTLDIDYHTAIDGGGGYVDGYIETIEETDSSAIDIDYHTAVDSEAGHVGGYTESSEESNPIDFEESTHENSKHHADVVEYEEDTNPGGGQVTTESNLVEFDEESTKGIVTGAVSDHTTVEDTKEYTTESNLIELVDELPEEHGQAQGPVEEITKNNHHISHSGLGTENGHGNYDVIEEIEENSHVDIKSELGYEGGQNSGNQSFEEDTEEDKPKYEQGGNIVDIDFDSVPQIHGQNKGNQSFEEDTEKDKPKYEHGGNIIDIDFDSVPHIHGFNKHTEIIEEDTNKDKPSYQFGGHNSVDFEEDTLPKVSGQNEGQQTIEEDTTPPIVPPTPPTPEVPSEPETPTPPTPEVPSEPETPTPPTPEVPSEPETPTPPTPEVPAEPGKPVPPAKEEPKKPSKPVEQGKVVTPVIEINEKVKAVAPTKKPQSKKSELPETGGEESTNKGMLFGGLFSILGLALLRRNKKNHKA Disordered 745 873 GQNSGNQSFEEDTEEDKPKYEQGGNIVDIDFDSVPQIHGQNKGNQSFEEDTEKDKPKYEHGGNIIDIDFDSVPHIHGFNKHTEIIEEDTNKDKPSYQFGGHNSVDFEEDTLPKVSGQNEGQQTIEEDTT Paper 9398523 Penkett CJ, Redfield C, Dodd I, Hubbard J, McBay DL, Mossakowska DE, Smith RA, Dobson CM, Smith LJ NMR analysis of main-chain conformational preferences in an unfolded fibronectin-binding protein 1997 J Mol Biol 274 2 152-9 Flagellin Phase-1-I flagellin P06179 96744 S16121 Salmonella typhimurium 494 AQVINTNSLSLLTQNNLNKSQSALGTAIERLSSGLRINSAKDDAAGQAIANRFTANIKGLTQASRNANDGISIAQTTEGALNEINNNLQRVRELAVQSANSTNSQSDLDSIQAEITQRLNEIDRVSGQTQFNGVKVLAQDNTLTIQVGANDGETIDIDLKQINSQTLGLDTLNVQQKYKVSDTAATVTGYADTTIALDNSTFKASATGLGGTDQKIDGDLKFDDTTGKYYAKVTVTGGTGKDGYYEVSVDKTNGEVTLAGGATSPLTGGLPATATEDVKNVQVANADLTEAKAALTAAGVTGTASVVKMSYTDNNGKTIDGGLAVKVGDDYYSATQNKDGSISINTTKYTADDGTSKTALNKLGGADGKTEVVSIGGKTYAASKAEGHNFKAQPDLAEAAATTTENPLQKIDAALAQVDTLRSDLGAVQNRFNSAITNLGNTVNNLTSARSRIEDSDYATEVSNMSRAQILQQAGTSVLAQANQVPQNVLSLLR Disordered 1 55 AQVINTNSLSLLTQNNLNKSQSALGTAIERLSSGLRINSAKDDAAGQAIANRFTA Paper 2810365 Vonderviszt F, Kanto S, Aizawa S, Namba K Terminal regions of flagellin are disordered in solution 1989 J Mol Biol 209 1 127-33 Disordered 451 494 SRIEDSDYATEVSNMSRAQILQQAGTSVLAQANQVPQNVLSLLR Paper 2810365 Vonderviszt F, Kanto S, Aizawa S, Namba K Terminal regions of flagellin are disordered in solution 1989 J Mol Biol 209 1 127-33 Negative regulator of flagellin synthesis Anti-sigma-28 factor Flagellum specific sigma factor P26477 120306 A41046 Salmonella typhimurium 97 MSIDRTSPLKPVSTVQTRETSDTPVQKTRQEKTSAATSASVTLSDAQAKLMQPGVSDINMERVEALKTAIRNGELKMDTGKIADSLIREAQSYLQSK Disordered 1 97 MSIDRTSPLKPVSTVQTRETSDTPVQKTRQEKTSAATSASVTLSDAQAKLMQPGVSDINMERVEALKTAIRNGELKMDTGKIADSLIREAQSYLQSK Paper 9095196 Daughdrill GW, Chadsey MS, Karlinsey JE, Hughes KT, Dahlquist FW The C-terminal half of the anti-sigma factor, FlgM, becomes structured when bound to its target, sigma 28 1997 Nat Struct Biol 4 4 285-91 Eukaryotic translation initiation factor 4E binding protein 1 4E-binding protein 1 4E-BP1 eIF4E-binding protein 1 PHAS-I Phosphorylated heat- and acid-stable protein regulated by insulin 1 Q13541 4758258 S50866 Homo sapiens (Human) 118 MSGGSSCSQTPSRAIPATRRVVLGDGVQLPPGDYSTTPGGTLFSTTPGGTRIIYDRKFLMECRNSPVTKTPPRDLPTIPGVTSPSSDEPPMEASQSHLRNSPEDKRAGGEESQFEMDI Disordered 1 118 MSGGSSCSQTPSRAIPATRRVVLGDGVQLPPGDYSTTPGGTLFSTTPGGTRIIYDRKFLMECRNSPVTKTPPRDLPTIPGVTSPSSDEPPMEASQSHLRNSPEDKRAGGEESQFEMDI Paper 9684899 Fletcher CM, Wagner G The interaction of eIF4E with 4E-BP1 is an induced fit to a completely disordered protein 1998 Protein Sci 7 7 1639-42 Glial cell line-derived neurotrophic factor GDNF Glial cell line-derived neurotrophic factor [Precursor] Q07731 Q07731 729568 A37499 Rattus norvegicus (Rat) 211 MKLWDVVAVCLVLLHTASAFPLPAGKRLLEAPAEDHSLGHRRVPFALTSDSNMPEDYPDQFDDVMDFIQATIKRLKRSPDKQAAALPRRERNRQAAAASPENSRGKGRRGQRGKNRGCVLTAIHLNVTDLGLGYETKEELIFRYCSGSCEAAETMYDKILKNLSRSRRLTSDKVGQACCRPVAFDDDLSFLDDSLVYHILRKHSAKRCGCI Disordered - Extended 77 113 RSPDKQAAALPRRERNRQAAAASPENSRGKGRRGQRG Engineered 1AGQA 1AGQB 1AGQC 1AGQD Relationship to function unknown Molecular assembly Protein-protein binding X-ray crystallography benzamidine 0.1 HEPES pH 7.0 50 LiCl 0.8 PEG 6000 20 soduim azide 0.02 Paper 9187648 Eigenbrot C, Gerber N X-ray structure of glial cell-derived neurotrophic factor at 1.9 A resolution and implications for receptor binding 1997 Nat Struct Biol 4 6 435-8 10545102 Eketjall S, Fainzilber M, Murray-Rust J, Ibanez CF Distinct structural elements in GDNF mediate binding to GFRalpha1 and activation of the GFRalpha1-c-Ret receptor complex 1999 Embo J 18 21 5901-10 The first identifiable residue in 1AGQ was ASN 115 in chain A, LYS 114 in chain B, GLY 117 in chain C, and GLY 117 in chain D. This supports claims in the Eigenbrot paper about dependency on the monomer. The experimental protein consisted of residues 78 - 211 of SwissProt entry Q07731. Disordered - Extended 170 173 TSDK Engineered 1AGQA 1AGQB 1AGQC 1AGQD Relationship to function unknown Unknown Unknown X-ray crystallography benzamidine 0.1 HEPES pH 7.0 50 LiCl 0.8 PEG 6000 20 soduim azide 0.02 Paper 10545102 Eketjall S, Fainzilber M, Murray-Rust J, Ibanez CF Distinct structural elements in GDNF mediate binding to GFRalpha1 and activation of the GFRalpha1-c-Ret receptor complex 1999 Embo J 18 21 5901-10 This sequence is part of a flexible loop that connects the alpha helix region to the second finger region of the protein. The experimental protein consisted of residues 78 - 211 of SwissProt entry Q07731. Ordered 114 169 KNRGCVLTAIHLNVTDLGLGYETKEELIFRYCSGSCEAAETMYDKILKNLSRSRRL 1AGQA 1AGQB 1AGQC 1AGQD Paper 9187648 Eigenbrot C, Gerber N X-ray structure of glial cell-derived neurotrophic factor at 1.9 A resolution and implications for receptor binding 1997 Nat Struct Biol 4 6 435-8 Ordered 174 211 VGQACCRPVAFDDDLSFLDDSLVYHILRKHSAKRCGCI 1AGQA 1AGQB 1AGQC 1AGQD Paper 9187648 Eigenbrot C, Gerber N X-ray structure of glial cell-derived neurotrophic factor at 1.9 A resolution and implications for receptor binding 1997 Nat Struct Biol 4 6 435-8 Glucocorticoid receptor GR P04150 Hs.126608 P04150 66528611 QRHUGA Homo sapiens (Human) 777 MDSKESLTPGREENPSSVLAQERGDVMDFYKTLRGGATVKVSASSPSLAVASQSDSKQRRLLVDFPKGSVSNAQQPDLSKAVSLSMGLYMGETETKVMGNDLGFPQQGQISLSSGETDLKLLEESIANLNRSTSVPENPKSSASTAVSAAPTEKEFPKTHSDVSSEQQHLKGQTGTNGGNVKLYTTDQSTFDILQDLEFSSGSPGKETNESPWRSDLLIDENCLLSPLAGEDDSFLLEGNSNEDCKPLILPDTKPKIKDNGDLVLSSPSNVTLPQVKTEKEDFIELCTPGVIKQEKLGTVYCQASFPGANIIGNKMSAISVHGVSTSGGQMYHYDMNTASLSQQQDQKPIFNVIPPIPVGSENWNRCQGSGDDNLTSLGTLNFPGRTVFSNGYSSPSMRPDVSSPPSSSSTATTGPPPKLCLVCSDEASGCHYGVLTCGSCKVFFKRAVEGQHNYLCAGRNDCIIDKIRRKNCPACRYRKCLQAGMNLEARKTKKKIKGIQQATTGVSQETSENPGNKTIVPATLPQLTPTLVSLLEVIEPEVLYAGYDSSVPDSTWRIMTTLNMLGGRQVIAAVKWAKAIPGFRNLHLDDQMTLLQYSWMFLMAFALGWRSYRQSSANLLCFAPDLIINEQRMTLPCMYDQCKHMLYVSSELHRLQVSYEEYLCMKTLLLLSSVPKDGLKSQELFDEIRMTYIKELGKAIVKREGNSSQNWQRFYQLTKLLDSMHEVVENLLNYCFQTFLDKTMSIEFPEMLAEIITNQIPKYSNGNIKKLLFHQK Disordered - Extended 77 262 DLSKAVSLSMGLYMGETETKVMGNDLGFPQQGQISLSSGETDLKLLEESIANLNRSTSVPENPKSSASTAVSAAPTEKEFPKTHSDVSSEQQHLKGQTGTNGGNVKLYTTDQSTFDILQDLEFSSGSPGKETNESPWRSDLLIDENCLLSPLAGEDDSFLLEGNSNEDCKPLILPDTKPKIKDNGD Engineered Fragment Function arises via a disorder to order transition Molecular recognition effectors Metal binding Phosphorylation Protein-DNA binding Protein-protein binding Far-UV circular dichroism (CD) 295 7 dithiothreitol 1 phosphate 3 TFE Nuclear magnetic resonance (NMR) 289 5.9 dithiothreitiol 1 phosphates 20 Paper 10196139 Baskakov IV, Kumar R, Srinivasan G, Ji YS, Bolen DW, Thompson EB Trimethylamine N-oxide-induced cooperative folding of an intrinsically unfolded transcription-activating fragment of human glucocorticoid receptor 1999 J Biol Chem 274 16 10693-10696 7878043 Dahlman-Wright K, Baumann H, McEwan IJ, Almlof T, Wright AP, Gustafsson JA, Hard T Structural characterization of a minimal functional transactivation domain from the human glucocorticoid receptor 1995 Proc Natl Acad Sci U S A 92 5 1699-1703 12902338 Li G, Wang S, Gelehrter TD Identification of glucocorticoid receptor domains involved in transrepression of transforming growth factor-beta action 2003 J Biol Chem 278 43 41779-41788 The 58 residue Tau1 core region of the disordered polypeptide from 187-244 retains 60-70% of the activity of the domain. The disordered region is devoid of structure at neutral pH in aqueous solution. The ligand-binding domain becomes notably more structured in the presence of triflouroethanol (TFE). TFE creates a more non-polar environment and favors secondary structure formation. The propensity towards alpha-helicial structure may be an important step in Tau1-mediated gene activation Disordered 1 500 MDSKESLTPGREENPSSVLAQERGDVMDFYKTLRGGATVKVSASSPSLAVASQSDSKQRRLLVDFPKGSVSNAQQPDLSKAVSLSMGLYMGETETKVMGNDLGFPQQGQISLSSGETDLKLLEESIANLNRSTSVPENPKSSASTAVSAAPTEKEFPKTHSDVSSEQQHLKGQTGTNGGNVKLYTTDQSTFDILQDLEFSSGSPGKETNESPWRSDLLIDENCLLSPLAGEDDSFLLEGNSNEDCKPLILPDTKPKIKDNGDLVLSSPSNVTLPQVKTEKEDFIELCTPGVIKQEKLGTVYCQASFPGANIIGNKMSAISVHGVSTSGGQMYHYDMNTASLSQQQDQKPIFNVIPPIPVGSENWNRCQGSGDDNLTSLGTLNFPGRTVFSNGYSSPSMRPDVSSPPSSSSTATTGPPPKLCLVCSDEASGCHYGVLTCGSCKVFFKRAVEGQHNYLCAGRNDCIIDKIRRKNCPACRYRKCLQAGMNLEARKTKKKIKGI Engineered Fragment Function arises via a disorder to order transition Molecular recognition effectors Metal binding Phosphorylation Protein-DNA binding Protein-protein binding Far-UV circular dichroism (CD) 295 NaCl buffer pH 7.9 10 Tris 10 Paper 10196139 Baskakov IV, Kumar R, Srinivasan G, Ji YS, Bolen DW, Thompson EB Trimethylamine N-oxide-induced cooperative folding of an intrinsically unfolded transcription-activating fragment of human glucocorticoid receptor 1999 J Biol Chem 274 16 10693-10696 The sequence given in Hollenberg (1985) appears to be in error. Blasting against the Swiss-Prot sequence reveals only a 94% similarity with all the discrepancies being tyrosines replacing lysines. Glycine N-methyltransferase Folate-binding protein P13255 121328 S00112 Rattus norvegicus (Rat) 292 VDSVYRTRSLGVAAEGIPDQYADGEAARVWQLYIGDTRSRTAEYKAWLLGLLRQHGCHRVLDVACGTGVDSIMLVEEGFSVTSVDASDKMLKYALKERWNRRKEPAFDKWVIEEANWLTLDKDVPAGDGFDAVICLGNSFAHLPDSKGDQSEHRLALKNIASMVRPGGLLVIDHKNYDYILSTGCAPPGKNIYYKSDLTKDITTSVLTVNNKAHMVTLDYTVQVPGAGRDGAPGFSKFRLSYYPHCLASFTELVQEAFGGRCQHSVLGDFKPYRPGQAYVPCYFIHVLKKTG Disordered 1 40 VDSVYRTRSLGVAAEGIPDQYADGEAARVWQLYIGDTRSR Paper 10756111 Huang Y, Komoto J, Konishi K, Takata Y, Ogawa H, Gomi T, Fujioka M, Takusagawa F Mechanisms for auto-inhibition and forced product release in glycine N-methyltransferase: crystal structures of wild-type, mutant R175K and S-adenosylhomocysteine-bound R175K enzymes 2000 J Mol Biol 298 1 149-62 Human growth hormone binding protein hGHbp Human growth hormone receptor binding domain Human growth hormone receptor extracellular domain P10912 Hs.125180 P10912 4503993 A33991 Homo sapiens (Human) 246 FSGSEATAAILSRAPWSLQSVNPGLKTNSSKEPKFTKCRSPERETFSCHWTDEVHHGTKNLGPIQLFYTRRNTQEWTQEWKECPDYVSAGENSCYFNSSFTSIWIPYCIKLTSNGGTVDEKCFSVDEIVQPDPPIALNWTLLNVSLTGIHADIQVRWEAPRNADIQKGWMVLEYELQYKEVNETKWKMMDPILTTSVPVYSLKVDKEYEVRVRSKQRNSGNYGEFSEVLYVTLPQMSQFTCEEDFY Disordered - Extended 1 32 FSGSEATAAILSRAPWSLQSVNPGLKTNSSKE Complex 1A22B Relationship to function unknown Unknown Unknown X-ray crystallography 1:1 complex structure determined at 2.6 Angstroms 1:2 complex structure determined at 2.6 Angstroms Paper 9571026 Clackson T, Ultsch MH, Wells JA, de Vos AM Structural and functional analysis of the 1:1 growth hormone:receptor complex reveals the molecular basis for receptor affinity 1998 J Mol Biol 277 5 1111-1128 Disordered - Extended 52 60 DEVHHGTKN Complex 1A22B Relationship to function unknown Unknown Unknown X-ray crystallography 1:1 complex structure determined at 2.6 Angstroms 1:2 complex structure determined at 2.6 Angstroms Paper 9571026 Clackson T, Ultsch MH, Wells JA, de Vos AM Structural and functional analysis of the 1:1 growth hormone:receptor complex reveals the molecular basis for receptor affinity 1998 J Mol Biol 277 5 1111-1128 Disordered - Extended 144 147 VSLT Complex 1A22B Relationship to function unknown Unknown Unknown X-ray crystallography 1:1 complex structure determined at 2.6 Angstroms 1:2 complex structure determined at 2.6 Angstroms Paper 9571026 Clackson T, Ultsch MH, Wells JA, de Vos AM Structural and functional analysis of the 1:1 growth hormone:receptor complex reveals the molecular basis for receptor affinity 1998 J Mol Biol 277 5 1111-1128 Disordered - Extended 238 238 Q Complex 1A22B Relationship to function unknown Unknown Unknown X-ray crystallography 1:1 complex structure determined at 2.6 Angstroms 1:2 complex structure determined at 2.6 Angstroms Paper 9571026 Clackson T, Ultsch MH, Wells JA, de Vos AM Structural and functional analysis of the 1:1 growth hormone:receptor complex reveals the molecular basis for receptor affinity 1998 J Mol Biol 277 5 1111-1128 Disordered - Extended 222 226 YGEFS Complex 1A22B Relationship to function unknown Unknown Unknown X-ray crystallography 1:1 complex structure determined at 2.6 Angstroms 1:2 complex structure determined at 2.6 Angstroms X-ray crystallography 5.5 1:2 complex structure determined at 2.8 Angstroms K2AuCl4 K2PtCl4 saturated ammonium sulfate 40 sodium acetate 0.1 Paper 9571026 Clackson T, Ultsch MH, Wells JA, de Vos AM Structural and functional analysis of the 1:1 growth hormone:receptor complex reveals the molecular basis for receptor affinity 1998 J Mol Biol 277 5 1111-1128 1549776 de Vos AM, Ultsch M, Kossiakoff AA Human growth hormone and extracellular domain of its receptor: crystal structure of the complex 1992 Science 255 5042 306-312 Residues 222-226 had poor electron density and were not modeled in the crystal structure (Clackson, 1998). Disordered - Extended 73 78 TQEWTQ Complex 1A22B Relationship to function unknown Unknown Unknown X-ray crystallography 1:1 complex structure determined at 2.6 Angstroms 1:2 complex structure determined at 2.6 Angstroms X-ray crystallography 5.5 1:2 complex structure determined at 2.8 Angstroms K2AuCl4 K2PtCl4 saturated ammonium sulfate 40 sodium acetate 0.1 Paper 9571026 Clackson T, Ultsch MH, Wells JA, de Vos AM Structural and functional analysis of the 1:1 growth hormone:receptor complex reveals the molecular basis for receptor affinity 1998 J Mol Biol 277 5 1111-1128 1549776 de Vos AM, Ultsch M, Kossiakoff AA Human growth hormone and extracellular domain of its receptor: crystal structure of the complex 1992 Science 255 5042 306-312 The binding proteins of the 1:2 (hormone:binding protein) complex are hGHbp I and hGHbp II. De Vos found this region to be disordered in hGHbp I (de Vos 1992). Disordered - Extended 1 31 FSGSEATAAILSRAPWSLQSVNPGLKTNSSK Complex 1HWGB 1HWGC 1HWHB Relationship to function unknown Unknown Unknown X-ray crystallography 291 1:1 complex crystals defracted to 2.9 Angstroms 1:2 complex crystals defracted to 2.5 Angstroms 50% saturated LiSO4 solution to stabilize Bis-Tris pH 6.25-6.75 50 LiSO4 3 microliters 1.6 MES pH 5.25 (to stabilize) 0.1 MgCl2 to stabilize 0.5 Paper 8943276 Sundstrom M, Lundqvist T, Rodin J, Giebel LB, Milligan D, Norstedt G Crystal structure of an antagonist mutant of human growth hormone, G120R, in complex with its receptor at 2.9 A resolution 1996 J Biol Chem 271 50 32197-32203 The N-terminus region of the hGHbp, for both the native 1:2 complex and the mutated 1:1 complex, had missing electron density for the first 31 residues (Sundstrom, 1996). Disordered - Extended 50 62 WTDEVHHGTKNLG Complex 1HWGB 1HWGC Relationship to function unknown Unknown Unknown X-ray crystallography 291 1:1 complex crystals defracted to 2.9 Angstroms 1:2 complex crystals defracted to 2.5 Angstroms 50% saturated LiSO4 solution to stabilize Bis-Tris pH 6.25-6.75 50 LiSO4 3 microliters 1.6 MES pH 5.25 (to stabilize) 0.1 MgCl2 to stabilize 0.5 Paper 8943276 Sundstrom M, Lundqvist T, Rodin J, Giebel LB, Milligan D, Norstedt G Crystal structure of an antagonist mutant of human growth hormone, G120R, in complex with its receptor at 2.9 A resolution 1996 J Biol Chem 271 50 32197-32203 Disordered - Extended 72 78 NTQEWTQ Complex 1HWGB 1HWGC Relationship to function unknown Unknown Unknown X-ray crystallography 291 1:1 complex crystals defracted to 2.9 Angstroms 1:2 complex crystals defracted to 2.5 Angstroms 50% saturated LiSO4 solution to stabilize Bis-Tris pH 6.25-6.75 50 LiSO4 3 microliters 1.6 MES pH 5.25 (to stabilize) 0.1 MgCl2 to stabilize 0.5 Paper 8943276 Sundstrom M, Lundqvist T, Rodin J, Giebel LB, Milligan D, Norstedt G Crystal structure of an antagonist mutant of human growth hormone, G120R, in complex with its receptor at 2.9 A resolution 1996 J Biol Chem 271 50 32197-32203 Disordered - Extended 234 237 PQMS Complex 1HWGB 1HWGC Relationship to function unknown Unknown Unknown X-ray crystallography 291 1:1 complex crystals defracted to 2.9 Angstroms 1:2 complex crystals defracted to 2.5 Angstroms 50% saturated LiSO4 solution to stabilize Bis-Tris pH 6.25-6.75 50 LiSO4 3 microliters 1.6 MES pH 5.25 (to stabilize) 0.1 MgCl2 to stabilize 0.5 Paper 8943276 Sundstrom M, Lundqvist T, Rodin J, Giebel LB, Milligan D, Norstedt G Crystal structure of an antagonist mutant of human growth hormone, G120R, in complex with its receptor at 2.9 A resolution 1996 J Biol Chem 271 50 32197-32203 Disordered - Extended 1 5 FSGSE Complex 1A22B Relationship to function unknown Unknown Unknown X-ray crystallography 1:1 complex structure determined at 2.6 Angstroms 1:2 complex structure determined at 2.6 Angstroms Paper 9571026 Clackson T, Ultsch MH, Wells JA, de Vos AM Structural and functional analysis of the 1:1 growth hormone:receptor complex reveals the molecular basis for receptor affinity 1998 J Mol Biol 277 5 1111-1128 Disordered - Extended 144 148 VSLTG Complex 1A22B Function arises via a disorder to order transition Molecular assembly Protein-protein binding X-ray crystallography 1:1 complex structure determined at 2.6 Angstroms 1:2 complex structure determined at 2.6 Angstroms Paper 9571026 Clackson T, Ultsch MH, Wells JA, de Vos AM Structural and functional analysis of the 1:1 growth hormone:receptor complex reveals the molecular basis for receptor affinity 1998 J Mol Biol 277 5 1111-1128 This region is likely stabilized upon binding of the second receptor to the growth hormone in the 1:2 complex (Clackson, 1998). Disordered - Extended 1 30 FSGSEATAAILSRAPWSLQSVNPGLKTNSS Complex Relationship to function unknown Unknown Unknown X-ray crystallography 5.5 1:2 complex structure determined at 2.8 Angstroms K2AuCl4 K2PtCl4 saturated ammonium sulfate 40 sodium acetate 0.1 Paper 1549776 de Vos AM, Ultsch M, Kossiakoff AA Human growth hormone and extracellular domain of its receptor: crystal structure of the complex 1992 Science 255 5042 306-312 The binding proteins of the 1:2 (hormone:binding protein) complex are hGHbp I and hGHbp II. De Vos found this region to be disordered in hGHbp II (de Vos 1992). Disordered - Extended 54 60 VHHGTKN Complex Relationship to function unknown Unknown Unknown X-ray crystallography 5.5 1:2 complex structure determined at 2.8 Angstroms K2AuCl4 K2PtCl4 saturated ammonium sulfate 40 sodium acetate 0.1 Paper 1549776 de Vos AM, Ultsch M, Kossiakoff AA Human growth hormone and extracellular domain of its receptor: crystal structure of the complex 1992 Science 255 5042 306-312 The binding proteins of the 1:2 (hormone:binding protein) complex are hGHbp I and hGHbp II. De Vos found this region to be disordered in hGHbp II (de Vos 1992). Disordered - Extended 73 75 TQE Complex Relationship to function unknown Unknown Unknown X-ray crystallography 5.5 1:2 complex structure determined at 2.8 Angstroms K2AuCl4 K2PtCl4 saturated ammonium sulfate 40 sodium acetate 0.1 Paper 1549776 de Vos AM, Ultsch M, Kossiakoff AA Human growth hormone and extracellular domain of its receptor: crystal structure of the complex 1992 Science 255 5042 306-312 In the de Vos reference, (de Vos_Science_255_306-312), they refer to both of the binding proteins of the 1:2 (hormone:binding proteins) complex. They are named hGHbp I and hGHbp II. De Vos found this region to be disordered in the hGHbp II. Disordered - Extended 1 28 FSGSEATAAILSRAPWSLQSVNPGLKTN Complex Relationship to function unknown Unknown Unknown X-ray crystallography 5.5 1:2 complex structure determined at 2.8 Angstroms K2AuCl4 K2PtCl4 saturated ammonium sulfate 40 sodium acetate 0.1 Paper 1549776 de Vos AM, Ultsch M, Kossiakoff AA Human growth hormone and extracellular domain of its receptor: crystal structure of the complex 1992 Science 255 5042 306-312 In the de Vos reference, (de Vos_Science_255_306-312), they refer to both of the binding proteins of the 1:2 (hormone:binding proteins) complex. They are named hGHbp I and hGHbp II. De Vos found this region to be disordered in the hGHbp I. Disordered - Extended 55 58 HHGT Complex Relationship to function unknown Unknown Unknown X-ray crystallography 5.5 1:2 complex structure determined at 2.8 Angstroms K2AuCl4 K2PtCl4 saturated ammonium sulfate 40 sodium acetate 0.1 Paper 1549776 de Vos AM, Ultsch M, Kossiakoff AA Human growth hormone and extracellular domain of its receptor: crystal structure of the complex 1992 Science 255 5042 306-312 The binding proteins of the 1:2 (hormone:binding protein) complex are hGHbp I and hGHbp II. De Vos found this region to be disordered in hGHbp I (de Vos 1992). Disordered - Extended 235 238 QMSQ Complex Relationship to function unknown Unknown Unknown X-ray crystallography 5.5 1:2 complex structure determined at 2.8 Angstroms K2AuCl4 K2PtCl4 saturated ammonium sulfate 40 sodium acetate 0.1 Paper 1549776 de Vos AM, Ultsch M, Kossiakoff AA Human growth hormone and extracellular domain of its receptor: crystal structure of the complex 1992 Science 255 5042 306-312 The binding proteins of the 1:2 (hormone:binding protein) complex are hGHbp I and hGHbp II. De Vos found this region to be disordered in hGHbp I (de Vos 1992). Human Growth Hormone binding protein (hGHbp) exists as a fully functional 238 residue protein in serum. These 238 residues are a fragment of a larger protein, human Growth Hormone Receptor, (hGH receptor), which has 638 residues. hGH consists of three domains; an extracellular binding domain- located outside of the membrane, a transmembrane domain, and a cytosolic domain. “It has been proposed that the hGH binding protein in serum derives from proteolysis of the membrane-bound form of the receptor near the transmembrane anchor" (Fuh, 1990). Residues 73-78 were not modeled in the crystal structure due to poor electron density (Clackson, 1998). There is some disagreement about the whether the protein is 238 residues long, as it is when attached to the entire hGH receptor, or if it is 246 residues long, as it is when it is found freely in serum. However, the nine residue segment was shown to be not essential for function (Fuh, 1990). The UniProt entry for this protein mentions that one isoform has a different function: upregulation of the production of GHBP and as a negative inhibitor of GH signaling. The SwissProt entry states that the first 18 residues of the amino acid sequence form a signal sequence and are not considered part of the extracellular binding domain. Therefore, the extracellular binding domain starts at residue 19 and extends through residue 264. This sequence is 246 residues long. One human growth hormone binding protein (hGHbp) binds to a human growth hormone (hGH) followed by the binding of a second hGHbp to the same hGH. After the second hGHbp binds the two hGHbps (I and II) dimerize. Coat protein A [Precursor] G3P g3p (fd phage minor coat protein) P03661 116658 Bacteriophage fd 424 MKKLLFAIPLVVPFYSHSAETVESCLAKPHTENSFTNVWKDDKTLDRYANYEGCLWNATGVVVCTGDETQCYGTWVPIGLAIPENEGGGSEGGGSEGGGSEGGGTKPPEYGDTPIPGYTYINPLDGTYPPGTEQNPANPNPSLEESQPLNTFMFQNNRFRNRQGALTVYTGTVTQGTDPVKTYYQYTPVSSKAMYDAYWNGKFRDCAFHSGFNEDPFVCEYQGQSSDLPQPPVNAGGGSGGGSGGGSEGGGSEGGGSEGGGSEGGGSGGGSGSGDFDYEKMANANKGAMTENADENALQSDAKGKLDSVATDYGAAIDGFIGDVSGLANGNGATGDFAGSNSQMAQVGDGDNSPLMNNFRQYLPSLPQSVECRPYVFGAGKPYEFSIDCDKINLFRGVFAFLLYVATFMYVFSTFANILRNKES Disordered 236 274 GGGSGGGSGGGSEGGGSEGGGSEGGGSEGGGSGGGSGSG Paper 10329170 Holliger P, Riechmann L, Williams RL Crystal structure of the two N-terminal domains of g3p from filamentous phage fd at 1.9 A: evidence for conformational lability 1999 J Mol Biol 288 4 649-57 10756036 Nilsson N, Malmborg AC, Borrebaeck CA The phage infection process: a functional role for the distal linker region of bacteriophage protein 3 2000 J Virol 74 9 4229-35 Guanine nucleotide-binding protein G(i), alpha-1 subunit Gia1 G protein Gi Alpha 1 P10824 121020 Rattus norvegicus (Rat) 353 GCTLSAEDKAAVERSKMIDRNLREDGEKAAREVKLLLLGAGESGKSTIVKQMKIIHEAGYSEEECKQYKAVVYSNTIQSIIAIIRAMGRLKIDFGDAARADDARQLFVLAGAAEEGFMTAELAGVIKRLWKDSGVQACFNRSREYQLNDSAAYYLNDLDRIAQPNYIPTQQDVLRTRVKTTGIVETHFTFKDLHFKMFDVGGQRSERKKWIHCFEGVTAIIFCVALSDYDLVLAEDEEMNRMHESMKLFDSICNNKWFTDTSIILFLNKKDLFEEKIKKSPLTICYPEYAGSNTYEEAAAYIQCQFEDLNKRKDTKEIYTHFTCATDTKNVQFVFDAVTDVIIKNNLKDCGLF Disordered 1 31 GCTLSAEDKAAVERSKMIDRNLREDGEKAAR Paper 8073283 Coleman DE, Berghuis AM, Lee E, Linder ME, Gilman AG, Sprang SR Structures of active conformations of Gi alpha 1 and the mechanism of GTP hydrolysis 1994 Science 265 5177 1405-12 Heat shock factor protein Heat shock transcription factor HSF HSTF P22121 123686 S13365 Kluyveromyces lactis (Yeast) 677 MGHNDSVETMDEISNPNNILLPHDGTGLDATGISGSQEPYGMVDVLNPDSLKDDSNVDEPLIEDIVNPSLDPEGVVSAEPSNEVGTPLLQQPISLDHVITRPASAGGVYSIGNSSTSSAAKLSDGDLTNATDPLLNNAHGHGQPSSESQSHSNGYHKQGQSQQPLLSLNKRKLLAKAHVDKHHSKKKLSTTRARPAFVNKLWSMVNDKSNEKFIHWSTSGESIVVPNRERFVQEVLPKYFKHSNFASFVRQLNMYGWHKVQDVKSGSMLSNNDSRWEFENENFKRGKEYLLENIVRQKSNTNILGGTTNAEVDIHILLNELETVKYNQLAIAEDLKRITKDNEMLWKENMMARERHQSQQQVLEKLLRFLSSVFGPNSAKTIGNGFQPDLIHELSDMQVNHMSNNNHNNTGNINPNAYHNETDDPMANVFGPLTPTDQGKVPLQDYKLRPRLLLKNRSMSSSSSSNLNQRQSPQNRIVGQSPPPQQQQQQQQQQGQPQGQQFSYPIQGGNQMMNQLGSPIGTQVGSPVGSQYGNQYGNQYSNQFGNQLQQQTSRPALHHGSNGEIRELTPSIVSSDSPDPAFFQDLQNNIDKQEESIQEIQDWITKLNPGPGEDGNTPIFPELNMPSYFANTGGSGQSEQPSDYGDSQIEELRNSRLHEPDRSFEEKNNGQKRRRAA Disordered 1 195 MGHNDSVETMDEISNPNNILLPHDGTGLDATGISGSQEPYGMVDVLNPDSLKDDSNVDEPLIEDIVNPSLDPEGVVSAEPSNEVGTPLLQQPISLDHVITRPASAGGVYSIGNSSTSSAAKLSDGDLTNATDPLLNNAHGHGQPSSESQSHSNGYHKQGQSQQPLLSLNKRKLLAKAHVDKHHSKKKLSTTRARP Function arises via a disorder to order transition Protein-DNA binding Transactivation (transcriptional activation) Nuclear magnetic resonance (NMR) 3.4 D2O 10 H2O 90 KH2PO4 10 Protein 3-5 mM Nuclear magnetic resonance (NMR) 5.75 D2O 10 H2O 90 KH2PO4 10 Protein 3-5 mM Far-UV circular dichroism (CD) 298 7 sodium phosphate 25 Paper 8745404 Cho HS, Liu CW, Damberger FF, Pelton JG, Nelson HC, Wemmer DE Yeast heat shock transcription factor N-terminal activation domains are unstructured as probed by heteronuclear NMR spectroscopy 1996 Protein Sci 5 2 262-9 Disordered Omega loop 217 222 STSGES Fragment Protein-DNA binding Transactivation (transcriptional activation) Nuclear magnetic resonance (NMR) 298 3.4 H2O/D2O 90/10 Potassium phosphate buffer 10 Protein (2-4mM) Paper 7849597 Damberger FF, Pelton JG, Harrison CJ, Nelson HC, Wemmer DE Solution structure of the DNA-binding domain of the heat shock transcription factor determined by multidimensional heteronuclear magnetic resonance spectroscopy 1994 Protein Sci 3 10 1806-1821 The fragment used for solution structure determination was the DNA-binding domain.(aa194-aa282) Disordered L1 260 276 VQDVKSGSMLSNNDSRW Fragment Protein-DNA binding Transactivation (transcriptional activation) Nuclear magnetic resonance (NMR) 298 3.4 H2O/D2O 90/10 Potassium phosphate buffer 10 protein 2-4 mM Paper 7849597 Damberger FF, Pelton JG, Harrison CJ, Nelson HC, Wemmer DE Solution structure of the DNA-binding domain of the heat shock transcription factor determined by multidimensional heteronuclear magnetic resonance spectroscopy 1994 Protein Sci 3 10 1806-1821 The fragment used for solution structure determination was the DNA-binding domain.(aa194-aa282) Disordered 268 271 MLSN Fragment Protein-DNA binding Transactivation (transcriptional activation) X-ray crystallography 281 Ammonium acetate 200 PEG4000 25-30% Sodium acetate pH 4.6 100 Paper 8284672 Harrison CJ, Bohm AA, Nelson HC Crystal structure of the DNA binding domain of the heat shock transcription factor 1994 Science 263 5144 224-7 The fragment used for solution structure determination was the DNA-binding domain.(aa194-aa282) In the Damberger and Harrison papers the sequences listed are one residue off from the referenced sequence. Regions 2 and 3 are shown as residues 217-222 and 261-277 respectively, but the sequences correspond to residues 216-221 and 260-276 in the referenced sequence. Region 4 is shown as residues 269-272 in the Harrison paper, but correspond to residues 268-271 in the referenced sequence. Peroxiredoxin EC 1.11.1.15 Q9Y9L0 14285795 Aeropyrum pernix 250 MPGSIPLIGERFPEMEVTTDHGVIKLPDHYVSQGKWFVLFSHPADFTPVCTTEFVSFARRYEDFQRLGVDLIGLSVDSVFSHIKWKEWIERHIGVRIPFPIIADPQGTVARRLGLLHAESATHTVRGVFIVDARGVIRTMLYYPMELGRLVDEILRIVKALKLGDSLKRAVPADWPNNEIIGEGLIVPPPTTEDQARARMESGQYRCLDWWFCWDTPASRDDVEEARRYLRRAAEKPAKLLYEEARTHLH Disordered 2 8 PGSIPLI Monomeric 2CV4A X-ray crystallography 291 DTT 1 NaCl 150 Tris-HCl pH 8.0 20 Paper 16214169 Mizohata E, Sakai H, Fusatomi E, Terada T, Murayama K, Shirouzu M, Yokoyama S Crystal Structure of an Archaeal Peroxiredoxin from the Aerobic Hyperthermophilic Crenarchaeon Aeropyrum pernix K1 2005 J Mol Biol Disordered 104 107 DPQG Monomeric 2CV4A X-ray crystallography 291 DTT 1 NaCl 150 Tris-HCl pH 8.0 20 Paper 16214169 Mizohata E, Sakai H, Fusatomi E, Terada T, Murayama K, Shirouzu M, Yokoyama S Crystal Structure of an Archaeal Peroxiredoxin from the Aerobic Hyperthermophilic Crenarchaeon Aeropyrum pernix K1 2005 J Mol Biol Disordered 113 125 LGLLHAESATHTV Monomeric 2CV4A X-ray crystallography 291 DTT 1 NaCl 150 Tris-HCl pH 8.0 20 Paper 16214169 Mizohata E, Sakai H, Fusatomi E, Terada T, Murayama K, Shirouzu M, Yokoyama S Crystal Structure of an Archaeal Peroxiredoxin from the Aerobic Hyperthermophilic Crenarchaeon Aeropyrum pernix K1 2005 J Mol Biol Disordered 197 206 RARMESGQYR Monomeric 2CV4A X-ray crystallography 291 DTT 1 NaCl 150 Tris-HCl pH 8.0 20 Paper 16214169 Mizohata E, Sakai H, Fusatomi E, Terada T, Murayama K, Shirouzu M, Yokoyama S Crystal Structure of an Archaeal Peroxiredoxin from the Aerobic Hyperthermophilic Crenarchaeon Aeropyrum pernix K1 2005 J Mol Biol Disordered 235 243 EKPAKLLYE Monomeric 2CV4A X-ray crystallography 291 DTT 1 NaCl 150 Tris-HCl pH 8.0 20 Paper 16214169 Mizohata E, Sakai H, Fusatomi E, Terada T, Murayama K, Shirouzu M, Yokoyama S Crystal Structure of an Archaeal Peroxiredoxin from the Aerobic Hyperthermophilic Crenarchaeon Aeropyrum pernix K1 2005 J Mol Biol Nonhistone chromosomal protein HMG-14 High-mobility group nucleosome binding domain 1 P02316 P02316 123099 NSBOH4 Bos taurus (Bovine) 100 PKRKVSSAEGAAKEEPKRRSARLSAKPAPAKVETKPKKAAGKDKSSDKKVQTKGKRGAKGKQAEVANQETKEDLPAENGETKNEESPASDEAEEKEAKSD Disordered - Extended 1 99 PKRKVSSAEGAAKEEPKRRSARLSAKPAPAKVETKPKKAAGKDKSSDKKVQTKGKRGAKGKQAEVANQETKEDLPAENGETKNEESPASDEAEEKEAKS Native Function arises from the disordered state Function arises via a disorder to order transition Molecular assembly Molecular recognition effectors Acetylation Phosphorylation Protein-DNA binding Protein-protein binding Far-UV circular dichroism (CD) Nuclear magnetic resonance (NMR) Infrared spectroscopy Paper 6273163 Cary PD, Crane-Robinson C, Bradbury EM, Dixon GH Structural studies of the non-histone chromosomal proteins HMG-T and H6 from trout testis 1981 Eur J Biochem 119 3 545-551 Nonhistone chromosomal protein HMG-17 High mobility group - 17 High-mobility group (nonhistone chromosomal) protein 17 High-mobility group nucleosomal binding domain 2 High mobility group protein N2 Bt.1758 P05204 5031749 S03700 Homo sapiens (Human) 89 PKRKAEGDAKGDKAKVKDEPQRRSARLSAKPAPPKPEPKPKKAPAKKGEKVPKGKKGKADAGKEGNNPAENGDAKTDQAQKAEGAGDAK Disordered - Extended 1 89 PKRKAEGDAKGDKAKVKDEPQRRSARLSAKPAPPKPEPKPKKAPAKKGEKVPKGKKGKADAGKEGNNPAENGDAKTDQAQKAEGAGDAK Native Function arises via a disorder to order transition Molecular assembly Molecular recognition effectors Acetylation Phosphorylation Protein-DNA binding Protein-protein binding Far-UV circular dichroism (CD) protien concentration 0.08 Nuclear magnetic resonance (NMR) Small-angle X-ray scattering wavelength: 0.8 nm Infrared spectroscopy 6.8 NaCl salt 1 protien concentration 14 Paper 565710 Abercrombie BD, Kneale GG, Crane-Robinson C, Bradbury EM, Goodwin GH, Walker JM, Johns EW Studies on the conformational properties of the high-mobility-group chromosomal protein HMG 17 and its interaction with DNA 1978 Eur J Biochem 84 1 173-177 High mobility group protein HMG-I/HMG-Y High mobility group - I(Y) HMG-I(Y) P17096 P17096 123377 A32794 Homo sapiens (Human) 107 MSESSSKSSQPLASKQEKDGTEKRGRGRPRKQPPVSPGTALVGSQKEPSEVPTPKRPRGRPKGSKNKGAAKTRKTTTTPGRKPRGRPKKLEKEEEEGISQESSEEEQ Disordered - Extended 1 107 MSESSSKSSQPLASKQEKDGTEKRGRGRPRKQPPVSPGTALVGSQKEPSEVPTPKRPRGRPKGSKNKGAAKTRKTTTTPGRKPRGRPKKLEKEEEEGISQESSEEEQ 2EZDA 2EZEA 2EZFA 2EZGA Function arises from the disordered state Function arises via a disorder to order transition Molecular assembly Protein-DNA binding Protein-protein binding Nuclear magnetic resonance (NMR) Paper 11498590 Munshi N, Agalioti T, Lomvardas S, Merika M, Chen G, Thanos D Coordination of a transcriptional switch by HMGI(Y) acetylation 2001 Science 293 5532 1133-1136 11593421 Pierantoni GM, Fedele M, Pentimalli F, Benvenuto G, Pero R, Viglietto G, Santoro M, Chiariotti L, Fusco A High mobility group I (Y) proteins bind HIPK2, a serine-threonine kinase protein which inhibits cell growth 2001 Oncogene 20 43 6132-6141 7559428 Wang, D. Z. Ray, P. Boothby, M. Interleukin 4-inducible phosphorylation of HMG-I(Y) is inhibited by rapamycin 1995 J Biol Chem 270 39 22924-22932 10372360 Reeves, R. Nissen, M. S. Purification and assays for high mobility group HMG-I(Y) protein function 1996 Methods of Enzymology 304 155-188 High mobility group-T protein HMG-T HMG-T1 P07746 Omy.4110 P07746 123382 T01071 Oncorhynchus mykiss (Rainbow trout) 204 MGKDPRKPRGKMSSYAYFVQTRREEHKKKHPEASVNFSEFSKKCSERWKTMSAKEKGKFEDLAKLDKVRYEREMRSYIPPKGEKKKRFKDPNAPKRPSSAFFIFCADFRPQVKGETPGLSIGDVAKKLGEKWNNLTAEDKVPYEKKASRLKEKYEKDITAYRNKGKVPVSMPAKAAAPAKDDDDDDDDDDDDEDDDDDDDEDDE Disordered - Extended 1 204 MGKDPRKPRGKMSSYAYFVQTRREEHKKKHPEASVNFSEFSKKCSERWKTMSAKEKGKFEDLAKLDKVRYEREMRSYIPPKGEKKKRFKDPNAPKRPSSAFFIFCADFRPQVKGETPGLSIGDVAKKLGEKWNNLTAEDKVPYEKKASRLKEKYEKDITAYRNKGKVPVSMPAKAAAPAKDDDDDDDDDDDDEDDDDDDDEDDE Function arises via a disorder to order transition Molecular assembly Protein-DNA binding Far-UV circular dichroism (CD) 2 Nuclear magnetic resonance (NMR) Paper 6273163 Cary, P. D. Crane-Robinson, C. Bradbury, E. M. Dixon, G. H. Structural studies of the non-histone chromosomal proteins HMG-T and H6 from trout testis 1981 Eur J Biochem 119 3 545-551 Nonhistone chromosomal protein H6 High mobility group - H6 Histone T P02315 462245 Oncorhynchus mykiss (Rainbow trout) 69 PKRKSATKGDEPARRSARLSARPVPKPAAKPKKAAAPKKAVKGKKAAENGDAKAEAKVQAAGDGAGNAK Disordered - Extended 1 69 PKRKSATKGDEPARRSARLSARPVPKPAAKPKKAAAPKKAVKGKKAAENGDAKAEAKVQAAGDGAGNAK Function arises via a disorder to order transition Molecular assembly Protein-DNA binding Far-UV circular dichroism (CD) Nuclear magnetic resonance (NMR) Paper 6273163 Cary PD, Crane-Robinson C, Bradbury EM, Dixon GH Structural studies of the non-histone chromosomal proteins HMG-T and H6 from trout testis 1981 Eur J Biochem 119 3 545-551 TonB P02929 1742041 Escherichia coli 239 MTLDLPRRFPWPTLLSVCIHGAVVAGLLYTSVHQVIELPAPAQPISVTMVTPADLEPPQAVQPPPEPVVEPEPEPEPIPEPPKEAPVVIEKPKPKPKPKPKPVKKVQEQPKRDVKPVESRPASPFENTAPARLTSSTATAATSKPVTSVASGPRALSRNQPQYPARAQALRIEGQVKVKFDVTPDGRVDNVQILSAKPANMFEREVKNAMRRWRYEPGKPGSGIVVNILFKINGTTEIQ Disordered 103 151 VKKVQEQPKRDVKPVESRPASPFENTAPARLTSSTATAATSKPVTSVAS Fragment Monomeric Metal binding Protein-protein binding Nuclear magnetic resonance (NMR) 298 7 NaCl 100 Tris 50 Paper 15644214 Peacock RS, Weljie AM, Howard SP, Price FD, and Vogel HJ The Solution Structure of the C-terminal Domain of TonB and Interaction Studies with TonB Box Peptides 2005 J. Mol. Biol. 345 1185-1197 The protein sequence referenced in the paper matches 98% with the Swiss-Prot sequence with discrepancies at amino acids 113, 159, 186 and an additional 5-amino acid initiation complex tagged at the beginning. Histone H5 Gga.8460 P02259 122112 Gallus gallus (Chicken) 189 TESLVLSPAPAKPKRVKASRRSASHPTYSEMIAAAIRAEKSRGGSSRQSIQKYIKSHYKVGHNADLQIKLSIRRLLAAGVLKQTKGVGASGSFRLAKSDKAKRSPGKKKKAVRRSTSPKKAARPRKARSPAKKPKATARKARKKSRASPKKAKKPKTVKAKSRKASKAKKVKRSKPRAKSGARKSPKKK Disordered - Extended 1 21 TESLVLSPAPAKPKRVKASRR Relationship to function unknown Unknown Unknown X-ray crystallography 8.2 phosphate 2.2 Sensitivity to proteolysis Paper 2181148 Graziano, V. Gerchman, S. E. Wonacott, A. J. Sweet, R. M. Wells, J. R. White, S. W. Ramakrishnan, V. Crystallization of the globular domain of histone H5 1990 J Mol Biol 212 2 253-257 Disordered - Extended 101 185 AKRSPGKKKKAVRRSTSPKKAARPRKARSPAKKPKATARKARKKSRASPKKAKKPKTVKAKSRKASKAKKVKRSKPRAKSGARKS Function arises via a disorder to order transition Molecular assembly Protein-DNA binding X-ray crystallography 8.2 phosphate 2.2 Sensitivity to proteolysis Paper 2181148 Graziano, V. Gerchman, S. E. Wonacott, A. J. Sweet, R. M. Wells, J. R. White, S. W. Ramakrishnan, V. Crystallization of the globular domain of histone H5 1990 J Mol Biol 212 2 253-257 Ordered 21 100 RSASHPTYSEMIAAAIRAEKSRGGSSRQSIQKYIKSHYKVGHNADLQIKLSIRRLLAAGVLKQTKGVGASGSFRLAKSDK Function arises from the ordered state Molecular assembly Protein-DNA binding Paper 2181148 Graziano, V. Gerchman, S. E. Wonacott, A. J. Sweet, R. M. Wells, J. R. White, S. W. Ramakrishnan, V. Crystallization of the globular domain of histone H5 1990 J Mol Biol 212 2 253-257 Hypoxanthine-guanine phosphoribosyltransferase Guanine phosphoribosyltransferase HGPRTase HPRT Hypoxanthine Phosphoribosyltransferase IMP diphosphorylase IMP pyrophosphorylase Transphosphoribosidase Q27796 Q27796 386724 Trypanosoma cruzi 220 PREYEFAEKILFTEEEIRTRIKEVAKRIADDYKGKGLRPYVNPLVLISVLKGSFMFTADLCRALCDFNVPVRMEFICVSSYGEGLTSSGQVRMLLDTRHSIEGHHVLIVEDIVDTALTLNYLYHMYFTRRPASLKTVVLLDKREGRRVPFSADYVVANIPNAFVIGYGLDYDDTYRELRDIVVLRPEVYAEREAARQKKQRAIGSADTDRDAKREFHSKY Disordered - Extended 191 220 EREAARQKKQRAIGSADTDRDAKREFHSKY 1TC1A Relationship to function unknown Unknown Unknown X-ray crystallography Paper 9790669 Focia PJ, Craig SP 3rd, Nieves-Alicea R, Fletterick RJ, Eakin AE A 1.4 A crystal structure for the hypoxanthine phosphoribosyltransferase of Trypanosoma cruzi 1998 Biochemistry 37 43 15066-15075 Ordered 5 190 EFAEKILFTEEEIRTRIKEVAKRIADDYKGKGLRPYVNPLVLISVLKGSFMFTADLCRALCDFNVPVRMEFICVSSYGEGLTSSGQVRMLLDTRHSIEGHHVLIVEDIVDTALTLNYLYHMYFTRRPASLKTVVLLDKREGRRVPFSADYVVANIPNAFVIGYGLDYDDTYRELRDIVVLRPEVYA Paper 9790669 Focia PJ, Craig SP 3rd, Nieves-Alicea R, Fletterick RJ, Eakin AE A 1.4 A crystal structure for the hypoxanthine phosphoribosyltransferase of Trypanosoma cruzi 1998 Biochemistry 37 43 15066-15075 This is subunit I of the protein. Lymphoid enhancer binding factor 1 Q9QXN1 Q9QXN1 8928168 Rattus norvegicus (Rat) 397 MPQLSGGGGGGDPELCATDEMIPFKDEGDPQKEKIFAEISHPEEEGDLADIKSSLVNESEIIPASNGHEVVGQTQSSQEPYHDKAREHPDDGKHPDGGLYNKGPSYSSYSGYIMMPNMNSDPYMSNGSLSPPIPRTSNKVPVVQPSHAVHPLTPLITYSDEHFSPGSHPSHIPSEVNPKQGMSRHPPAPEMPTFYPLSPGGVGQITPPLGWQGQPVYPITGGFRQAYPSSLSGDTSMSRFSHHMIPGPPGPHTTGIPHPAIVTPQVKQEHPHTDSDLMHVKPEHEQRKEQEPKRPHIKKPLNAFMLYMKEMRANVVAECTLKESAAINQILGRRWHALSREEQAKYYELARKERQLHMQLYPGWSARDNYGKKKKRKREKLQESTSGTGPRMTAAYI Disordered - Extended 296 397 HIKKPLNAFMLYMKEMRANVVAECTLKESAAINQILGRRWHALSREEQAKYYELARKERQLHMQLYPGWSARDNYGKKKKRKREKLQESTSGTGPRMTAAYI Function arises via a disorder to order transition DNA bending Protein-DNA binding Nuclear magnetic resonance (NMR) Paper 7651541 Love JJ, Li X, Case DA, Giese K, Grosschedl R, Wright PE Structural basis for DNA bending by the architectural transcription factor LEF-1 1995 Nature 376 6543 791-795 Myelin basic protein 20 kDa microtubule stabilizing protein MBP Myelin A1 protein Bt.6405 P02687 126796 Bos taurus (Bovine) 169 AAQKRPSQRSKYLASASTMDHARHGFLPRHRDTGILDSLGRFFGSDRGAPKRGSGKDGHHAARTTHYGSLPQKAQGHRPQDENPVVHFFKNIVTPRTPPPSQGKGRGLSLSRFSWGAEGQKPGFGYGGRASDYKSAHKGLKGHDAQGTLSKIFKLGGRDSRSGSPMARR Disordered - Extended 1 169 AAQKRPSQRSKYLASASTMDHARHGFLPRHRDTGILDSLGRFFGSDRGAPKRGSGKDGHHAARTTHYGSLPQKAQGHRPQDENPVVHFFKNIVTPRTPPPSQGKGRGLSLSRFSWGAEGQKPGFGYGGRASDYKSAHKGLKGHDAQGTLSKIFKLGGRDSRSGSPMARR Function arises via a disorder to order transition Molecular assembly Protein-lipid interaction Far-UV circular dichroism (CD) Paper 10394626 Polverini, E. Fasano, A. Zito, F. Riccio, P. Cavatorta, P. Conformation of bovine myelin basic protein purified with bound lipids. 1999 Eur Biophys J 28 4 351-355 Nef protein 27 kDa protein 3'ORF F-protein Negative factor, HIV1 Q71VG3 P03406 128023 Human immunodeficiency virus type 1 (BRU isolate) (HIV-1) 206 MGGKWSKSSVVGWPTVRERMRRAEPAADGVGAASRDLEKHGAITSSNTAATNAACAWLEAQEEEEVGFPVTPQVPLRPMTYKAAVDLSHFLKEKGGLEGLIHSQRRQDILDLWIYHTQGYFPDWQNYTPGPGVRYPLTFGWCYKLVPVEPDKVEEANKGENTSLLHPVSLHGMDDPEREVLEWRFDSRLAFHHVARELHPEYFKNC Disordered - Extended 1 73 MGGKWSKSSVVGWPTVRERMRRAEPAADGVGAASRDLEKHGAITSSNTAATNAACAWLEAQEEEEVGFPVTPQ 1AVVA 1AVZA 1EFNA 1QA4A Function arises from the disordered state Function arises via a disorder to order transition Fatty acylation (myristolation and palmitoylation) Flexible linkers/spacers Phosphorylation Protein-lipid interaction Protein-protein binding Regulation of proteolysis in vivo Nuclear magnetic resonance (NMR) X-ray crystallography Paper 9351809 Arold S, Franken P, Strub MP, Hoh F, Benichou S, Benarous R, Dumas C The crystal structure of HIV-1 Nef protein bound to the Fyn kinase SH3 domain suggests a role for this complex in altered T cell receptor signaling 1997 Structure (Camb) 5 10 1361-1372 This region was disordered according to the PDB files. Disordered - Extended 149 178 EPDKVEEANKGENTSLLHPVSLHGMDDPER 1AVVA 1AVZA 1EFNA 1QA4A Relationship to function unknown Unknown Protein-protein binding Nuclear magnetic resonance (NMR) X-ray crystallography Paper 9351809 Arold S, Franken P, Strub MP, Hoh F, Benichou S, Benarous R, Dumas C The crystal structure of HIV-1 Nef protein bound to the Fyn kinase SH3 domain suggests a role for this complex in altered T cell receptor signaling 1997 Structure (Camb) 5 10 1361-1372 This region was disordered according to the PDB files. Disordered - Extended 204 206 KNC 1AVVA 1AVZA 1EFNA 1QA4A Relationship to function unknown Unknown Unknown Nuclear magnetic resonance (NMR) X-ray crystallography Paper 9351809 Arold S, Franken P, Strub MP, Hoh F, Benichou S, Benarous R, Dumas C The crystal structure of HIV-1 Nef protein bound to the Fyn kinase SH3 domain suggests a role for this complex in altered T cell receptor signaling 1997 Structure (Camb) 5 10 1361-1372 This region was disordered according to the PDB files. Disordered - Extended 1 70 MGGKWSKSSVVGWPTVRERMRRAEPAADGVGAASRDLEKHGAITSSNTAATNAACAWLEAQEEEEVGFPV 1AVVA 1AVZA 1EFNA 1QA4A Function arises from the disordered state Function arises via a disorder to order transition Fatty acylation (myristolation and palmitoylation) Flexible linkers/spacers Phosphorylation Protein-lipid interaction Protein-protein binding Regulation of proteolysis in vivo Nuclear magnetic resonance (NMR) X-ray crystallography Paper 11406408 Arold ST, Baur AS Dynamic Nef and Nef dynamics: how structure could explain the complex activities of this small HIV protein 2001 Trends Biochem Sci 26 6 356-363 Disordered - Extended 148 178 VEPDKVEEANKGENTSLLHPVSLHGMDDPER 1AVVA 1AVZA 1EFNA 1QA4A Relationship to function unknown Unknown Unknown Nuclear magnetic resonance (NMR) X-ray crystallography Paper 11406408 Arold ST, Baur AS Dynamic Nef and Nef dynamics: how structure could explain the complex activities of this small HIV protein 2001 Trends Biochem Sci 26 6 356-363 Ordered 71 147 TPQVPLRPMTYKAAVDLSHFLKEKGGLEGLIHSQRRQDILDLWIYHTQGYFPDWQNYTPGPGVRYPLTFGWCYKLVP 1AVVA Nuclear magnetic resonance (NMR) X-ray crystallography Paper 11406408 Arold ST, Baur AS Dynamic Nef and Nef dynamics: how structure could explain the complex activities of this small HIV protein 2001 Trends Biochem Sci 26 6 356-363 Ordered 179 203 EVLEWRFDSRLAFHHVARELHPEYF 1AVVA Nuclear magnetic resonance (NMR) X-ray crystallography Paper 11406408 Arold ST, Baur AS Dynamic Nef and Nef dynamics: how structure could explain the complex activities of this small HIV protein 2001 Trends Biochem Sci 26 6 356-363 Neural zinc finger factor-1 NZF-1 Rn.10559 P70475 1511632 T46637 Rattus norvegicus (Rat) 1187 MDVDAEEKRHRTRSKGVRVPVEPAIQELFSCPTPGCDGTGHVSGKYARHRSVYGCPLAKKRKTQDKQPQEPAPKRKPFAVKADSSSVDECYESDGTEDMDDKEEDDDEEFSEDNDEQGDDDDEDEVDREDEEEIEEEDDEDDEDDDDGDDVEEEEDDDDEEEEEEEEEEENEDHQMSCTRIMQDPEKDDNNNDEYDNYDELVAKSLLNLGKIAEDAAYRARTESEVNSNTSNSLEDHSSKNENLGRKSELSLDLDSDVVRETVDSLKLLAQGHGVVLSENISDRSYAEGMSQQDSRNMNYVMLGKPMNNGLMEKMVEESDEEVCLSSLECLRNQCFDLARKLSETNPQDRSQPPNMSVRQHVRQEDDFPGRTPDRSYSDMMNLMRLEEQLSPRSRTFSSCAKEDGCHERDDDTTTVNSDRSEEVFDMTKGNLTLLEKAIALETERAKAMREKMAMDAGRRDNLRSYEDQSPRQLAGEDRKSKSSDSHVKKPYYDPSRTEKRESKCPTPGCDGTGHVNGLYPHHRSLSGCPHKDRVPPEILAMHENVLKCPTPGCTGRGHVNSNRNSHRSLSGCPIAAAEKLAKAQEKHQSCDVSKSNQASDRVLRPMCFVKQLEIPQYGYRNNVPTTTPRSNLAKELEKYSKTSFEYNSYDNHTYGKRAIAPRCKPGTYPPKDMTMPSGTGKNASPSSSTTSSYAPSSSSNLSCGGGSSASSTCSKSSFDYTHDMEAAHMAATAILNLSTRCREMPQNLSTKPQDLCTARNPDMEVDENGTLDLSMNKQRPRDSCCPVLTPLEPMSPQQQAVMSSRCFQLSEGDCWDLPVDYTKMKPRRVDEEDPKEITPEDLDPFQEALEERRYPGEVTIPSPKPKYPQCKESKKDLITLSGCPLADKSIRSMLATSSQELKCPTPGCDGSGHITGNYASHRSLSGCPRAKKSGIRIAQSKEDKEDQEPIRCPVPGCDGQGHITGKYASHRSASGCPLAAKRQKDGYLNGSQFSWKSVKTEGMSCPTPGCDGSGHVSGSFLTHRSLSGCPRATSAMKKAKLSGEQMLTIKQRASNGIENDEEIKQLDEEIKELNESNSQMEADMIKLRTQVTITTMESNLKTIEEENKVIEQQNESLLHELANLSQSLIHSLANIQLPHMDPINEQNFDAYVTTLTEMYTNQDRYQSPENKALLENIKQAVRGIQV Disordered - Extended zinc binding domains 487 606 HVKKPYYDPSRTEKRESKCPTPGCDGTGHVNGLYPHHRSLSGCPHKDRVPPEILAMHENVLKCPTPGCTGRGHVNSNRNSHRSLSGCPIAAAEKLAKAQEKHQSCDVSKSNQASDRVLRP Complex Fragment Function arises via a disorder to order transition Molecular recognition effectors Metal binding Protein-DNA binding Transactivation (transcriptional activation) Nuclear magnetic resonance (NMR) Aberrant mobility on SDS-PAGE gel +/- Zn Paper 10606515 Berkovits, H. J. Berg, J. M. Metal and DNA binding properties of a two-domain fragment of neural zinc finger factor 1, a CCHC-type zinc binding protein 1999 Biochemistry 38 51 16826-16830 Neurofilament triplet H protein 200 kDa neurofilament protein Neurofilament H Neurofilament heavy polypeptide NF-H Mm.298283 P19246 128127 QFMSH Mus musculus (Mouse) 1087 MSFGSADALLGAPFAPLHGGGSLHYSLSRKAGPGGTRSAAGSSSGFHSWARTSVSSVSASPSRFRGAASSTDSLDTLSNGPEGCVVAAVAARSEKEQLQALNDRFAGYIDKVRQLEAHNRSLEGEAAALRQQKGRAAMGELYEREVREMRGAVLRLGAARGQLRLEQEHLLEDIAHVRQRLDEEARQREEAEAAARALAFAQEAEAARVELQKKAQALQEECGYLRRHHQEEVGELLGQIQGCGAAQAQAQAEARDALKCDVTSALREIRAQLEGHAVQSSLQSEEWFRVRLDRLSEAAKVNTDAMRSAQEEITEYRRQLQARTTELEALKSTKESLERQRSELEDRHQADIASYQDAIQQLDSELRNTKWEMAAQLREYQDLLNVKMALDIEIAAYRKLLEGEECRIGFGPSPFSLTEGLPKIPSISTHIKVKSEEMIKVVEKSEKETVIVEGQTEEIRVTEGVTEEEDKEAQGQEGEEAEEGEEKEEEELAAATSPPAEEAASPEKETKSRVKEEAKSPGEAKSPGEAKSPAEAKSPGEAKSPGEAKSPGEAKSPAEPKSPAEPKSPAEAKSPAEPKSPATVKSPGEAKSPSEAKSPAEAKSPAEAKSPAEAKSPAEAKSPAEAKSPAEAKSPATVKSPGEAKSPSEAKSPAEAKSPAEAKSPAEAKSPAEVKSPGEAKSPAEPKSPAEAKSPAEVKSPAEAKSPAEVKSPGEAKSPAAVKSPAEAKSPAAVKSPGEAKSPGEAKSPAEAKSPAEAKSPIEVKSPEKAKTPVKEGAKSPAEAKSPEKAKSPVKEDIKPPAEAKSPEKAKSPVKEGAKPPEKAKPLDVKSPEAQTPVQEEATVPTDIRPPEQVKSPAKEKAKSPEKEEAKTSEKVAPKKEEVKSPVKEEVKAKEPPKKVEEEKTLPTPKTEAKESKKDEAPKEAPKPKVEEKKETPTEKPKDSTAEAKKEEAGEKKKAVASEEETPAKLGVKEEAKPKEKTETTKTEAEDTKAKEPSKPTETEKPKKEEMPAAPEKKDTKEEKTTESRKPEEKPKMEAKVKEDDKSLSKEPSKPKTEKAEKSSSTDQKESQPPEKTTEDKATKGEK Disordered 409 1087 GFGPSPFSLTEGLPKIPSISTHIKVKSEEMIKVVEKSEKETVIVEGQTEEIRVTEGVTEEEDKEAQGQEGEEAEEGEEKEEEELAAATSPPAEEAASPEKETKSRVKEEAKSPGEAKSPGEAKSPAEAKSPGEAKSPGEAKSPGEAKSPAEPKSPAEPKSPAEAKSPAEPKSPATVKSPGEAKSPSEAKSPAEAKSPAEAKSPAEAKSPAEAKSPAEAKSPAEAKSPATVKSPGEAKSPSEAKSPAEAKSPAEAKSPAEAKSPAEVKSPGEAKSPAEPKSPAEAKSPAEVKSPAEAKSPAEVKSPGEAKSPAAVKSPAEAKSPAAVKSPGEAKSPGEAKSPAEAKSPAEAKSPIEVKSPEKAKTPVKEGAKSPAEAKSPEKAKSPVKEDIKPPAEAKSPEKAKSPVKEGAKPPEKAKPLDVKSPEAQTPVQEEATVPTDIRPPEQVKSPAKEKAKSPEKEEAKTSEKVAPKKEEVKSPVKEEVKAKEPPKKVEEEKTLPTPKTEAKESKKDEAPKEAPKPKVEEKKETPTEKPKDSTAEAKKEEAGEKKKAVASEEETPAKLGVKEEAKPKEKTETTKTEAEDTKAKEPSKPTETEKPKKEEMPAAPEKKDTKEEKTTESRKPEEKPKMEAKVKEDDKSLSKEPSKPKTEKAEKSSSTDQKESQPPEKTTEDKATKGEK Aberrant mobility on SDS-PAGE gel Sensitivity to proteolysis Paper 3220257 Julien JP, Cote F, Beaudet L, Sidky M, Flavell D, Grosveld F, Mushynski W Sequence and structure of the mouse gene coding for the largest neurofilament subunit 1988 Gene 68 2 307-314 9424114 Brown, H. G. Hoh, J. H. Entropic exclusion by neurofilament sidearms: a mechanism for maintaining interfilament spacing 1997 Biochemistry 36 49 15035-15040 9714161 Hoh, J. H. Functional protein domains from the thermally driven motion of polypeptide chains: a proposal 1998 Protein Sci 32 2 223-228 According to Brown (1997), the disordered region is a portion of the C-terminus. However, the exact numbered amino acids are not documented in the literature. Ornithine decarboxylase ODC P07805 7404357 DCUTOB Trypanosoma brucei 425 GAMDIVVNDDLSCRFLEGFNTRDALCKKISMNTCDEGDPFFVADLGDIVRKHETWKKCLPRVTPFYAVACNDDWRVLGTLAALGTGFDCASNTEIQRVRGIGVPPEKIIYANPCKQISHIRYARDSGVDVMTFDCVDELEKVAKTHPKAKMVLRISTDDSLARCRLSVKFGAKVEDCRFILEQAKKLNIDVTGVSFHVGSGSTDASTFAQAISDSRFVFDMGTELGFNMHILDIGGGFPGTRDAPLKFEEIAGVINNALEKHFPPDLKLTIVAEPGRYYVASAFTLAVNVIAKKVTPGVQTDVGAHAESNAQSFMYYVNDGVYGSFNCILYDHAVVRPLPQREPIPNEKLYPSSVWGPTCDGLDQIVERYYLPEMQVGEWLLFEDMGAYTVVGTSSFNGFQSPTIYYVVSGLPDHVVRELKSQKS Disordered - Extended 1 35 GAMDIVVNDDLSCRFLEGFNTRDALCKKISMNTCD Engineered 1QU4A 1QU4B 1QU4C 1QU4D 2TODB Relationship to function unknown Unknown Unknown X-ray crystallography Paper 10563800 Grishin NV, Osterman AL, Brooks HB, Phillips MA, Goldsmith EJ X-ray structure of ornithine decarboxylase from Trypanosoma brucei: the native structure and the structure in complex with alpha-difluoromethylornithine 1999 Biochemistry 38 46 15174-15184 Jancarik, J. Kim, S.H. Sparse matrix sampling: a screening method for crystallization of proteins 1991 Journal of Applied Crystallography 24 409-411 PDB entry 2TOD documents residues 1-36 being absent from the electron density map. PDB entry 1QU4 documents 1-34 being absent form the electron density map. Disordered 158 165 DDSLARCR Engineered 1QU4A 1QU4B 1QU4C 1QU4D 2TODA 2TODB 2TODC 2TODD Relationship to function unknown Unknown Unknown X-ray crystallography Paper 10563800 Grishin NV, Osterman AL, Brooks HB, Phillips MA, Goldsmith EJ X-ray structure of ornithine decarboxylase from Trypanosoma brucei: the native structure and the structure in complex with alpha-difluoromethylornithine 1999 Biochemistry 38 46 15174-15184 Jancarik, J. Kim, S.H. Sparse matrix sampling: a screening method for crystallization of proteins 1991 Journal of Applied Crystallography 24 409-411 PDB 1QU4 contains an A69K substitution Disordered 298 310 GVQTDVGAHAESN Engineered 1QU4A 1QU4B 1QU4C 1QU4D 2TODA 2TODB 2TODC 2TODD Relationship to function unknown Unknown Unknown X-ray crystallography Paper 10563800 Grishin NV, Osterman AL, Brooks HB, Phillips MA, Goldsmith EJ X-ray structure of ornithine decarboxylase from Trypanosoma brucei: the native structure and the structure in complex with alpha-difluoromethylornithine 1999 Biochemistry 38 46 15174-15184 Jancarik, J. Kim, S.H. Sparse matrix sampling: a screening method for crystallization of proteins 1991 Journal of Applied Crystallography 24 409-411 PDB 1QU4 contains an A69K substitution Disordered 412 425 LPDHVVRELKSQKS Engineered 1AQ4A 1AQ4B 1AQ4C 1AQ4D 2TODA 2TODB 2TODC 2TODD Relationship to function unknown Unknown Unknown X-ray crystallography Paper 10563800 Grishin NV, Osterman AL, Brooks HB, Phillips MA, Goldsmith EJ X-ray structure of ornithine decarboxylase from Trypanosoma brucei: the native structure and the structure in complex with alpha-difluoromethylornithine 1999 Biochemistry 38 46 15174-15184 Jancarik, J. Kim, S.H. Sparse matrix sampling: a screening method for crystallization of proteins 1991 Journal of Applied Crystallography 24 409-411 2TOD documents amino acids 411-425 as being absent from the density map. PDB entry 1QU4 contains an A69K substitution Disordered 1 13 GAMDIVVNDDLSC Engineered 1F3TA 1F3TB 1F3TC 1F3TD Relationship to function unknown Unknown Unknown X-ray crystallography 289 7.5 Paper 10985770 Jackson LK, Brooks HB, Osterman AL, Goldsmith EJ, Phillips MA Altering the reaction specificity of eukaryotic ornithine decarboxylase 2000 Biochemistry 39 37 11247-11257 The PDB entry documents absence from density map in regions 1-13 and then 31-36.PDB entry 1QU4 contains an A69K substitution Disordered 160 164 SLARC Engineered 1F3TA 1F3TB 1F3TC 1F3TD Relationship to function unknown Unknown Unknown X-ray crystallography 289 7.5 Paper 10985770 Jackson LK, Brooks HB, Osterman AL, Goldsmith EJ, Phillips MA Altering the reaction specificity of eukaryotic ornithine decarboxylase 2000 Biochemistry 39 37 11247-11257 Disordered 297 311 PGVQTDVGAHAESNA Engineered 1F3TA 1F3TB 1F3TC 1F3TD Relationship to function unknown Unknown Unknown X-ray crystallography 289 7.5 Paper 10985770 Jackson LK, Brooks HB, Osterman AL, Goldsmith EJ, Phillips MA Altering the reaction specificity of eukaryotic ornithine decarboxylase 2000 Biochemistry 39 37 11247-11257 PDB entry 1F3T contains an A69K substitution Disordered 409 425 VSGLPDHVVRELKSQKS Engineered 1F3TA 1F3TB 1F3TC 1F3TD Relationship to function unknown Unknown Unknown X-ray crystallography 289 7.5 Paper 10985770 Jackson LK, Brooks HB, Osterman AL, Goldsmith EJ, Phillips MA Altering the reaction specificity of eukaryotic ornithine decarboxylase 2000 Biochemistry 39 37 11247-11257 1F3T documents 423-425 as being absent from the electron density map. PDB entry 1F3T contains an A69K substitution SPARC [Precursor] Basement membrane protein BM-40 ON Osteonectin Secreted protein acidic and rich in cysteine P07214 P07214 129284 GEMSN Mus musculus (Mouse) 302 MRAWIFFLLCLAGRALAAPQQTEVAEEIVEEETVVEETGVPVGANPVQVEMGEFEDGAEETVEEVVADNPCQNHHCKHGKVCELDESNTPMCVCQDPTSCPAPIGEFEKVCSNDNKTFDSSCHFFATKCTLEGTKKGHKLHLDYIGPCKYIAPCLDSELTEFPLRMRDWLKNVLVTLYERDEGNNLLTEKQKLRVKKIHENEKRLEAGDHPVELLARDFEKNYNMYIFPVHWQFGQLDQHPIDGYLSHTELAPLRAPLIPMEHCTTRFFETCDLDNDKYIALEEWAGCFGIKEQDINKDLVI Disordered - Extended 18 302 APQQTEVAEEIVEEETVVEETGVPVGANPVQVEMGEFEDGAEETVEEVVADNPCQNHHCKHGKVCELDESNTPMCVCQDPTSCPAPIGEFEKVCSNDNKTFDSSCHFFATKCTLEGTKKGHKLHLDYIGPCKYIAPCLDSELTEFPLRMRDWLKNVLVTLYERDEGNNLLTEKQKLRVKKIHENEKRLEAGDHPVELLARDFEKNYNMYIFPVHWQFGQLDQHPIDGYLSHTELAPLRAPLIPMEHCTTRFFETCDLDNDKYIALEEWAGCFGIKEQDINKDLVI Native Function arises via a disorder to pre-molten globule transition Unknown Unknown X-ray crystallography Far-UV circular dichroism (CD) 293 Paper 3427055 Engel J, Taylor W, Paulsson M, Sage H, Hogan B Calcium binding domains and calcium-induced conformational transition of SPARC/BM-40/osteonectin, an extracellular glycoprotein expressed in mineralized and nonmineralized tissues 1987 Biochemistry 26 22 6958-6965 Two calcium binding domains are known but more may exist. Phenylalanyl-tRNA synthetase alpha chain PheRS P27001 135112 Thermus thermophilus 350 MLEEALAAIQNARDLEELKALKARYLGKKGLLTQEMKGLSALPLEERRKRGQELNAIKAALEAALEAREKALEEAALKEALERERVDVSLPGASLFSGGLHPITLMERELVEIFRALGYQAVEGPEVESEFFNFDALNIPEHHPARDMWDTFWLTGEGFRLEGPLGEEVEGRLLLRTHTSPMQVRYMVAHTPPFRIVVPGRVFRFEQTDATHEAVFHQLEGLVVGEGIAMAHLKGAIYELAQALFGPDSKVRFQPVYFPFVEPGAQFAVWWPEGGKWLELGGAGMVHPKVFQAVDAYRERLGLPPAYRGVTGFAFGLGVERLAMLRYGIPDIRYFFGGRLKFLEQFKGVL Disordered 1 85 MLEEALAAIQNARDLEELKALKARYLGKKGLLTQEMKGLSALPLEERRKRGQELNAIKAALEAALEAREKALEEAALKEALERER Paper 9016717 Goldgur Y, Mosyak L, Reshetnikova L, Ankilova V, Lavrik O, Khodyreva S, Safro M The crystal structure of phenylalanyl-tRNA synthetase from thermus thermophilus complexed with cognate tRNAPhe 1997 Structure 5 1 59-68 7664121 Mosyak L, Reshetnikova L, Goldgur Y, Delarue M, Safro MG Structure of phenylalanyl-tRNA synthetase from Thermus thermophilus 1995 Nat Struct Biol 2 7 537-47 Phosphatidylinositol-4-phosphate 5-kinase type II beta PIP5KIIbeta Q8TBP2 Hs.260603 P78356 47605991 Homo sapiens (Human) 416 MSSNCTSTTAVAVAPLSASKTKTKKKHFVCQKVKLFRASEPILSVLMWGVNHTINELSNVPVPVMLMPDDFKAYSKIKVDNHLFNKENLPSRFKFKEYCPMVFRNLRERFGIDDQDYQNSVTRSAPINSDSQGRCGTRFLTTYDRRFVIKTVSSEDVAEMHNILKKYHQFIVECHGNTLLPQFLGMYRLTVDGVETYMVVTRNVFSHRLTVHRKYDLKGSTVAREASDKEKAKDLPTFKDNDFLNEGQKLHVGEESKKNFLEKLKRDVEFLAQLKIMDYSLLVGIHDVDRAEQEEMEVEERAEDEECENDGVGGNLLCSYGTPPDSPGNLLSFPRFFGPGEFDPSVDVYAMKSHESSPKKEVYFMAIIDILTPYDTKKKAAHAAKTVKHGAGAEISTVNPEQYSKRFNEFMSNILT Disordered - Extended N-Terminal 1 33 MSSNCTSTTAVAVAPLSASKTKTKKKHFVCQKV Native 1BO1A Relationship to function unknown Unknown Unknown X-ray crystallography 95 5.6 Lithium acetate 100 MPD 5 PEG 1000 20 Sodium citrate 100 Paper 9753329 Rao, V. D. Misra, S. Boronenkov, I. V. Anderson, R. A. Hurley, J. H. Structure of type IIbeta phosphatidylinositol phosphate kinase: a protein kinase fold flattened for interfacial phosphorylation 1998 Cell 94 6 829-839 Disordered - Extended G-Loop 130 137 DSQGRCGT Native 1BO1A Function arises from the disordered state Molecular assembly Protein-protein binding X-ray crystallography 95 5.6 Lithium acetate 100 MPD 5 PEG 1000 20 Sodium citrate 100 Paper 9753329 Rao, V. D. Misra, S. Boronenkov, I. V. Anderson, R. A. Hurley, J. H. Structure of type IIbeta phosphatidylinositol phosphate kinase: a protein kinase fold flattened for interfacial phosphorylation 1998 Cell 94 6 829-839 The G-loop aids in conformational stabilization of consecutive peptide groups in alignment with each other so that their amide NH groups can interact with the phosphates of ATP. Disordered 307 341 CENDGVGGNLLCSYGTPPDSPGNLLSFPRFFGPGE Native 1BO1A Relationship to function unknown Unknown Unknown X-ray crystallography lithium acetate 100 MPD 5 PEG 1000 20 sodium citrate pH 5.6 100 Paper 9753329 Rao VD, Misra S, Boronenkov IV, Anderson RA, Hurley JH Structure of type IIbeta phosphatidylinositol phosphate kinase: a protein kinase fold flattened for interfacial phosphorylation 1998 Cell 94 6 829-839 Disordered 373 390 PYDTKKKAAHAAKTVKHG Native 1BO1A Relationship to function unknown Unknown Unknown X-ray crystallography lithium acetate 100 MPD 5 PEG 1000 20 sodium citrate pH 5.6 100 Paper 9753329 Rao VD, Misra S, Boronenkov IV, Anderson RA, Hurley JH Structure of type IIbeta phosphatidylinositol phosphate kinase: a protein kinase fold flattened for interfacial phosphorylation 1998 Cell 94 6 829-839 1-phosphatidylinositol-4,5-bisphosphate phosphodiesterase delta 1 EC 3.1.4.11 Phosphoinositide phospholipase C Phospholipase C Delta-1 PLC-Delta-1 PLC-III P10688 130228 Rattus norvegicus (Rat) 756 MDSGRDFLTLHGLQDDPDLQALLKGSQLLKVKSSSWRRERFYKLQEDCKTIWQESRKVMRSPESQLFSIEDIQEVRMGHRTEGLEKFARDIPEDRCFSIVFKDQRNTLDLIAPSPADAQHWVQGLRKIIHHSGSMDQRQKLQHWIHSCLRKADKNKDNKMNFKELKDFLKELNIQVDDGYARKIFRECDHSQTDSLEDEEIETFYKMLTQRAEIDRAFEEAAGSAETLSVERLVTFLQHQQREEEAGPALALSLIERYEPSETAKAQRQMTKDGFLMYLLSADGNAFSLAHRRVYQDMDQPLSHYLVSSSHNTYLLEDQLTGPSSTEAYIRALCKGCRCLELDCWDGPNQEPIIYHGYTFTSKILFCDVLRAIRDYAFKASPYPVILSLENHCSLEQQRVMARHLRAILGPILLDQPLDGVTTSLPSPEQLKGKILLKGKKLGGLLPAGGENGSEATDVSDEVEAAEMEDEAVRSQVQHKPKEDKLKLVPELSDMIIYCKSVHFGGFSSPGTSGQAFYEMASFSESRALRLLQESGNGFVRHNVSCLSRIYPAGWRTDSSNYSPVEMWNGGCQIVALNFQTPGPEMDVYLGCFQDNGGCGYVLKPAFLRDPNTTFNSRALTQGPWWRPERLRVRIISGQQLPKVNKNKNSIVDPKVIVEIHGVGRDTGSRQTAVITNNGFNPRWDMEFEFEVTVPDLALVRFMVEDYDSSSKNDFIGQSTIPWNSLKQGYRHVHLLSKNGDQHPSATLFVKISIQD Disordered 135 206 MDQRQKLQHWIHSCLRKADKNKDNKMNFKELKDFLKELNIQVDDGYARKIFRECDHSQTDSLEDEEIETFYK Fragment X-ray crystallography Paper 8602259 Essen LO, Perisic O, Cheung R, Katan M, Williams RL Crystal structure of a mammalian phosphoinositide-specific phospholipase C delta 1996 Nature 380 6575 595-602 8784353 Grobler JA, Essen LO, Williams RL, Hurley JH C2 domain conformational changes in phospholipase C-delta 1 1996 Nat Struct Biol 3 9 788-95 Disordered 445 485 LLPAGGENGSEATDVSDEVEAAEMEDEAVRSQVQHKPKEDK Fragment X-ray crystallography Paper 8784353 Grobler JA, Essen LO, Williams RL, Hurley JH C2 domain conformational changes in phospholipase C-delta 1 1996 Nat Struct Biol 3 9 788-95 Disordered 643 653 KVNKNKNSIVD Fragment X-ray crystallography Paper 8784353 Grobler JA, Essen LO, Williams RL, Hurley JH C2 domain conformational changes in phospholipase C-delta 1 1996 Nat Struct Biol 3 9 788-95 Disordered 706 714 DYDSSSKND Fragment X-ray crystallography Paper 8784353 Grobler JA, Essen LO, Williams RL, Hurley JH C2 domain conformational changes in phospholipase C-delta 1 1996 Nat Struct Biol 3 9 788-95 Disordered 502 517 VHFGGFSSPGTSGQAF Fragment X-ray crystallography Paper 8602259 Essen LO, Perisic O, Cheung R, Katan M, Williams RL Crystal structure of a mammalian phosphoinositide-specific phospholipase C delta 1996 Nature 380 6575 595-602 Disordered 446 488 LPAGGENGSEATDVSDEVEAAEMEDEAVRSQVQHKPKEDKLKL Fragment X-ray crystallography Paper 8602259 Essen LO, Perisic O, Cheung R, Katan M, Williams RL Crystal structure of a mammalian phosphoinositide-specific phospholipase C delta 1996 Nature 380 6575 595-602 Disordered 645 650 NKNKNS Fragment Function arises via a disorder to order transition X-ray crystallography Paper 8784353 Grobler JA, Essen LO, Williams RL, Hurley JH C2 domain conformational changes in phospholipase C-delta 1 1996 Nat Struct Biol 3 9 788-95 Sperm histone Galline Protamine P15340 123705 A34320 Gallus gallus (Chicken) 62 MARYRRSRTRSRSPRSRRRRRRSGRRRSPRRRRRYGSARRSRRSVGGRRRRYGSRRRRRRRY Disordered 1 62 MARYRRSRTRSRSPRSRRRRRRSGRRRSPRRRRRYGSARRSRRSVGGRRRRYGSRRRRRRRY Paper 2243113 Gatewood JM, Schroth GP, Schmid CW, Bradbury EM Zinc-induced secondary structure transitions in human sperm protamines 1990 J Biol Chem 265 33 20667-72 2738040 Nakano M, Kasai K, Yoshida K, Tanimoto T, Tamaki Y, Tobita T Conformation of the fowl protamine, galline, and its binding properties to DNA 1989 J Biochem (Tokyo) 105 1 133-7 Prothymosin alpha P06302 135836 TNRTA Rattus norvegicus (Rat) 112 MSDAAVDTSSEITTKDLKEKKEVVEEAENGRDAPANGNAQNEENGEQEADNEVDEEEEEGGEEEEEEEEGDGEEEDGDEDEEAEAPTGKRVAEDDEDDDVETKKQKKTDEDD Disordered 1 112 MSDAAVDTSSEITTKDLKEKKEVVEEAENGRDAPANGNAQNEENGEQEADNEVDEEEEEGGEEEEEEEEGDGEEEDGDEDEEAEAPTGKRVAEDDEDDDVETKKQKKTDEDD Paper 7548085 Gast K, Damaschun H, Eckert K, Schulze-Forster K, Maurer HR, Muller-Frohne M, Zirwer D, Czarnecki J, Damaschun G Prothymosin alpha: a biologically active protein with random coil conformation 1995 Biochemistry 34 40 13211-8 Modification methylase PvuII EC 2.1.1.113 M.PvuII N-4 cytosine-specific methyltransferase PvuII P11409 6729995 Proteus vulgaris 323 MLNFGKKPAYTTSNGSMYIGDSLELLESFPEESISLVMTSPPFALQRKKEYGNLEQHEYVDWFLSFAKVVNKKLKPDGSFVVDFGGAYMKGVPARSIYNFRVLIRMIDEVGFFLAEDFYWFNPSKLPSPIEWVNKRKIRVKDAVNTVWWFSKTEWPKSDITKVLAPYSDRMKKLIEDPDKFYTPKTRPSGHDIGKSFSKDNGGSIPPNLLQISNSESNGQYLANCKLMGIKAHPARFPAKLPEFFIRMLTEPDDLVVDIFGGSNTTGLVAERESRKWISFEMKPEYVAASAFRFLDNNISEEKITDIYNRILNGESLDLNSII Disordered 166 203 PYSDRMKKLIEDPDKFYTPKTRPSGHDIGKSFSKDNGG Complex Methylation X-ray crystallography Paper 9207015 Gong W, O'Gara M, Blumenthal RM, Cheng X Structure of pvu II DNA-(cytosine N4) methyltransferase, an example of domain permutation and protein fold assignment 1997 Nucleic Acids Res 25 14 2702-15 Disordered P loop 70 81 VNKKLKPDGSFV Complex Function arises via a disorder to order transition Methylation Protein-DNA binding X-ray crystallography Paper 9207015 Gong W, O'Gara M, Blumenthal RM, Cheng X Structure of pvu II DNA-(cytosine N4) methyltransferase, an example of domain permutation and protein fold assignment 1997 Nucleic Acids Res 25 14 2702-15 The SwissProt sequence is the long form of the protein(aa1-aa336). The disordered regions were found using the short form of the protein. (aa14-aa336) The referenced paper has disordered region 1 as residues 179-216 and region 2 as residues 57-68. They used the short form of Modification methylase PvuII which has 13 less N-terminal residues and is numbered 14-336. Replication protein A 70 kDa DNA-binding subunit Replication factor-A protein 1 RF-A RP-A Single-stranded DNA-binding protein P27694 P27694 1350579 A40457 Homo sapiens (Human) 616 MVGQLSEGAIAAIMQKGDTNIKPILQVINIRPITTGNSPPRYRLLMSDGLNTLSSFMLATQLNPLVEEEQLSSNCVCQIHRFIVNTLKDGRRVVILMELEVLKSAEAVGVKIGNPVPYNEGLGQPQVAPPAPAASPAASSRPQPQNGSSGMGSTVSKAYGASKTFGKAAGPSLSHTSGGTQSKVVPIASLTPYQSKWTICARVTNKSQIRTWSNSRGEGKLFSLELVDESGEIRATAFNEQVDKFFPLIEVNKVYYFSKGTLKIANKQFTAVKNDYEMTFNNETSVMPCEDDHHLPTVQFDFTGIDDLENKSKDSLVDIIGICKSYEDATKITVRSNNREVAKRNIYLMDTSGKVVTATLWGEDADKFDGSRQPVLAIKGARVSDFGGRSLSVLSSSTIIANPDIPEAYKLRGWFDAEGQALDGVSISDLKSGGVGGSNTNWKTLYEVKSENLGQGDKPDYFSSVATVVYLRKENCMYQACPTQDCNKKVIDQQNGLYRCEKCDTEFPNFKYRMILSVNIADFQENQWVTCFQESAEAILGQNAAYLGELKDKNEQAFEEVFQNANFRSFIFRVRVKVETYNDESRIKATVMDVKPVDYREYGRRLVMSIRRSALM Disordered 115 168 PVPYNEGLGQPQVAPPAPAASPAASSRPQPQNGSSGMGSTVSKAYGASKTFGKA Paper 10526407 Jacobs DM, Lipton AS, Isern NG, Daughdrill GW, Lowry DF, Gomes X, Wold MS Human replication protein A: global fold of the N-terminal RPA-70 domain reveals a basic cleft and flexible C-terminal linker 1999 J Biomol NMR 14 4 321-31 Retinoic acid receptor RXR-alpha Retinoid X receptor, alpha P19793 Hs.20084 P19793 S09592 Homo Sapiens 462 MDTKHFLPLDFSTQVNSSLTSPTGRGSMAAPSLHPSLGPGIGSPGQLHSPISTLSSPINGMGPPFSVISSPMGPHSMSVPTTPTLGFSTGSPQLSSPMNPVSSSEDIKPPLGLNGVLKVPAHPSGNMASFTKHICAICGDRSSGKHYGVYSCEGCKGFFKRTVRKDLTYTCRDNKDCLIDKRQRNRCQYCRYQKCLAMGMKREAVQEERQRGKDRNENEVESTSSANEDMPVERILEAELAVEPKTETYVEANMGLNPSSPNDPVTNICQAADKQLFTLVEWAKRIPHFSELPLDDQVILLRAGWNELLIASFSHRSIAVKDGILLATGLHVHRNSAHSAGVGAIFDRVLTELVSKMRDMQMDKTELGCLRAIVLFNPDSKGLSNPAEVEALREKVYASLEAYCKHKYPEQPGRFAKLLLRLPALRSIGLKCLEHLFFFKLIGDTPIDTFLMEMLEAPHQMT Disordered - Extended D-BOX 172 176 RDNKD Engineered 1RXR1 Molecular assembly Protein-DNA binding Protein-protein binding Nuclear magnetic resonance (NMR) 300 6.6 2H2O 100 KCl 100 KH2PO4 pH 6.7 20 ZnCl2 0.3 Nuclear magnetic resonance (NMR) 300 6.6 2H2O 5 H2O 95 KCl 100 KH2PO4 pH 6.7 20 ZnCl2 0.3 Paper 9698548 Holmbeck SM, Foster MP, Casimiro DR, Sem DS, Dyson HJ, Wright PE High-resolution solution structure of the retinoid X receptor DNA-binding domain 1998 J Mol Biol 281 2 271-84 9826495 Holmbeck SM, Dyson HJ, Wright PE DNA-induced conformational changes are the basis for cooperative dimerization by the DNA binding domain of the retinoid X receptor 1998 J Mol Biol 284 3 533-9 Disordered - Extended Second Zinc Finger Binding Domain 178 187 LIDKRQRNRC Engineered 1RXR1 Function arises via a disorder to order transition Molecular assembly Metal binding Protein-DNA binding Nuclear magnetic resonance (NMR) 300 6.6 2H2O 100 KCl 100 KH2PO4 pH 6.7 20 ZnCl2 0.3 Nuclear magnetic resonance (NMR) 300 6.6 2H2O 5 H2O 95 KCl 100 KH2PO4 pH 6.7 20 ZnCl2 0.3 Paper 9698548 Holmbeck SM, Foster MP, Casimiro DR, Sem DS, Dyson HJ, Wright PE High-resolution solution structure of the retinoid X receptor DNA-binding domain 1998 J Mol Biol 281 2 271-84 9826495 Holmbeck SM, Dyson HJ, Wright PE DNA-induced conformational changes are the basis for cooperative dimerization by the DNA binding domain of the retinoid X receptor 1998 J Mol Biol 284 3 533-9 Disordered - Extended 169 189 YTCRDNKDCLIDKRQRNRCQY Engineered IRXR1 Function arises via a disorder to order transition Molecular assembly Metal binding Protein-DNA binding Nuclear magnetic resonance (NMR) 300 6.6 2H2O 100 KCl 100 KH2PO4 pH 6.7 20 ZnCl2 0.3 Nuclear magnetic resonance (NMR) 300 6.6 2H2O 5 H2O 95 KCl 100 KH2PO4 pH 6.7 20 ZnCl2 0.3 Paper 9698548 Holmbeck SM, Foster MP, Casimiro DR, Sem DS, Dyson HJ, Wright PE High-resolution solution structure of the retinoid X receptor DNA-binding domain 1998 J Mol Biol 281 2 271-84 9826495 Holmbeck SM, Dyson HJ, Wright PE DNA-induced conformational changes are the basis for cooperative dimerization by the DNA binding domain of the retinoid X receptor 1998 J Mol Biol 284 3 533-9 This region contains the D-box as well as the second zinc binding domain and lies between the first and second helices. Disordered - Extended Second Zinc binding domain 181 187 KRQRNRC Engineered 1RXR1 Function arises via a disorder to order transition Molecular assembly Metal binding Protein-DNA binding Nuclear magnetic resonance (NMR) 300 6.8 Paper 9698548 Holmbeck SM, Foster MP, Casimiro DR, Sem DS, Dyson HJ, Wright PE High-resolution solution structure of the retinoid X receptor DNA-binding domain 1998 J Mol Biol 281 2 271-84 9826495 Holmbeck SM, Dyson HJ, Wright PE DNA-induced conformational changes are the basis for cooperative dimerization by the DNA binding domain of the retinoid X receptor 1998 J Mol Biol 284 3 533-9 Disordered - Extended C-terminal helix 202 206 REAVQ Engineered 1RXR1 Function arises via an order to disorder transition Molecular assembly Protein-DNA binding Protein-protein binding Substrate/ligand binding Nuclear magnetic resonance (NMR) 300 6.6 2H2O 100 KCl 100 KH2PO4 20 ZnCl2 0.3 Nuclear magnetic resonance (NMR) 300 6.6 2H2O 5 H2O 95 KCl 100 KH2PO4 20 ZnCl2 0.3 Paper 9698548 Holmbeck SM, Foster MP, Casimiro DR, Sem DS, Dyson HJ, Wright PE High-resolution solution structure of the retinoid X receptor DNA-binding domain 1998 J Mol Biol 281 2 271-84 9826495 Holmbeck SM, Dyson HJ, Wright PE DNA-induced conformational changes are the basis for cooperative dimerization by the DNA binding domain of the retinoid X receptor 1998 J Mol Biol 284 3 533-9 The C-terminal helix undergoes an order to disorder transition upon binding to DNA. The unwinding of the helix most likely facilitates homodimer formation by maximizing interactions between the two DNA-bound RXR proteins. Regulator of G-protein signaling 4 RGP4 RGS4 Signal transduction inhibitor RGS4 P49799 1710149 Rattus norvegicus (Rat) 205 MCKGLAGLPASCLRSAKDMKHRLGFLLQKSDSCEHSSSHSKKDKVVTCQRVSQEEVKKWAESLENLINHECGLAAFKAFLKSEYSEENIDFWISCEEYKKIKSPSKLSPKAKKIYNEFISVQATKEVNLDSCTREETSRNMLEPTITCFDEAQKKIFNLMEKDSYRRFLKSRFYLDLTNPSSCGAEKQKGAKSSADCTSLVPQCA Disordered 1 50 MCKGLAGLPASCLRSAKDMKHRLGFLLQKSDSCEHSSSHSKKDKVVTCQR Paper 9108480 Tesmer JJ, Berman DM, Gilman AG, Sprang SR Structure of RGS4 bound to AlF4--activated G(i alpha1): stabilization of the transition state for GTP hydrolysis 1997 Cell 89 2 251-61 Disordered 179 205 NPSSCGAEKQKGAKSSADCTSLVPQCA Paper 9108480 Tesmer JJ, Berman DM, Gilman AG, Sprang SR Structure of RGS4 bound to AlF4--activated G(i alpha1): stabilization of the transition state for GTP hydrolysis 1997 Cell 89 2 251-61 Coat protein [Precursor] Capsid protein Southern bean mosaic virus coat protein P03607 P03607 75662 VCBW Southern bean mosaic virus (SBMV) 260 ATRLTKKQLAQAIQNTLPNPPRRKRRAKRRAAQVPKPTQAGVSMAPIAQGTMVKLRPPMLRSSMDVTILSHCELSTELAVTVTIVVTSELVMPFTVGTWLRGVAQNWSKYAWVAIRYTYLPSCPTTTSGAIHMGFQYDMADTLPVSVNQLSNLKGYVTGPVWEGQSGLCFVNNTKCPDTSRAITIALDTNEVSEKRYPFKTATDYATAVGVNANIGNILVPARLVTAMEGGSSKTAVNTGRLYASYTIRLIEPIAAALNL Disordered 1 41 ATRLTKKQLAQAIQNTLPNPPRRKRRAKRRAAQVPKPTQAG Fragment 4SBVA 4SBVB 4SBVC Relationship to function unknown Unknown Unknown X-ray crystallography ammonium sulfate 0.015 Paper Hermodson MA, Abad-Zapatero C, Abdel-Meguid S, Pundak S, Rossmann MG, Tremaine J Amino acid sequence of southern bean mosaic virus coat protein and its relation to the three-dimensional structure of the virus 1982 Virology 119 133-149 6854633 Rossmann MG, Abad-Zapatero C, Hermodson MA, Erickson JW Subunit interactions in southern bean mosaic virus 1983 J Mol Biol 166 1 37-73 This region is disordered in all three subunits. Disordered beta-annulus 42 50 VSMAPIAQG Fragment 4SBVA 4SBVB 4SBVC Relationship to function unknown Unknown Protein-protein binding X-ray crystallography ammonium sulfate 0.015 Paper Hermodson MA, Abad-Zapatero C, Abdel-Meguid S, Pundak S, Rossmann MG, Tremaine J Amino acid sequence of southern bean mosaic virus coat protein and its relation to the three-dimensional structure of the virus 1982 Virology 119 133-149 6854633 Rossmann MG, Abad-Zapatero C, Hermodson MA, Erickson JW Subunit interactions in southern bean mosaic virus 1983 J Mol Biol 166 1 37-73 This region is disordered in both the A and B subunits. Disordered beta-A 51 64 TMVKLRPPMLRSSM Fragment 4SBVA 4SBVB 4SBVC Relationship to function unknown Unknown Unknown X-ray crystallography ammonium sulfate 0.015 Paper Hermodson MA, Abad-Zapatero C, Abdel-Meguid S, Pundak S, Rossmann MG, Tremaine J Amino acid sequence of southern bean mosaic virus coat protein and its relation to the three-dimensional structure of the virus 1982 Virology 119 133-149 6854633 Rossmann MG, Abad-Zapatero C, Hermodson MA, Erickson JW Subunit interactions in southern bean mosaic virus 1983 J Mol Biol 166 1 37-73 This region is disordered in both the A and B subunits. Disordered 1 38 ATRLTKKQLAQAIQNTLPNPPRRKRRAKRRAAQVPKPT Fragment 4SBVA 4SBVB 4SBVC Relationship to function unknown Unknown Unknown X-ray crystallography ammonium sulfate 0.015 Paper 6854633 Rossmann MG, Abad-Zapatero C, Hermodson MA, Erickson JW Subunit interactions in southern bean mosaic virus 1983 J Mol Biol 166 1 37-73 6401119 Rossmann MG, Abad-Zapatero C, Erickson JW, Savithri HS RNA-protein interactions in some small plant viruses 1983 J Biomol Struct Dyn 1 2 565-79 This region corresponds to the C subunit only. This region is part of the flexible arm that helps to determine binding specificity. Disordered 1 62 ATRLTKKQLAQAIQNTLPNPPRRKRRAKRRAAQVPKPTQAGVSMAPIAQGTMVKLRPPMLRS Fragment 4SBVA 4SBVB 4SBVC Relationship to function unknown Unknown Unknown X-ray crystallography ammonium sulfate 0.015 Paper 6854633 Rossmann MG, Abad-Zapatero C, Hermodson MA, Erickson JW Subunit interactions in southern bean mosaic virus 1983 J Mol Biol 166 1 37-73 6401119 Rossmann MG, Abad-Zapatero C, Erickson JW, Savithri HS RNA-protein interactions in some small plant viruses 1983 J Biomol Struct Dyn 1 2 565-79 This region corresponds to the A subunit only. Disordered 1 64 ATRLTKKQLAQAIQNTLPNPPRRKRRAKRRAAQVPKPTQAGVSMAPIAQGTMVKLRPPMLRSSM Fragment 4SBVA 4SBVB 4SBVC Relationship to function unknown Unknown Unknown X-ray crystallography ammonium sulfate 0.015 Paper 6854633 Rossmann MG, Abad-Zapatero C, Hermodson MA, Erickson JW Subunit interactions in southern bean mosaic virus 1983 J Mol Biol 166 1 37-73 6401119 Rossmann MG, Abad-Zapatero C, Erickson JW, Savithri HS RNA-protein interactions in some small plant viruses 1983 J Biomol Struct Dyn 1 2 565-79 This region corresponds to the B subunit only. Ordered 39 63 QAGVSMAPIAQGTMVKLRPPMLRSS Fragment 4SBVA 4SBVB 4SBVC Function arises from the ordered state Unknown Unknown X-ray crystallography ammonium sulfate 0.015 Paper 6854633 Rossmann MG, Abad-Zapatero C, Hermodson MA, Erickson JW Subunit interactions in southern bean mosaic virus 1983 J Mol Biol 166 1 37-73 3681993 Silva AM, Rossmann MG Refined structure of southern bean mosaic virus at 2.9 A resolution 1987 J Mol Biol 197 1 69-87 This section is only ordered in the C subunit, and is important in stabilizing the capsid. Ordered beta-annulus 42 50 VSMAPIAQG Fragment 4SBVA 4SBVB 4SBVC Function arises from the ordered state Molecular assembly Protein-protein binding X-ray crystallography ammonium sulfate 0.015 Paper Hermodson MA, Abad-Zapatero C, Abdel-Meguid S, Pundak S, Rossmann MG, Tremaine J Amino acid sequence of southern bean mosaic virus coat protein and its relation to the three-dimensional structure of the virus 1982 Virology 119 133-149 6854633 Rossmann MG, Abad-Zapatero C, Hermodson MA, Erickson JW Subunit interactions in southern bean mosaic virus 1983 J Mol Biol 166 1 37-73 This region is only ordered in the C subunit. Ordered beta A 51 64 TMVKLRPPMLRSSM Fragment 4SBVA 4SBVB 4SBVC Function arises from the ordered state Unknown Unknown X-ray crystallography (NH4)2SO4 0.015 Paper Hermodson MA, Abad-Zapatero C, Abdel-Meguid S, Pundak S, Rossmann MG, Tremaine J Amino acid sequence of southern bean mosaic virus coat protein and its relation to the three-dimensional structure of the virus 1982 Virology 119 133-149 6854633 Rossmann MG, Abad-Zapatero C, Hermodson MA, Erickson JW Subunit interactions in southern bean mosaic virus 1983 J Mol Biol 166 1 37-73 This region is only ordered in the C subunit. The Swiss-Prot entry for this protein has a 19 amino acid propeptide attachment on the N-terminal region. The coat protein follows immediately after is 260 amino acids long. SdrD protein Serine aspartamine repeat protein D O86488 3550594 T28679 Staphylococcus aureus 1315 MLNRENKTAITRKGMVSNRLNKFSIRKYTVGTASILVGTTLIFGLGNQEAKAAESTNKELNEATTSASDNQSSDKVDMQQLNQEDNTKNDNQKEMVSSQGNETTSNGNKLIEKESVQSTTGNKVEVSTAKSDEQASPKSTNEDLNTKQTISNQEALQPDLQENKSVVNVQPTNEENKKVDAKTESTTLNVKSDAIKSNDETLVDNNSNSNNENNADIILPKSTAPKRLNTRMRIAAVQPSSTEAKNVNDLITSNTTLTVVDADKNNKIVPAQDYLSLKSQITVDDKVKSGDYFTIKYSDTVQVYGLNPEDIKNIGDIKDPNNGETIATAKHDTANNLITYTFTDYVDRFNSVQMGINYSIYMDADTIPVSKNDVEFNVTIGNTTTKTTANIQYPDYVVNEKNSIGSAFTETVSHVGNKENPGYYKQTIYVNPSENSLTNAKLKVQAYHSSYPNNIGQINKDVTDIKIYQVPKGYTLNKGYDVNTKELTDVTNQYLQKITYGDNNSAVIDFGNADSAYVVMVNTKFQYTNSESPTLVQMATLSSTGNKSVSTGNALGFTNNQSGGAGQEVYKIGNYVWEDTNKNGVQELGEKGVGNVTVTVFDNNTNTKVGEAVTKEDGSYLIPNLPNGDYRVEFSNLPKGYEVTPSKQGNNEELDSNGLSSVITVNGKDNLSADLGIYKPKYNLGDYVWEDTNKNGIQDQDEKGISGVTVTLKDENGNVLKTVTTDADGKYKFTDLDNGNYKVEFTTPEGYTPTTVTSGSDIEKDSNGLTTTGVINGADNMTLDSGFYKTPKYNLGNYVWEDTNKDGKQDSTEKGISGVTVTLKNENGEVLQTTKTDKDGKYQFTGLENGTYKVEFETPSGYTPTQVGSGTDEGIDSNGTSTTGVIKDKDNDTIDSGFYKPTYNLGDYVWEDTNKNGVQDKDEKGISGVTVTLKDENDKVLKTVTTDENGKYQFTDLNNGTYKVEFETPSGYTPTSVTSGNDTEKDSNGLTTTGVIKDADNMTLDSGFYKTPKYSLGDYVWYDSNKDGKQDSTEKGIKDVKVTLLNEKGEVIGTTKTDENGKYCFDNLDSGKYKVIFEKPAGLTQTGTNTTEDDKDADGGEVDVTITDHDDFTLDNGYYEEETSDSDSDSDSDSDSDRDSDSDSDSDSDSDSDSDSDSDSDSDSDSDRDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDSDAGKHTPVKPMSTTKDHHNKAKALPETGNENSGSNNATLFGGLFAALGSLLLFGRRKKQNK Disordered 569 1123 VYKIGNYVWEDTNKNGVQELGEKGVGNVTVTVFDNNTNTKVGEAVTKEDGSYLIPNLPNGDYRVEFSNLPKGYEVTPSKQGNNEELDSNGLSSVITVNGKDNLSADLGIYKPKYNLGDYVWEDTNKNGIQDQDEKGISGVTVTLKDENGNVLKTVTTDADGKYKFTDLDNGNYKVEFTTPEGYTPTTVTSGSDIEKDSNGLTTTGVINGADNMTLDSGFYKTPKYNLGNYVWEDTNKDGKQDSTEKGISGVTVTLKNENGEVLQTTKTDKDGKYQFTGLENGTYKVEFETPSGYTPTQVGSGTDEGIDSNGTSTTGVIKDKDNDTIDSGFYKPTYNLGDYVWEDTNKNGVQDKDEKGISGVTVTLKDENDKVLKTVTTDENGKYQFTDLNNGTYKVEFETPSGYTPTSVTSGNDTEKDSNGLTTTGVIKDADNMTLDSGFYKTPKYSLGDYVWYDSNKDGKQDSTEKGIKDVKVTLLNEKGEVIGTTKTDENGKYCFDNLDSGKYKVIFEKPAGLTQTGTNTTEDDKDADGGEVDVTITDHDDFTLDNGYYEEET Paper 9813018 Josefsson E, O'Connell D, Foster TJ, Durussel I, Cox JA The binding of calcium to the B-repeat segment of SdrD, a cell surface protein of Staphylococcus aureus 1998 J Biol Chem 273 47 31145-52 Structural polyprotein P130 1942972 Sindbis virus (subtype Ockelbo / strain Edsbyn 82-5) 264 MNRGFFNMLGRRPFPAPTAMWRPRRRRQAAPMPARNGLASQIQQLTTAVSALVIGQATRPQNPRPRPPPRQKKQAPKQPPKPKKPKPQEKKKKQPAKTKPGKRQRMALKLEADRLFDVKNEDGDVIGHALAMEGKVMKPLHVKGTIDHPVLSKLKFTKSSAYDMEFAQLPVNMRSEAFTYTSEHPEGFYNWHHGAVQYSGGRFTIPRGVGGRGDSGRPIMDNSGRVVAIVLGGADEGTRTALSVVTWNSKGKTIKTTPEGTEEW Disordered 1 106 MNRGFFNMLGRRPFPAPTAMWRPRRRRQAAPMPARNGLASQIQQLTTAVSALVIGQATRPQNPRPRPPPRQKKQAPKQPPKPKKPKPQEKKKKQPAKTKPGKRQRM Paper 1944569 Choi HK, Tong L, Minor W, Dumas P, Boege U, Rossmann MG, Wengler G Structure of Sindbis virus core protein reveals a chymotrypsin-like serine proteinase and the organization of the virion 1991 Nature 354 6348 37-43 This sequence is post processing Small heat shock protein HSP16.5 Q57733 2495337 F64335 Methanococcus jannaschii 147 MFGRDPFDSLFERMFKEFFATPMTGTTMIQSSTGIQISGKGFMPISIIEGDQHIKVIAWLPGVNKEDIILNAVGDTLEIRAKRSPLMITESERIIYSEIPEEEEIYRTIKLPATVKEENASAKFENGVLSVILPKAESSIKKGINIE Disordered 1 32 MFGRDPFDSLFERMFKEFFATPMTGTTMIQSS Paper 9707123 Kim KK, Kim R, Kim SH Crystal structure of a small heat-shock protein 1998 Nature 394 6693 595-9 SNAP-25 P60881 Rattus norvegicus 206 MAEDADMRNELEEMQRRADQLADESLESTRRMLQLVEESKDAGIRTLVMLDEQGEQLDRVEEGMNHINQDMKEAEKNLKDLGKCCGLYICPCNKLKSSDAYKKAWGNNQDQVVASQPARVVDEREQMAISGGFIRRVTNDARENEMDEDLEQVSGIIGNLRHMALDMGNEIDTQNRQIDRIMEKADSNKTRIDEANQRATKMLGSG Disordered - Extended 1 206 MAEDADMRNELEEMQRRADQLADESLESTRRMLQLVEESKDAGIRTLVMLDEQGEQLDRVEEGMNHINQDMKEAEKNLKDLGKCCGLYICPCNKLKSSDAYKKAWGNNQDQVVASQPARVVDEREQMAISGGFIRRVTNDARENEMDEDLEQVSGIIGNLRHMALDMGNEIDTQNRQIDRIMEKADSNKTRIDEANQRATKMLGSG Native Function arises via a disorder to order transition Molecular assembly Protein-protein binding Far-UV circular dichroism (CD) 277 7.4 NaCl salt 100 phosphate buffer 10 Nuclear magnetic resonance (NMR) Sensitivity to proteolysis 298 chymotrypsin NaCl salt 100 proteinase K trypsin Gel filtration/size exclusion chromatography 368 6.8 betamercaptoethanol buffer 3 glycerol buffer 10 SDS buffer 2 Tris buffer 60 Gel filtration/size exclusion chromatography 298 6.8 betamercaptoethanol buffer 3 glycerol buffer 10 SDS buffer 2 Tris buffer 60 Paper 9671503 Fasshauer, D. Eliason, W. K. Brunger, A. T. Jahn, R. Identification of a minimal core of the synaptic SNARE complex sufficient for reversible assembly and disassembly 1998 Biochemistry 37 29 10354-10362 The sequence has 98% similarity to that of chicken and human SNAP-25 but there is no 100% match to any organism when Blasted. Synaptobrevin 2 VAMP 2 Vesicle associated membrane protein 2 P63027 Hs.25348 P63027 135094 Homo sapiens 116 MSATAATAPPAAPAGEGGPPAPPPNLTSNRRLQQTQAQVDEVVDIMRVNVDKVLERDQKLSELDDRADALQAGASQFETSAAKLKRKYWWKNLKMMIILGVICAIILIIIIVYFSS Disordered - Extended 1 116 MSATAATAPPAAPAGEGGPPAPPPNLTSNRRLQQTQAQVDEVVDIMRVNVDKVLERDQKLSELDDRADALQAGASQFETSAAKLKRKYWWKNLKMMIILGVICAIILIIIIVYFSS Native Function arises via a disorder to order transition Molecular assembly Protein-protein binding Far-UV circular dichroism (CD) 298 7.4 dithiothreitol 1 NaCl salt 100 Tris 20 Paper 9346956 Fasshauer D, Otto H, Eliason WK, Jahn R, Brunger AT Structural changes are associated with soluble N-ethylmaleimide-sensitive fusion protein attachment protein receptor complex formation 1997 J Biol Chem 272 44 28036-28041 Disordered - Extended 1 96 MSATAATAPPAAPAGEGGPPAPPPNLTSNRRLQQTQAQVDEVVDIMRVNVDKVLERDQKLSELDDRADALQAGASQFETSAAKLKRKYWWKNLKMM Fragment Function arises via a disorder to order transition Molecular assembly Protein-protein binding Nuclear magnetic resonance (NMR) 278 6.1 phosphate buffer 60 protein 0.45 water/D2O solvent (9:1) Paper 10481273 Hazzard J, Sudhof TC, Rizo J NMR analysis of the structure of synaptobrevin and of its interaction with syntaxin 1999 J Biomol NMR 14 3 203-207 Disordered - Extended 40 67 DEVVDIMRVNVDKVLERDQKLSELDDRA Fragment Function arises via a disorder to order transition Molecular assembly Protein-protein binding Far-UV circular dichroism (CD) 298 7.4 NaCl salt 100 sodium phosphate 10 Experimental 9852083 Canaves JM, Montal M Assembly of a ternary complex by the predicted minimal coiled-coil-forming domains of syntaxin, SNAP-25, and synaptobrevin. A circular dichroism study 1998 J Biol Chem 273 51 34214-34221 Alpha-synuclein NACP Non-A4 component of amyloid precursor Non-A beta component of AD amyloid SNCA P37840 Hs.271771 P37840 586067 A49669 Homo sapiens (Human) 140 MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA Disordered - Extended 1 140 MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA Native Relationship to function unknown Molecular assembly Metal binding Polymerization Protein-protein binding Far-UV circular dichroism (CD) 7.5 Tris buffer 10 Fourier transform infrared spectroscopy calcium fluoride solution cell 0.05 NACP per mL of D2O 4 Nuclear magnetic resonance (NMR) 7.4 H2O/2H2O 90%/10% Na2HPO4 10 NaCl 100 Paper 8901511 Weinreb, P. H. Zhen, W. Poon, A. W. Conway, K. A. Lansbury, P. T., Jr. NACP, a protein implicated in Alzheimer's disease and learning, is natively unfolded 1996 Biochemistry 35 43 13709-13715 11312271 Nielsen, M. S. Vorum, H. Lindersson, E. Jensen, P. H. Ca2+ binding to alpha-synuclein regulates ligand binding and oligomerization 2001 J Biol Chem 276 25 22680-22684 11286556 Eliezer D, Kutluay E, Bussell R Jr, Browne G Conformational properties of alpha-synuclein in its free and lipid-associated states 2001 J Mol Biol 307 4 1061-73 11590151 Bussell R Jr, Eliezer D Residual structure and dynamics in Parkinson's disease-associated mutants of alpha-synuclein 2001 J Biol Chem 276 49 45996-6003 Thyroid transcription factor 1 Homeobox protein Nkx-2.1 Thyroid nuclear factor 1 TTF-1 P23441 136462 S12002 Rattus norvegicus (Rat) 372 MSMSPKHTTPFSVSDILSPLEESYKKVGMEGGGLGAPLAAYRQGQAAPPAAAMQQHAVGHHGAVTAAYHMTAAGVPQLSHSAVGGYCNGNLGNMSELPPYQDTMRNSASGPGWYGANPDPRFPAISRFMGPASGMNMSGMGGLGSLGDVSKNMAPLPSAPRRKRRVLFSQAQVYELERRFKQQKYLSAPEREHLASMIHLTPTQVKIWFQNHRYKMKRQAKDKAAQQQLQQDSGGGGGGGGGAGCPQQQQAQQQSPRRVAVPVLVKDGKPCQAGAPAPGAASLQGHAQQQAQQQAQAAQAAAAAISVGSGGAGLGAHPGHQPGSAGQSPDLAHHAASPAALQGQVSSLSHLNSSGSDYGAMSCSTLLYGRTW Disordered 1 166 MSMSPKHTTPFSVSDILSPLEESYKKVGMEGGGLGAPLAAYRQGQAAPPAAAMQQHAVGHHGAVTAAYHMTAAGVPQLSHSAVGGYCNGNLGNMSELPPYQDTMRNSASGPGWYGANPDPRFPAISRFMGPASGMNMSGMGGLGSLGDVSKNMAPLPSAPRRKRRV Far-UV circular dichroism (CD) Paper 9425125 Tell G, Perrone L, Fabbro D, Pellizzari L, Pucillo C, De Felice M, Acquaviva R, Formisano S, Damante G Structural and functional properties of the N transcriptional activation domain of thyroid transcription factor-1: similarities with the acidic activation domains 1998 Biochem J 329 ( Pt 2) 395-403 Disordered 217 226 KRQAKDKAAQ Far-UV circular dichroism (CD) Paper 9425125 Tell G, Perrone L, Fabbro D, Pellizzari L, Pucillo C, De Felice M, Acquaviva R, Formisano S, Damante G Structural and functional properties of the N transcriptional activation domain of thyroid transcription factor-1: similarities with the acidic activation domains 1998 Biochem J 329 ( Pt 2) 395-403 Disordered 58 78 VGHHGAVTAAYHMTAAGVPQL Function arises via a disorder to order transition Far-UV circular dichroism (CD) Paper 9425125 Tell G, Perrone L, Fabbro D, Pellizzari L, Pucillo C, De Felice M, Acquaviva R, Formisano S, Damante G Structural and functional properties of the N transcriptional activation domain of thyroid transcription factor-1: similarities with the acidic activation domains 1998 Biochem J 329 ( Pt 2) 395-403 elastic titin-skeletal [fragment] Q10465 1017427 I38346 Homo sapiens (Human) 7962 PDQEMPVYPPAIITPLQDTVTSEGQPARFQCRVSGTDLKVSWYSKDKKIKPSRFFRMTQFEDTYQLEIAEAYPEDEGTYTFVANNAVGQVSSTANLSLEAPESILHERIEQEIEMEMKAAPVIKRKIEPLEVALGHLAKFTCEIQSAPNVRFQWFKAGREIYESDKCSIRSSKYISSLEILRTQVVDCGEYTCKASNEYGSVSCTATLTVTEAYPPTFLSRPKSLTTFVGKAAKFICTVTGTPVIETIWQKDGAALSPSPNWRISDAENKHILELSNLTIQDRGVYSCKASNKFGADICQAELIIIDKPHFIKELEPVQSAINKKVHLECQVDEDRKVTVTWSKDGQKLPPGKDYKICFEDKIATLEIPLAKLKDSGTYVCTASNEAGSSSCSATVTVREPPSFVKKVDPSYLMLPGESARLHCKLKGSPVIQVTWFKNNKELSESNTVRMYFVNSEAILDITDVKVEDSGSYSCEAVNDVGSDSCSTEIVIKEPPSFIKTLEPADIVRGTNALLQCEVSGTGPFEISWFKDKKQIRSSKKYRLFSQKSLVCLEIFSFNSADVGEYECVVANEVGKCGCMATHLLKEPPTFVKKVDDLIALGGQTVTLQAAVRGSEPISVTWMKGQEVIREDGKIKMSFSNGVAVLIIPDVQISFGGKYTCLAENEAGSQTSVGELIVKEPAKIIERAELIQVTAGDPATLEYTVAGTPELKPKWYKDGRPLVASKKYRISFKNNVAQLKFYSAELHDSGQYTFEISNEVGSSSCETTFTVLDRDIAPFFTKPLRNVDSVVNGTCRLDCKIAGSLPMRVSWFKDGKEIAASDRYRIAFVEGTASLEIIRVDMNDAGNFTCRATNSVGSKDSSGALIVQEPPSFVTKPGSKDVLPGSAVCLKSTFQGSTPLTIRWFKGNKELVSGGSCYITKEALESSLELYLVKTSDSGTYTCKVSNVAGGVECSANLFVKEPATFVEKLEPSQLLKKGDATQLACKVTGTPPIKITWFANDREIKESSKHRMSFVESTAVLRLTDVGIEDSGEYMCEAQNEAGSDHCSSIVIVKESPYFTKEFKPIEVLKEYDVMLLAEVAGTPPFEITWFKDNTILRSGRKYKTFIQDHLVSLQILKFVAADAGEYQCRVTNEVGSSICSARVTLREPPSFIKKIESTSSLRGGTAAFQATLKGSLPITVTWLKDSDEITEDDNIRMTFENNVASLYLSGIEVKHDGKYVCQAKNDAGIQRCSALLSVKEPATITEEAVSIDVTQGDPATLQVKFSGTKEITAKWFKDGQELTLGSKYKISVTDTVSILKIISTEKKDSGEYTFEVQNDVGRSSCKARINVLDLIIPPSFTKKLKKMDSIKGSFIDLECIVAGSHPISIQWFKDDQEISASEKYKFSFHDNTAFLEISQLEGTDSGTYTCSATNKAGHNQCSGHLTVKEPPYFVEKPQSQDVNPNTRVQLKALVGGTAPMTIKWFKDNKELHSGAARSVWKDDTSTSLELFAAKATDSGTYICQLSNDVGTATSKATLFVKEPPQFIKKPSPVLVLRNGQSTTFECQITGTPKIRVSWYLDGNEITAIQKHGISFIDGLATFQISGARVENSGTYVCEARNDAGTASCSIELKVKEPPTFIRELKPVEVVKYSDVELECEVTGTPPFEVTWLKNNREIRSSKKYTLTDRVSVFNLHITKCDPSDTGEYQCIVSNEGGSCSCSTRVALKEPPSFIKKIENTTTVLKSSATFQSTVAGSPPISITWLKDDQILDEDDNVYISFVDSVATLQIRSVDNGHSGRYTCQAKNESGVERCYAFLLVQEPAQIVEKAKSVDVTEKDPMTLECVVAGTPELKVKWLKDGKQIVPSRYFSMSFENNVASFRIQSVMKQDSGQYTFKVENDFGSSSCDAYLRVLDQNIPPSFTKKLTKMDKVLGSSIHMECKVSGSLPISAQWFKDGKEISTSAKYRLVCHERSVSLEVNNLELEDTANYTCKVSNVAGDDACSGILTVKEPPSFLVKPGRQQAIPDSTVEFKAILKGTPPFKIKWFKDDVELVSGPKCFIGLEGSTSFLNLYSVDASKTGQYTCHVTNDVGSDSCTTMLLVTEPPKFVKKLEASKIVKAGDSSRLECKIAGSPEIRVVWFRNEHELPASDKYRMTFIDSVAVIQMNNLSTEDSGDFICEAQNPAGSTSCSTKVIVKEPPVFSSFPPIVETLKNAEVSLECELSGTPPFEVVWYKDKRQLRSSKKYKIASKNFHTSIHILNVDTSDIGEYHCKAQNEVGSDTCVCTVKLKEPPRFVSKLNSLTVVAGEPAELQASIEGAQPIFVQWLKEKEEVIRESENIRITFVENVATLQFAKAEPANAGKYICQIKNDGGMRENMATLMVLEPAVIVEKAGPMTVTVGETCTLECKVAGTPELSVEWYKDGKLLTSSQKHKFSFYNKISSLRILSVERQDAGTYTFQVQNNVGKSSCTAVVDVSDRAVPPSFTRRLKNTGGVLGASCILECKVAGSSPISVAWFHEKTKIVSGAKYQTTFSDNVCTLQLNSLDSSDMGNYTCVAANVAGSDECRAVLTVQEPPSFVKEPEPLEVLPGKNVTFTSVIRGTPPFKVNWFRGARELVKGDRCNIYFEDTVAELELFNIDISQSGEYTCVVSNNAGQASCTTRLFVKEPAAFLKRLSDHSVEPGKSIILESTYTGTLPISVTWKKDGFNITTSEKCNIVTTEKTCILEILNSTKRDAGQYSCEIENEAGRDVCGALVSTLEPPYFVTELEPLEAAVGDSVSLQCQVAGTPEITVSWYKGDTKLRPTPEYRTYFTNNVATLVFNKVNINDSGEYTCKAENSIGTASSKTVFRIQERQLPPSFARQLKDIEQTVGLPVTLTCRLNGSAPIQVCWYRDGVLLRDHENLQTSFVDNVATLKILQTDLSHSGQYSCSASNPLGTASSSARLTAREPKKSPFFDIKPVSIDVIAGESADFECHVTGAQPMRITWSKDNKEIRPGGNYTITCVGNTPHLRILKVGKGDSGQYTCQATNDVGKDMCSAQLSVKEPPKFVKKLEASKVAKQGESIQLECKISGSPEIKVSWFRNDSELHESWKYNMSFINSVALLTINEASAEDSGDYICEAHNGVGDASCSTALTVKAPPVFTQKPSPVGALKGSDVILQCEISGTPPFEVVWVKDRKQVRNSKKFKITSKHFDTNLHILNLEASDVGEYHCKATNEVGSDTCSCSVKFKEPPRFVKKLSDTSTLIGDAVELRAIVEGFQPISVVWLKDRGEVIRESENTRISFIDNIATLQLGSPEASNSGKYICQIKNDAGMRECSAVLTVLEPARIIEKPEPMTVTTGNPFALECVVTGTPELSAKWFKDGRELSADSKHHITFINKVASLKIPCAEMSDKGLYSFEVKNSVGKSNCTVSVHVSDRIVPPSFIRKLKDVNAILGASVVLECRVSGSAPISVGWFQDGNEIVSGPKCQSSFSENVCTLNLSLLEPSDTGIYTCVAANVAGSDECSAVLTVQEPPSFEQTPDSVEVLPGMSLTFTSVIRGTPPFKVKWFKGSRELVPGESCNISLEDFVTELELFEVQPLESGDYSCLVTNDAGSASCTTHLFVKEPATFVKRLADFSVETGSPIVLEATYTGTPPISVSWIKDEYLISQSERCSITMTEKSTILEILESTIEDYAQYSCLIENEAGQDICEALVSVLEPPYFIEPLEHVEAVIGEPATLQCKVDGTPEIRISWYKEHTKLRSAPAYKMQFKNNVASLVINKVDHSDVGEYSCKADNSVGAVASSAVLVIKARKLPPFFARKLKDVHETLGFPVAFECRINGSEPLQVSWYKDGVLLKDDANLQTSFVHNVATLQILQTDQSHIGQYNCSASNPLGTASSSAKLILSEHEVPPFFDLKPVSVDLALGESGTFKCHVTGTAPIKITWAKDNREIRPGGNYKMTLVENTATLTVLKVGKGDAGQYTCYASNIAGKDSCSAQLGVQEPPRFIKKLEPSRIVKQDEFTRYECKIGGSPEIKVLWYKDETEIQESSKFRMSFVDSVAVLEMHNLSVEDSGDYTCEAHNAAGSASSSTSLKVKEPPIFRKKPHPIETLKGADVHLECELQGTPPFHVSWYKDKRELRSGKKYKIMSENFLTSIHILNVDAADIGEYQCKATNDVGSDTCVGSIALKAPPRFVKKLSDISTVVGKEVQLQTTIEGAEPISVVWFKDKGEIVRESDNIWISYSENIATLQFSRVEPANAGKYTCQIKNDAGMQECFATLSVLEPATIVEKPESIKVTTGDTCTLECTVAGTPELSTKWFKDGKELTSDNKYKISFFNKVSGLKIINVAPSDSGVYSFEVQNPVGKDSCTASLQVSDRTVPPSFTRKLKETNGLSGSSVVMECKVYGSPPISVSWFHEGNEISSGRKYQTTLTDNTCALTVNMLEESDSGDYTCIATNMAGSDECSAPLTVREPPSFVQKPDPMDVLTGTNVTFTSIVKGTPPFSVSWFKGSSELVPGDRCNVSLEDSVAELELFDVDTSQSGEYTCIVSNEAGKASCTTHLYIKAPAKFVKRLNDYSIEKGKPLILEGTFTGTPPISVTWKKNGINVTPSQRCNITTTEKSPILEIPSSTVEDAGQYNCYIENASGKDSCSAQILILEPPYFVKQLEPVKVSVGDSASLQCQLAGTPEIGVSWYKGDTKLRPTTTYKMHFRNNVATLVFNQVDINDSGEYICKAENSVGEVSASTFLTVQEQKLPPSFSRQLRDVQETVGLPVVFDCAISGSEPISVSWYKDGKPLKDSPNVQTSFLDNTATLNIFKTDRSLAGQYSCTATNPIGSASSSARLILTEGKNPPFFDIRLAPVDAVVGESADFECHVTGTQPIKVSWAKDSREIRSGGKYQISYLENSAHLTVLKVDKGDSGQYTCYAVNEVGKDSCTAQLNIKERLIPPSFTKRLSETVEETEGNSFKLEGRVAGSQPITVAWYKNNIEIQPTSNCEITFKNNTLVLQVRKAGMNDAGLYTCKVSNDAGSALCTSSIVIKEPKKPPVFDQHLTPVTVSEGEYVQLSCHVQGSEPIRIQWLKAGREIKPSDRCSFSFASGTAVLELRDVAKADSGDYVCKASNVAGSDTTKSKVTIKDKPAVAPATKKAAVDGRLFFVSEPQSIRVVEKTTATFIAKVGGDPIPNVKWTKGKWRQLNQGGRVFIHQKGDEAKLEIRDTTKTDSGLYRCVAFNEHGEIESNVNLQVDERKKQEKIEGDLRAMLKKTPILKKGAGEEEEIDIMELLKNVDPKEYEKYARMYGITDFRGLLQAFELLKQSQEEETHRLEIEEIERSERDEKEFEELVSFIQQRLSQTEPVTLIKDIENQTVLKDNDAVFEIDIKINYPEIKLSWYKGTEKLEPSDKFEISIDGDRHTLRVKNCQLKDQGNYRLVCGPHIASAKLTVIEPAWERHLQDVTLKEGQTCTMTVQFSVPNVKSEWFRNGRILKPQGRHKTEVEHKVHKLTIADVRAEDQGQYTCKYEDLETSAELRIEAEPIQFTKRIQNIVVSEHQSATFECEVSFDDAIVTWYKGPTELTESQKYNFRNDGRCHYMTIHNVTPDDEGVYSVIARLEPRGEARSTAELYLTTKEIKLELKPPDIPDSRVPIPTMPIRAVPPEEIPPVVAPPVPLLLPTPEEKKPPPKRIEVTKKAVKKDAKKVVAKPKEMTPREEIVKKPPPPTTLIPAKAPEIIDVSSKAEEVKIMTITRKKEVQKEKEAVYEKKQAVHKEKRVFIESFEEPYDELEVEPYTEPFEQPYYEEPDEDYEEIKVEAKKEVHEEWEEDFEEGQEYYEREEGYDEGEEEWEEAYQEREVIQVQKEVYEESHERKVPAKVPEKKAPPPPKVIKKPVIEKIEKTSRRMEEEKVQVTKVPEVSKKIVPQKPSRTPVQEEVIEVKVPAVHTKKMVISEEKMFFASHTEEEVSVTVPEVQKEIVTEEKIHVAVSKRVEPPPKVPELPEKPAPEEVAPVPIPKKVEPPAPKVPEVPKKPVPEEKKPVPVPKKEPAAPPKVPEVPKKPVPEEKIPVPVAKKKEAPPAKVPEVQKGVVTEEKITIVTQREESPPPAVPEIPKKKVPEERKPVPRKEEEVPPPPKVPALPKKPVPEEKVAVPVPVAKKAPPPRAEVSKKTVVEEKRFVAEEKLSFAVPQRVEVTRHEVSAEEEWSYSEEEEGVSISVYREEEREEEEEAEVTEYEVMEEPEEYVVEEKLHIISKRVEAEPAEVTERQEKKIVLKPKIPAKIEEPPPAKVPEAPKKIVPEKKVPAPVPKKEKVPPPKVPEEPKKPVPEKKVPPKVIKMEEPLPAKVTEKHMQITQEEKVLVAVTKKEAPPKARVPEEPKRAVPEEKVLKLKPKREEEPPAKVTEFRKRVVKEEKVSIEAPKREPQPIKEVTIMEEKERAYTLEEEAVSVQREEEYEEYEEYDYKEFEEYEPTEEYDQYEEYEEREYERYEEHEEYITEPEKPIPVKPVPEEPVPTKPKAPPAKVLKKAVPEEKVPVPIPKKLKPPPPKVPEEPKKVFEEKIHISITKREKEQVTEPAAKVPMKPKRVVAEEKVPVPRKEVAPPVRVPEVPKELEPEEVAFEEEVVTHVEEYLVEEEEEYIHEEEEFITEEEVVPVIPVKVPEVPRKPVPEEKKPVPVPKKKEAPPAKVPEVPKKPEEKVPVLIPKKEKPPPAKVPEVPKKPVPEEKVPVPVPKKVEAPPAKVPEVPKKPVPEKKVPVPAPKKVEAPPAKVPEVPKKLIPEEKKPTPVPKKVEAPPPKVPKKREPVPVPVALPQEEEVLFEEEIVPEEEVLPEEEEVLPEEEEVLPEEEEVLPEEEEIPPEEEEVPPEEEYVPEEEEFVPEEEVLPEVKPKVPVPAPVPEIKKKVTEKKVVIPKKEEAPPAKVPEVPKKVEEKRIILPKEEEVLPVEVTEEPEEEPISEEEIPEEPPSIEEVEEVAPPRVPEVIKKAVPEAPTPVPKKVEAPPAKVSKKIPEEKVPVPVQKKEAPPAKVPEVPKKVPEKKVLVPKKEAVPPAKGRTVLEEKVSVAFRQEVVVKERLELEVVEAEVEEIPEEEEFHEVEEYFEEGEFHEVEEFIKLEQHRVEEEHRVEKVHRVIEVFEAEEVEVFEKPKAPPKGPEISEKIIPPKKPPTKVVPRKEPPAKVPEVPKKIVVEEKVRVPEEPRVPPTKVPEVLPPKEVVPEKKVPVPPAKKPEAPPPKVPEAPKEVVPEKKVPVPPPKKPEVPPTKVPEVPKAAVPEKKVPEAIPPKPESPPPEVFEEPEESPSAPPKKPEVPPVRVPEVPKEVVPEKKVPAAPPKKPEVTPVKVPEAPKEVVPEKKVPVPPPKKPEVPPTKVPEVPKVAVPEKKVPEAIPPKPESPPPEVFEEPEEVALEEPPAEVVEEPEPAAPPQVTVPPKNPVPEKKAPAVVAKKPELPPVKVPEVPKEVVPEKKVPLVVPKKPEAPPAKVPEVPKEVVPEKKVAVPKKPEVPPAKVPEVPKKPVLEEKPAVPVPERAESPPPEVYEEPEEIAPEEEIAPEEEKPVPVAEEEEPEVPPPAVPEEPKKIIPEKKVPVIKKPEAPPPKEPEPEKVIEKPKLKPRPPPPPPAPPKEDVKEKIFQLKAIPKKKVPENPQVPEKVELTPLKVPGGEKKVRKLLPERKPEPKEEVVLKSVLRKRPEEEEPKVEPKKLEKVKKPAVPEPPPPKPVEEVEVPTVTKRERKIPEPTKVPEIKPAIPLPAPEPKPKPEAEVKTIKPPPVEPEPTPIAAPVTVPVVGKKAEAKAPKEEAAKPKGPIKGVPKKTPSPIEAERRKLRPGSGGEKPPDEAPFTYQLKAVPLKFVKEIKDIILTESEFVGSSAIFECLVSPSTAITTWMKDGSNIRESPKHRFIADGKDRKLHIIDVQLSDAGEYTCVLRLGNKEKTSTAKLVVEELPVRFVKTLEEEVTVVKGQPLYLSCELNKERDVVWRKDGKIVVEKPGRIVPGVIGLMRALTINDAD Disordered PEVK region 5618 7791 PPEEIPPVVAPPVPLLLPTPEEKKPPPKRIEVTKKAVKKDAKKVVAKPKEMTPREEIVKKPPPPTTLIPAKAPEIIDVSSKAEEVKIMTITRKKEVQKEKEAVYEKKQAVHKEKRVFIESFEEPYDELEVEPYTEPFEQPYYEEPDEDYEEIKVEAKKEVHEEWEEDFEEGQEYYEREEGYDEGEEEWEEAYQEREVIQVQKEVYEESHERKVPAKVPEKKAPPPPKVIKKPVIEKIEKTSRRMEEEKVQVTKVPEVSKKIVPQKPSRTPVQEEVIEVKVPAVHTKKMVISEEKMFFASHTEEEVSVTVPEVQKEIVTEEKIHVAVSKRVEPPPKVPELPEKPAPEEVAPVPIPKKVEPPAPKVPEVPKKPVPEEKKPVPVPKKEPAAPPKVPEVPKKPVPEEKIPVPVAKKKEAPPAKVPEVQKGVVTEEKITIVTQREESPPPAVPEIPKKKVPEERKPVPRKEEEVPPPPKVPALPKKPVPEEKVAVPVPVAKKAPPPRAEVSKKTVVEEKRFVAEEKLSFAVPQRVEVTRHEVSAEEEWSYSEEEEGVSISVYREEEREEEEEAEVTEYEVMEEPEEYVVEEKLHIISKRVEAEPAEVTERQEKKIVLKPKIPAKIEEPPPAKVPEAPKKIVPEKKVPAPVPKKEKVPPPKVPEEPKKPVPEKKVPPKVIKMEEPLPAKVTEKHMQITQEEKVLVAVTKKEAPPKARVPEEPKRAVPEEKVLKLKPKREEEPPAKVTEFRKRVVKEEKVSIEAPKREPQPIKEVTIMEEKERAYTLEEEAVSVQREEEYEEYEEYDYKEFEEYEPTEEYDQYEEYEEREYERYEEHEEYITEPEKPIPVKPVPEEPVPTKPKAPPAKVLKKAVPEEKVPVPIPKKLKPPPPKVPEEPKKVFEEKIHISITKREKEQVTEPAAKVPMKPKRVVAEEKVPVPRKEVAPPVRVPEVPKELEPEEVAFEEEVVTHVEEYLVEEEEEYIHEEEEFITEEEVVPVIPVKVPEVPRKPVPEEKKPVPVPKKKEAPPAKVPEVPKKPEEKVPVLIPKKEKPPPAKVPEVPKKPVPEEKVPVPVPKKVEAPPAKVPEVPKKPVPEKKVPVPAPKKVEAPPAKVPEVPKKLIPEEKKPTPVPKKVEAPPPKVPKKREPVPVPVALPQEEEVLFEEEIVPEEEVLPEEEEVLPEEEEVLPEEEEVLPEEEEIPPEEEEVPPEEEYVPEEEEFVPEEEVLPEVKPKVPVPAPVPEIKKKVTEKKVVIPKKEEAPPAKVPEVPKKVEEKRIILPKEEEVLPVEVTEEPEEEPISEEEIPEEPPSIEEVEEVAPPRVPEVIKKAVPEAPTPVPKKVEAPPAKVSKKIPEEKVPVPVQKKEAPPAKVPEVPKKVPEKKVLVPKKEAVPPAKGRTVLEEKVSVAFRQEVVVKERLELEVVEAEVEEIPEEEEFHEVEEYFEEGEFHEVEEFIKLEQHRVEEEHRVEKVHRVIEVFEAEEVEVFEKPKAPPKGPEISEKIIPPKKPPTKVVPRKEPPAKVPEVPKKIVVEEKVRVPEEPRVPPTKVPEVLPPKEVVPEKKVPVPPAKKPEAPPPKVPEAPKEVVPEKKVPVPPPKKPEVPPTKVPEVPKAAVPEKKVPEAIPPKPESPPPEVFEEPEESPSAPPKKPEVPPVRVPEVPKEVVPEKKVPAAPPKKPEVTPVKVPEAPKEVVPEKKVPVPPPKKPEVPPTKVPEVPKVAVPEKKVPEAIPPKPESPPPEVFEEPEEVALEEPPAEVVEEPEPAAPPQVTVPPKNPVPEKKAPAVVAKKPELPPVKVPEVPKEVVPEKKVPLVVPKKPEAPPAKVPEVPKEVVPEKKVAVPKKPEVPPAKVPEVPKKPVLEEKPAVPVPERAESPPPEVYEEPEEIAPEEEIAPEEEKPVPVAEEEEPEVPPPAVPEEPKKIIPEKKVPVIKKPEAPPPKEPEPEKVIEKPKLKPRPPPPPPAPPKEDVKEKIFQLKAIPKKKVPENPQVPEKVELTPLKVPGGEKKVRKLLPERKPEPKEEVVLKSVLRKRPEEEEPKVEPKKLEKVKKPAVPEPPPPKPVEEVEVPTVTKRERKIPEPTKVPEIKPAIPLPAPEPKPKPEAEVKTIKPPPVEPEPTPIAAPVTVPVVGKKAEAKAPKEEAAKPKGPIKGVPKKTPSPIEAERRKLRPGSGGEKPPDEA Fragment Function arises from the disordered state Entropic chain Entropic spring Paper 7569978 Labeit S, Kolmerer B Titins: giant proteins in charge of muscle ultrastructure and elasticity 1995 Science 270 5234 293-6 9472037 Trombitas K, Greaser M, Labeit S, Jin JP, Kellermayer M, Helmes M, Granzier H Titin extensibility in situ: entropic elasticity of permanently folded and permanently unfolded molecular segments 1998 J Cell Biol 140 4 853-9 Thymidylate synthase EC 2.1.1.45 TS TSase Hs.369762 P04818 136611 YXHUT Homo sapiens (Human) 313 MPVAGSELPRRPLPPAAQERDAEPRPPHGELQYLGQIQHILRCGVRKDDRTGTGTLSVFGMQARYSLRDEFPLLTTKRVFWKGVLEELLWFIKGSTNAKELSSKGVKIWDANGSRDFLDSLGFSTREEGDLGPVYGFQWRHFGAEYRDMESDYSGQGVDQLQRVIDTIKTNPDDRRIIMCAWNPRDLPLMALPPCHALCQFYVVNSELSCQLYQRSGDMGLGVPFNIASYALLTYMIAHITGLKPGDFIHTLGDAHIYLNHIEPLKIQLQREPRPFPKLRILRKVEKIDDFKAEDFQIEGYNPHPTIKMEMAV Disordered 1 27 MPVAGSELPRRPLPPAAQERDAEPRPP Native X-ray crystallography 7 Ammonium sulfate 1.5 Beta-Mercaptoethanol pH 6.5-8.0 20 Tris-HCl buffer Paper 8845352 Schiffer CA, Clifton IJ, Davisson VJ, Santi DV, Stroud RM Crystal structure of human thymidylate synthase: a structural mechanism for guiding substrates into the active site 1995 Biochemistry 34 50 16279-87 Disordered 93 132 KGSTNAKELSSKGVKIWDANGSRDFLDSLGFSTREEGDLG Native X-ray crystallography 7 Ammonium sulfate 1.5 Beta-Mercaptoethanol pH 6.5-8.0 20 Tris-HCl buffer Paper 8845352 Schiffer CA, Clifton IJ, Davisson VJ, Santi DV, Stroud RM Crystal structure of human thymidylate synthase: a structural mechanism for guiding substrates into the active site 1995 Biochemistry 34 50 16279-87 Disordered 142 157 FGAEYRDMESDYSGQG Native X-ray crystallography 7 Ammonium sulfate 1.5 Beta-Mercaptoethanol pH 6.5-8.0 20 Tris-HCl buffer Paper 8845352 Schiffer CA, Clifton IJ, Davisson VJ, Santi DV, Stroud RM Crystal structure of human thymidylate synthase: a structural mechanism for guiding substrates into the active site 1995 Biochemistry 34 50 16279-87 Disordered 107 128 KIWDANGSRDFLDSLGFSTREE Engineered X-ray crystallography PEG 4000 15-30%(weight/volume) saturated ammonium sulfate 42-50% Tris-HCL pH 8.5 100 Paper 11278511 Phan J, Steadman DJ, Koli S, Ding WC, Minor W, Dunlap RB, Berger SH, Lebioda L Structure of human thymidylate synthase suggests advantages of chemotherapy with noncompetitive inhibitors 2001 J Biol Chem 276 17 14170-7 The protein used in the Phan paper had an N-terminal extension of 42 residues. It was noted that these residues have no significant effect on the protein structure. Estrogen receptor alpha ER ER-alpha Estradiol receptor P03372 544257 Homo sapiens (Human) 595 MTMTLHTKASGMALLHQIQGNELEPLNRPQLKIPLERPLGEVYLDSSKPAVYNYPEGAAYEFNAAAAANAQVYGQTGLPYGPGSEAAAFGSNGLGGFPPLNSVSPSPLMLLHPPPQLSPFLQPHGQQVPYYLENEPSGYTVREAGPPAFYRPNSDNRRQGGRERLASTNDKGSMAMESAKETRYCAVCNDYASGYHYGVWSCEGCKAFFKRSIQGHNDYMCPATNQCTIDKNRRKSCQACRLRKCYEVGMMKGGIRKDRRGGRMLKHKRQRDDGEGRGEVGSAGDMRAANLWPSPLMIKRSKKNSLALSLTADQMVSALLDAEPPILYSEYDPTRPFSEASMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLECAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKCVEGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVYTFLSSTLKSLEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLYSMKCKNVVPLYDLLLEMLDAHRLHAPTSRGGASVEETDQSHLATAGSTSSHSLQKYYITGEAEGFPATV Disordered 1 184 MTMTLHTKASGMALLHQIQGNELEPLNRPQLKIPLERPLGEVYLDSSKPAVYNYPEGAAYEFNAAAAANAQVYGQTGLPYGPGSEAAAFGSNGLGGFPPLNSVSPSPLMLLHPPPQLSPFLQPHGQQVPYYLENEPSGYTVREAGPPAFYRPNSDNRRQGGRERLASTNDKGSMAMESAKETRY Fragment Function arises via a disorder to order transition Protein-protein binding Nuclear magnetic resonance (NMR) 283 5.3 NaCl 100 Sodium azide 0.01% Sodium dihydrogen phosphate 10 Far-UV circular dichroism (CD) 298 6 Sodium acetate 15 Sodium phosphate 10 Paper 11595744 Warnmark A, Wikstrom A, Wright AP, Gustafsson JA, Hard T The N-terminal regions of estrogen receptor alpha and beta are unstructured in vitro and show different TBP binding properties 2001 J Biol Chem 276 49 45939-44 The fragment used consisted of residues 1-184. Disordered 221 237 CPATNQCTIDKNRRKSC Fragment Monomeric Function arises via a disorder to order transition Molecular assembly Protein-DNA binding Protein-protein binding Nuclear magnetic resonance (NMR) 6.5 2H2O sodium pyrophosphate 40 ZnSO4 50 Nuclear magnetic resonance (NMR) 6.5 H2O/2H2O 85/15% sodium pyrophosphate 40 ZnSO4 50 Paper 16100953 Schwabe JW, Chapman L, Finch JT, Rhodes D, Neuhaus D DNA recognition by the oestrogen receptor: from solution to the crystal 1993 Structure 1 3 187-204 Disordered 253 262 GGIRKDRRGG Fragment Monomeric Function arises from the disordered state Molecular assembly Protein-DNA binding Nuclear magnetic resonance (NMR) 6.5 2H2O sodium pyrophosphate 40 ZnSO4 50 Nuclear magnetic resonance (NMR) 6.5 H2O/2H2O 85/15% sodium pyrophosphate 40 ZnSO4 50 Paper 16100953 Schwabe JW, Chapman L, Finch JT, Rhodes D, Neuhaus D DNA recognition by the oestrogen receptor: from solution to the crystal 1993 Structure 1 3 187-204 DNA topoisomerase I Deoxiribonucleate topoisomerase Deoxiribonucleic topoisomerase EC 5.99.1.2 Late protein H6 Nicking-closing enzyme Omega-protein Relaxing enzyme Swivelase TOP1mt Topo I Topoisomerase Topoisomerase I TpI Type I DNA topoisomerase Untwisting enzyme P11387 Hs.253536 P11387 68486 ISHUT1 Homo sapiens (Human) 765 MSGDHLHNDSQIEADFRLNDSHKHKDKHKDREHRHKEHKKEKDREKSKHSNSEHKDSEKKHKEKEKTKHKDGSSEKHKDKHKDRDKEKRKEEKVRASGDAKIKKEKENGFSSPPQIKDEPEDDGYFVPPKEDIKPLKRPRDEDDADYKPKKIKTEDTKKEKKRKLEEEEDGKLKKPKNKDKDKKVPEPDNKKKKPKKEEEQKWKWWEEERYPEGIKWKFLEHKGPVFAPPYEPLPENVKFYYDGKVMKLSPKAEEVATFFAKMLDHEYTTKEIFRKNFFKDWRKEMTNEEKNIITNLSKCDFTQMSQYFKAQTEARKQMSKEEKLKIKEENEKLLKEYGFCIMDNHKERIANFKIEPPGLFRGRGNHPKMGMLKRRIMPEDIIINCSKDAKVPSPPPGHKWKEVRHDNKVTWLVSWTENIQGSIKYIMLNPSSRIKGEKDWQKYETARRLKKCVDKIRNQYREDWKSKEMKVRQRAVALYFIDKLALRAGNEKEEGETADTVGCCSLRVEHINLHPELDGQEYVVEFDFLGKDSIRYYNKVPVEKRVFKNLQLFMENKQPEDDLFDRLNTGILNKHLQDLMEGLTAKVFRTYNASITLQQQLKELTAPDENIPAKILSYNRANRAVAILCNHQRAPPKTFEKSMMNLQTKIDAKKEQLADARRDLKSAKADAKVMKDAKTKKVVESKKKAVQRLEEQLMKLEVQATDREENKQIALGTSKLNYLDPRITVAWCKKWGVPIEKIYNKTQREKFAWAIDMADEDYEF Disordered - Extended 1 174 MSGDHLHNDSQIEADFRLNDSHKHKDKHKDREHRHKEHKKEKDREKSKHSNSEHKDSEKKHKEKEKTKHKDGSSEKHKDKHKDRDKEKRKEEKVRASGDAKIKKEKENGFSSPPQIKDEPEDDGYFVPPKEDIKPLKRPRDEDDADYKPKKIKTEDTKKEKKRKLEEEEDGKLK Function arises from the ordered state Molecular assembly Autoregulatory Disordered region is not essential for protein function Nuclear localization Protein-protein binding Far-UV circular dichroism (CD) 310 KPO₄ (pH 7.4) 10 Gel filtration/size exclusion chromatography 298 DTT 1 EDTA 1 KPO₄ (pH 7.4) 200 Paper 8567649 Bharti AK, Olson MO, Kufe DW, Rubin EH Identification of a nucleolin binding site in human topoisomerase I 1996 J Biol Chem 271 4 1993-1997 10380229 Shaiu WL, Hu T, Hsieh TS The hydrophilic, protease-sensitive terminal domains of eucaryotic DNA topoisomerases have essential intracellular functions 1999 Pac Symp Biocomput 578-589 8631793 Stewart L, Ireton GC, Parker LH, Madden KR, Champoux JJ Biochemical and biophysical analyses of recombinant forms of human topoisomerase I 1996 J Biol Chem 271 13 7593-7601 Proposed functions of N-terminus include regulation of Topo I activity through the phosphorylation of the N-terminal domain, phosphorylation by a number of protein kinases, nuclear targeting (NLS), and possible protein-protein interactions between the Topo I N-terminus and other chromosomal proteins. Since this domain is flexible and extended, it may be proficient in providing an interacting surface to allow for binding with other proteins. A 44-residue segment in the human Topo I N-terminus can bind to an abundant nucleolar protein nucleolin. (Shaiu, et al.) The critical residues involved in nucleolin binding appear to be contained in the region of 166 – 210. Nucleolin binding to topo I may be the mechanism by which topo I enters the nucleus. While the 166 – 210 region of topo I does contain a NLS, the 140 – 167 and 1 – 139 regions of topo I also contain NLSs that do not bind nucleolin. (Bharti AK, et al.) Disordered - Extended 1 197 MSGDHLHNDSQIEADFRLNDSHKHKDKHKDREHRHKEHKKEKDREKSKHSNSEHKDSEKKHKEKEKTKHKDGSSEKHKDKHKDRDKEKRKEEKVRASGDAKIKKEKENGFSSPPQIKDEPEDDGYFVPPKEDIKPLKRPRDEDDADYKPKKIKTEDTKKEKKRKLEEEEDGKLKKPKNKDKDKKVPEPDNKKKKPKK Function arises from the disordered state Molecular assembly Autoregulatory Disordered region is not essential for protein function Nuclear localization Phosphorylation Protein-protein binding Paper 8567649 Bharti AK, Olson MO, Kufe DW, Rubin EH Identification of a nucleolin binding site in human topoisomerase I 1996 J Biol Chem 271 4 1993-1997 9611241 Labourier E, Rossi F, Gallouzi IE, Allemand E, Divita G, Tazi J Interaction between the N-terminal domain of human DNA topoisomerase I and the arginine-serine domain of its substrate determines phosphorylation of SF2/ASF splicing factor 1998 Nucleic Acids Res 26 12 2955-2962 10380229 Shaiu WL, Hu T, Hsieh TS The hydrophilic, protease-sensitive terminal domains of eucaryotic DNA topoisomerases have essential intracellular functions 1999 Pac Symp Biocomput 578-589 8631793 Stewart L, Ireton GC, Parker LH, Madden KR, Champoux JJ Biochemical and biophysical analyses of recombinant forms of human topoisomerase I 1996 J Biol Chem 271 13 7593-7601 8631794 Stewart L, Ireton GC, Champoux JJ The domain organization of human topoisomerase I 1996 J Biol Chem 271 13 7602-7608 Charged residues contained within the interacting region of topo I/kinase (139 – 175) make electrostatic interactions with SF2/ASF (splice factor). Topo I/kinase phosphorylates at least six members of the SR protein family on serines contained in the RS domain of these proteins. Binding of SR proteins or other nuclear factors to DNA topoisomerase I may be a mechanism through which DNA topoisomerase I enters the nucleus. The N-terminal domain is highly extended and thereby accessible for specific interaction with other proteins. Human DNA topoisomerase I is a constitutively expressed nuclear phospho-protein that localizes to active transcription sites in which its kinase activity may allow this protein to participate in the coordination between transcription and splicing, since sites of transcription in the nucleus colocalize with sites of splicing. (Labourier, et al., 1998) Proposed functions of N-terminus include regulation of Topo I activity through the phosphorylation of the N-terminal domain, phosphorylation by a number of protein kinases, nuclear targeting (NLS), and possible protein-protein interactions between the Topo I N-terminus and other chromosomal proteins. Since this domain is flexible and extended, it may be proficient in providing an interacting surface to allow for binding with other proteins. A 44-residue segment in the human Topo I N-terminus can bind to an abundant nucleolar protein nucleolin. (Shaiu, et al.) The critical residues involved in nucleolin binding appear to be contained in the region of 166 – 210. Nucleolin binding to topo I may be the