Conservation of intrinsic disorder in protein domains and families: II. functions of conserved disorder.
about
Classification of intrinsically disordered regions and proteinsEpigenetic regulation of the mammalian cellA decade and a half of protein intrinsic disorder: biology still waits for physicsFunctional Diversification of the Four MARCKS Family Members in Zebrafish Neural DevelopmentFunctional fragments of disorder in outer membrane β barrel proteins.The unfoldomics decade: an update on intrinsically disordered proteins.Bringing order to protein disorder through comparative genomics and genetic interactions.Predicting mostly disordered proteins by using structure-unknown protein data.Phosphorylation blocks the activity of tubulin polymerization-promoting protein (TPPP): identification of sites targeted by different kinases.Inferring function using patterns of native disorder in proteinsDevelopment of an accurate classification system of proteins into structured and unstructured regions that uncovers novel structural domains: its application to human transcription factors.Evidence for the concerted evolution between short linear protein motifs and their flanking regions.Protein aggregation profile of the bacterial cytosol.The importance of being flexible: the case of basic region leucine zipper transcriptional regulators.Molecular and phylogenetic characterization of the sieve element occlusion gene family in Fabaceae and non-Fabaceae plantsUnderstanding nuclear receptors using computational methods.Bioinformatics analysis of disordered proteins in prokaryotes.Recent advances in MeCP2 structure and function.Binary classification of protein molecules into intrinsically disordered and ordered segments.Expanding the proteome: disordered and alternatively folded proteins.MSMEG_2731, an uncharacterized nucleic acid binding protein from Mycobacterium smegmatis, physically interacts with RPS1.MoRFpred, a computational tool for sequence-based prediction and characterization of short disorder-to-order transitioning binding regions in proteinsD²P²: database of disordered protein predictions.Marked variability in the extent of protein disorder within and between viral families.Evolution and disorder.Evolutionarily conserved network properties of intrinsically disordered proteins.Environmental Pressure May Change the Composition Protein Disorder in Prokaryotes.Functional Advantages of Conserved Intrinsic Disorder in RNA-Binding Proteins.High-throughput prediction of RNA, DNA and protein binding regions mediated by intrinsic disorderAllostery and instability in the functional plasticity of synaptotagmin I.Intrinsic disorder in Viral Proteins Genome-Linked: experimental and predictive analyses.Intrinsic disorder in nuclear hormone receptors.Overlapping Regions in HIV-1 Genome Act as Potential Sites for Host-Virus Interaction.Intrinsically disordered regions of p53 family are highly diversified in evolution.Charge segregation and low hydrophobicity are key features of ribosomal proteins from different organisms.An omics perspective of protein disorder.Tandem and cryptic amino acid repeats accumulate in disordered regions of proteins.Distribution and cluster analysis of predicted intrinsically disordered protein Pfam domains.Bioinformatics analysis identifies several intrinsically disordered human E3 ubiquitin-protein ligases.Protein intrinsic disorder within the Potyvirus genus: from proteome-wide analysis to functional annotation.
P2860
Q22061736-FF64D46E-2488-4443-BECD-C051DF7C2EA7Q28472842-D4216318-6626-47AD-80A0-35483FC32752Q28681184-35DB074B-0642-4B5F-BA82-EC4630B4481EQ29544125-A83C9936-2F0D-48FF-AB74-3EA18D89A331Q30155121-07321532-F22A-4600-A716-6973D0FA66CCQ30372413-F2925BFE-006E-44F1-A999-704AEB809073Q30399739-F4294298-81A2-4F57-8EF9-FB1C7190CBC8Q31104427-D7F321A2-FD89-44CF-9CCA-2652E963B035Q33293924-34DDD551-F175-4B20-9B5B-456A4B739408Q33295214-05CC2C1D-02D5-4200-AD4E-B5DE0A7AE5A6Q33436460-6B693FB6-77E2-4098-BDD2-165CDA2B2CBCQ33479542-1F5E7E4B-6A79-47CE-BD16-D3E1C56EE3BFQ33535929-5E94D5EF-B730-469C-92EB-5C89D47A8035Q33566030-83161793-8346-4834-8F28-D6DDABDC82DEQ33713260-556A98B7-994F-475D-ABD1-49A43D4CBED3Q33755918-4DB6A931-D46C-48AC-A649-A6C5DACB0543Q33834903-1FB47033-28BB-4CE8-9205-2AC3B1A4AC99Q33867993-E8E61663-8A28-4DB0-90BA-18AB16A1FE11Q33938679-E6B6D5F6-9EBE-4700-9557-E6A98786F735Q34197530-6CCC287D-9A17-456A-9DC7-735F8A045AB8Q34270906-957409A9-C113-4AE7-AE0D-DF6086E319CDQ34280717-691A4D98-4027-4E00-B62B-791DC6760D86Q34314929-A5C26C7D-11C0-4DCD-912E-F7AAE5D455FCQ34688655-5BB7CEC5-EBF5-4D87-81F5-8C9AA251A369Q35037936-54D505D2-FE87-4321-A920-5ABE662D81BDQ35606898-AADD72F8-5A4D-404D-82B6-5FB584F232CCQ35739851-860425C5-ECF1-47F8-8C74-85F6F564726CQ35800480-D247CC55-1270-41AB-A1D8-65E42CFB7B72Q36160593-6FCE3294-2775-4FDF-84C4-666D701E0A7FQ36721416-81932004-9B72-4D3C-82F7-29D1B7729FB8Q37114136-FA3DA6E2-90DD-4899-B55C-976E7C6DEF52Q37238407-EBE276F3-4BD6-4DD9-A753-391B186808FAQ37393076-5A68A895-E60E-4DE4-B0E4-26A726C40920Q37528149-656F2278-83AA-486E-B3F5-F199BAA6B49CQ37622582-24076410-6B89-4B3F-8583-57753B7644C4Q37958616-C674EEAE-234C-40C2-BE7F-D538E9087E4EQ38510010-5E278612-BFAA-4A11-8CBC-FA34B694A0B2Q38779742-CD120384-CC28-4C6F-9ADC-53883186288DQ38842180-56AA8E5D-69E3-48DB-814E-2249AB203FA1Q41026093-6BCD4740-B346-4735-956B-FBA181691219
P2860
Conservation of intrinsic disorder in protein domains and families: II. functions of conserved disorder.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
Conservation of intrinsic diso ...... nctions of conserved disorder.
@en
type
label
Conservation of intrinsic diso ...... nctions of conserved disorder.
@en
prefLabel
Conservation of intrinsic diso ...... nctions of conserved disorder.
@en
P2093
P2860
P356
P1476
Conservation of intrinsic diso ...... nctions of conserved disorder.
@en
P2093
A Keith Dunker
Jessica Walton Chen
Pedro Romero
Vladimir N Uversky
P2860
P304
P356
10.1021/PR060049P
P577
2006-04-01T00:00:00Z