about
Atomic resolution description of the interaction between the nucleoprotein and phosphoprotein of Hendra virusNative aggregation as a cause of origin of temporary cellular structures needed for all forms of cellular activity, signaling and transformationsClassification of intrinsically disordered regions and proteinsRapid evolutionary dynamics of structural disorder as a potential driving force for biological divergence in flavivirusesThe allosteric mechanism induced by protein kinase A (PKA) phosphorylation of dematin (band 4.9)Unfolded-state dynamics and structure of protein L characterized by simulation and experimentCoherent Behavior and the Bound State of Water and K(+) Imply Another Model of Bioenergetics: Negative Entropy Instead of High-energy BondsSPINE-D: accurate prediction of short and long disordered regions by a single neural-network based methodReductive evolution of proteomes and protein structuresIntrinsically disordered proteins in a physics-based worldIntrinsically disordered proteins are potential drug targetsELM: the status of the 2010 eukaryotic linear motif resourceFunctional Importance of Mobile Ribosomal ProteinsComputational approaches for inferring the functions of intrinsically disordered proteinsFuzzy complexes: Specific binding without complete foldingPhysicochemical properties of cells and their effects on intrinsically disordered proteins (IDPs)Transient dynamics of Aβ contribute to toxicity in Alzheimer's diseaseKinetics of peptide folding in lipid membranesWhat macromolecular crowding can do to a proteinModeling protein association mechanisms and kineticsDisease mutations in disordered regions--exception to the rule?The roles of conditional disorder in redox proteinsThe Road Less Traveled: HIV's Use of Alternative Routes through Cellular PathwaysMicrosecond molecular dynamics simulations of intrinsically disordered proteins involved in the oxidative stress responseFunctional diversity and structural disorder in the human ubiquitination pathwayDynamic structure of lipid-bound synaptobrevin suggests a nucleation-propagation mechanism for trans-SNARE complex formationDirected epitope delivery across the Escherichia coli outer membrane through the porin OmpFAuto-inhibitory role of the EF-SAM domain of STIM proteins in store-operated calcium entrySolution Structure of the mSin3A PAH2–Pf1 SID1 Complex: A Mad1/Mxd1-Like Interaction Disrupted by MRG15 in the Rpd3S/Sin3S ComplexStructural States and Dynamics of the D-Loop in ActinConformational Selection and Folding-upon-binding of Intrinsically Disordered Protein CP12 Regulate Photosynthetic Enzymes AssemblyHigh-resolution structure of TBP with TAF1 reveals anchoring patterns in transcriptional regulationProtein domain definition should allow for conditional disorderThe Designability of Protein Switches by Chemical Rescue of Structure: Mechanisms of Inactivation and ReactivationProtein design by fusion: implications for protein structure prediction and evolutionFolding of an intrinsically disordered protein by phosphorylation as a regulatory switchMembrane insertion of a Tc toxin in near-atomic detailInvestigating the Role of Large-Scale Domain Dynamics in Protein-Protein InteractionsIdentifying and Visualizing Macromolecular Flexibility in Structural BiologyThe contribution of intrinsically disordered regions to protein function, cellular complexity, and human disease
P2860
Q21131369-FEFE0703-EDA0-4652-AE17-4599A89BC7A1Q21245219-13F18771-5787-4292-B827-93E00552FEBFQ22061736-84A6C7FD-1866-4183-9974-F4016CEDE64FQ24289194-6A748D04-2AF1-4B8E-B494-741DFE60BBB9Q24312481-5C144E17-756C-4F79-B64D-44F83B479DDCQ24596398-F2C399AC-B9A8-40FD-BB46-A10322AA417CQ24597526-3D421350-7E93-43FD-B8A9-6AA6DABDD2C4Q24620741-67E8024E-BC0C-4054-B9C4-973E0BF2F1D3Q24630299-966CA931-0F4D-43CF-A0C0-2EE9F4EFC522Q24631733-E5F3BA4C-D41B-41AA-BC58-C0543277CDF8Q24633854-44286BAE-9A3D-4D4C-82C9-1FE53A75EADEQ24644402-A1F35FAF-E101-47AF-87C6-394D59885295Q26784264-E8DE5E40-94F2-409B-AFB7-4F5BC3712B11Q26798064-0885EDDC-A989-4631-9C42-E2A2CBB199F2Q26801450-AB0F9A90-132B-4C89-B52C-CFFEB079EBE7Q26823798-38C44A5F-2CA6-4358-8A94-654DD0B5181EQ26827421-E9ED2176-0977-4702-833A-B5DE1046C816Q26859563-D27EDC51-3FA3-46B4-97D5-F76022DE444DQ27012942-F0BDF7C0-1170-47AB-9156-074A494FC601Q27022182-F2DDBD18-FD4F-4F54-A397-F6469474A625Q27025729-41C8CA3B-AF60-4F27-897D-FCCE053DCEEAQ27026679-136F094C-AE88-4974-A525-8CAEF975A35BQ27027607-FBDC4A22-213B-43B0-A589-78E290FEE263Q27313374-926BFAD6-3C4E-46EA-B4F1-3B86EA60CA6FQ27316805-39BE9026-756D-484B-8985-0A2B9A2A7A8CQ27658206-870E28EC-05CE-439F-A23E-426AAE0EC9B7Q27666038-9B6F83C1-F0F1-406E-86F0-6A3E83A81FDFQ27666526-9FE8B7E4-80B5-4ABE-A506-9496E522906DQ27667329-A4B0C01A-1B3C-44F9-9439-2A031225294BQ27673588-83025229-5722-4CE0-AE17-C589715436FCQ27678601-335903FA-FEDA-43D5-B6B7-8D1A344EA6F7Q27679083-342382BF-8C17-4868-BC42-8B5A56B50BB9Q27679775-8C4AFD58-1FE0-40B3-902E-21C1B7B224E4Q27680801-962FFAA5-C0E9-4B7F-A171-14229CBCE751Q27687870-9B64ABFF-C146-4082-BF6D-191EEEEE3E89Q27696897-6CFCCAD5-9063-450B-81D4-846C9F7D58DAQ27727783-C153F4AD-7EFD-495E-B379-B52A08784869Q28070759-68815AEB-1EBE-4745-85D6-B89147A5BBA0Q28077281-500853B6-F388-437B-8A58-2C80AEDF895FQ28080017-97AF6CDC-D2F1-4903-A511-D442004184A5
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
gotara zanistî
@ku-latn
scientific article published on 20 January 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
name
Linking folding and binding.
@en
Linking folding and binding.
@nl
type
label
Linking folding and binding.
@en
Linking folding and binding.
@nl
prefLabel
Linking folding and binding.
@en
Linking folding and binding.
@nl
P2860
P1476
Linking folding and binding.
@en
P2860
P356
10.1016/J.SBI.2008.12.003
P577
2009-01-20T00:00:00Z