Commitment and nucleation in the protein G transition state.
about
Folding pathway of the b1 domain of protein G explored by multiscale modelingDiminished self-chaperoning activity of the DeltaF508 mutant of CFTR results in protein misfoldingRobustness of atomistic Gō models in predicting native-like folding intermediates.Assessing the effect of dynamics on the closed-loop protein-folding hypothesisTheoretical Insights into the Biophysics of Protein Bi-stability and Evolutionary Switches.Analysis of the free-energy surface of proteins from reversible folding simulations.Phi-value analysis by molecular dynamics simulations of reversible folding.Determination of the folding transition states of barnase by using PhiI-value-restrained simulations validated by double mutant PhiIJ-values.Structured pathway across the transition state for peptide folding revealed by molecular dynamics simulationsPhi-value analysis and the nature of protein-folding transition statesScattered Hammond plots reveal second level of site-specific information in protein folding: phi' (beta++).Simulation, experiment, and evolution: understanding nucleation in protein S6 folding.Identification of the minimal protein-folding nucleus through loop-entropy perturbationsUnderstanding ensemble protein folding at atomic detailGB1 is not a two-state folder: identification and characterization of an on-pathway intermediateProtein folding thermodynamics and dynamics: where physics, chemistry, and biology meet.One-dimensional barrier-preserving free-energy projections of a beta-sheet miniprotein: new insights into the folding process.The loop hypothesis: contribution of early formed specific non-local interactions to the determination of protein folding pathways.Kinetic definition of protein folding transition state ensembles and reaction coordinatesStructure-Based Prediction of Protein-Folding Transition Paths.Non-native interactions play an effective role in protein folding dynamicsIdentifying critical residues in protein folding: Insights from phi-value and P(fold) analysis.Is there an en route folding intermediate for Cold shock proteins?Thermodynamics and kinetics of the hairpin ribozyme from atomistic folding/unfolding simulations.A critical assessment of the topomer search model of protein folding using a continuum explicit-chain model with extensive conformational sampling.Identification of the protein folding transition state from molecular dynamics trajectories.A simple simulation model can reproduce the thermodynamic folding intermediate of apoflavodoxinThe protein folding transition state: Insights from kinetics and thermodynamics
P2860
Q24683714-ABD78959-3B7D-4F08-ABD0-A81E6C96AD44Q28472340-AFDDB304-D3B7-45CA-BEE7-92D26BF167C1Q30010022-22155580-C32A-4005-BB5F-E5F286464D64Q30355826-7B215CBA-748B-464B-8318-6F4D8FDA9383Q30388845-1F76D866-A906-417B-B44C-45DDD55B4A43Q33480934-24BCC47B-512D-4F98-B1AC-F87AD708E0F2Q33756182-268CEDF0-CB3D-4CE1-81B5-59477B02A59BQ33933763-2FCF6342-E544-4CFF-B0B1-6BF9096C225CQ34022990-4DF58C35-CD82-4268-9500-BA553741E367Q34330816-2E775F47-7328-4FFF-9830-0C6B236F7A24Q34336245-2F8E24AA-DC72-4536-A60E-2A2AC93EA4E0Q34375343-48D69DA3-9827-4C6B-907D-48916A4088C8Q34572934-437E1E96-C2D2-4074-AD05-A385864A0861Q35128687-11FD99AE-C2A9-4CF2-A7B2-6304E6A0E553Q35342463-AD85F476-01F8-4159-B2DD-236A4E8DF63AQ36472755-F45CBEC2-3216-487F-A581-64AB3F6A7C61Q37330270-808C6539-C712-49CD-B2C0-F85CCC8DE4E6Q38783036-034EDA0B-D23F-48C7-B057-FD345A3CC64DQ39133279-7D8B0A54-5B7A-49E6-86E2-314F40A63ED1Q41059544-D8A4B435-691F-41F6-AEBD-4FEBB5FCDFFDQ41295041-31FFE05A-CFAC-414F-8054-08AAADDC56FBQ41845755-1EB4F20C-2455-42F4-8AAB-5E31BD7DBA14Q42247365-3CE611DA-5072-45D9-950F-5E75BD46A676Q42362871-41E1991E-4F94-4F29-89C1-9B540D03D5A4Q43058001-436EB8AD-B45E-404E-AA5D-DB305F1069E9Q51742989-2A884AC7-8C36-45B6-BB6F-780CDB45F966Q58658653-DAA33199-5800-4D07-A95C-1D6732B78D1EQ58658659-4B07BEC0-2B3C-4096-9D07-6F7E956B9332
P2860
Commitment and nucleation in the protein G transition state.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh-hant
name
Commitment and nucleation in the protein G transition state.
@en
Commitment and nucleation in the protein G transition state.
@nl
type
label
Commitment and nucleation in the protein G transition state.
@en
Commitment and nucleation in the protein G transition state.
@nl
prefLabel
Commitment and nucleation in the protein G transition state.
@en
Commitment and nucleation in the protein G transition state.
@nl
P1476
Commitment and nucleation in the protein G transition state.
@en
P2093
Isaac A Hubner
Jun Shimada
P304
P356
10.1016/J.JMB.2003.12.032
P407
P577
2004-02-01T00:00:00Z