Spatial ranges of driving forces are a key determinant of protein folding cooperativity and rate diversity.
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How the folding rates of two- and multistate proteins depend on the amino acid properties.Learning To Fold Proteins Using Energy Landscape Theory.NMR chemical shift analysis of the conformational transition between the monomer and tetramer of melittin in an aqueous solution.Exploring the balance between folding and functional dynamics in proteins and RNA.Systematic derivation of implicit solvent models for the study of polymer collapse.
P2860
Spatial ranges of driving forces are a key determinant of protein folding cooperativity and rate diversity.
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Spatial ranges of driving forc ...... perativity and rate diversity.
@en
Spatial ranges of driving forc ...... perativity and rate diversity.
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type
label
Spatial ranges of driving forc ...... perativity and rate diversity.
@en
Spatial ranges of driving forc ...... perativity and rate diversity.
@nl
prefLabel
Spatial ranges of driving forc ...... perativity and rate diversity.
@en
Spatial ranges of driving forc ...... perativity and rate diversity.
@nl
P2860
P1433
P1476
Spatial ranges of driving forc ...... operativity and rate diversity
@en
P2093
Hue Sun Chan
Zeynep Uzunoğlu
P2860
P304
P356
10.1103/PHYSREVE.88.044701
P407
P50
P577
2013-10-14T00:00:00Z