Add to ORKGABSTRACT: Understanding the structural nature of the free energy bottleneck(s) encountered in protein folding is essential to elucidating the underlying dynamics and mechanism. For this reason, several techniques, including Φ-value analysis, have previously been developed to infer the structural characteristics of such high free-energy or transition states. Herein we propose that one (or few) appropriately placed backbone and/or side chain cross-linkers, such as disulfides, could be used to populate a thermodynamically accessible conformational state that mimics the folding transition state. Specifically, we test this hypothesis on a model β-hairpin, Trpzip4, as its folding mechanism has been extensively studied and is well understood. Our ...
The attempt frequency or prefactor (<i>k</i><sub>0</sub>) of the transition-state rate equation of p...
AbstractWe show that the five-helix bundle λ6–85 can be engineered and solvent-tuned to make the tra...
β-Turns are common conformations that enable proteins to adopt globular structures, and their format...
Understanding the structural nature of the free energy bottleneck(s) encountered in protein folding ...
The question of how protein sequences can efficiently achieve their native state is one of the most ...
Protein folding is one of the most fundamental problems in biophysics and structural biology. Despit...
Protein folding is one of the most fundamental problems in biophysics and structural biology. Despit...
Most proteins require appropriate folding in order to perform their respective functions, whereas mi...
Most proteins require appropriate folding in order to perform their respective functions, whereas mi...
Understanding the folding of the β-hairpin is a crucial step in studying how β-rich proteins fold. W...
AbstractSmall single-domain proteins often exhibit only a single free-energy barrier, or transition ...
According to landscape theory proteins do not fold by localised pathways, but find their native conf...
Detailed knowledge of folding intermediate and transition state (TS) structures is critical for unde...
Background: Energy landscape theory predicts that the folding funnel for a small fast-folding α-heli...
Proteins fold through complex inter-residue interactions which are mutually supportive and cooperati...
The attempt frequency or prefactor (<i>k</i><sub>0</sub>) of the transition-state rate equation of p...
AbstractWe show that the five-helix bundle λ6–85 can be engineered and solvent-tuned to make the tra...
β-Turns are common conformations that enable proteins to adopt globular structures, and their format...
Understanding the structural nature of the free energy bottleneck(s) encountered in protein folding ...
The question of how protein sequences can efficiently achieve their native state is one of the most ...
Protein folding is one of the most fundamental problems in biophysics and structural biology. Despit...
Protein folding is one of the most fundamental problems in biophysics and structural biology. Despit...
Most proteins require appropriate folding in order to perform their respective functions, whereas mi...
Most proteins require appropriate folding in order to perform their respective functions, whereas mi...
Understanding the folding of the β-hairpin is a crucial step in studying how β-rich proteins fold. W...
AbstractSmall single-domain proteins often exhibit only a single free-energy barrier, or transition ...
According to landscape theory proteins do not fold by localised pathways, but find their native conf...
Detailed knowledge of folding intermediate and transition state (TS) structures is critical for unde...
Background: Energy landscape theory predicts that the folding funnel for a small fast-folding α-heli...
Proteins fold through complex inter-residue interactions which are mutually supportive and cooperati...
The attempt frequency or prefactor (<i>k</i><sub>0</sub>) of the transition-state rate equation of p...
AbstractWe show that the five-helix bundle λ6–85 can be engineered and solvent-tuned to make the tra...
β-Turns are common conformations that enable proteins to adopt globular structures, and their format...