Add to ORKGWe use a minimalist protein model, in combination with a sequence design strategy, to determine differences in primary structure for proteins L and G that are responsible for the two proteins folding through distinctly different folding mechanisms. We find that the folding of proteins L and G are consistent with a nucleation-condensation mechanism, each of which is described as helix-assisted {beta}-1 and {beta}-2 hairpin formation, respectively. We determine that the model for protein G exhibits an early intermediate that precedes the rate-limiting barrier of folding and which draws together misaligned secondary structure elements that are stabilized by hydrophobic core contacts involving the third {beta}-strand, and presages the later tra...
The paper presents a model for simulating the protein folding process in silico. The two-step model...
AbstractThe understanding of the folding mechanisms of single-domain proteins is an essential step i...
AbstractThe B1 domain of protein G has been a classic model system of folding for decades, the subje...
Although intermediates have long been recognised as fascinating species that form during the folding...
Backgound:We have used protein engineering and relaxation kinetics to examine the order in which sec...
The computational atomistic description of the folding reactions of the B1 domains, GB1 and LB1, of ...
Backgound:The role of intermediates in protein folding has been a matter of great controversy. Altho...
The computational atomistic description of the folding reactions of the B1 domains, GB1 and LB1, of ...
AbstractTo investigate a putatively primordial protein we have simplified the sequence of a 56-resid...
AbstractThe diffusion-collision model (DCM) is applied to the folding kinetics of protein L and prot...
The B1 domains of protein G (GB1) and protein L (LB1) are two small proteins that bind to antibody i...
That protein folding is a non-random, guided process has been known even prior to Levinthal's parado...
AbstractTwenty-eight years after its original publication, the diffusion-collision model has success...
AbstractThe folding pathway of the small α/β protein GB1 has been extensively studied during the pas...
Background: Although small proteins may fold in an apparent two-state manner, most studies of protei...
The paper presents a model for simulating the protein folding process in silico. The two-step model...
AbstractThe understanding of the folding mechanisms of single-domain proteins is an essential step i...
AbstractThe B1 domain of protein G has been a classic model system of folding for decades, the subje...
Although intermediates have long been recognised as fascinating species that form during the folding...
Backgound:We have used protein engineering and relaxation kinetics to examine the order in which sec...
The computational atomistic description of the folding reactions of the B1 domains, GB1 and LB1, of ...
Backgound:The role of intermediates in protein folding has been a matter of great controversy. Altho...
The computational atomistic description of the folding reactions of the B1 domains, GB1 and LB1, of ...
AbstractTo investigate a putatively primordial protein we have simplified the sequence of a 56-resid...
AbstractThe diffusion-collision model (DCM) is applied to the folding kinetics of protein L and prot...
The B1 domains of protein G (GB1) and protein L (LB1) are two small proteins that bind to antibody i...
That protein folding is a non-random, guided process has been known even prior to Levinthal's parado...
AbstractTwenty-eight years after its original publication, the diffusion-collision model has success...
AbstractThe folding pathway of the small α/β protein GB1 has been extensively studied during the pas...
Background: Although small proteins may fold in an apparent two-state manner, most studies of protei...
The paper presents a model for simulating the protein folding process in silico. The two-step model...
AbstractThe understanding of the folding mechanisms of single-domain proteins is an essential step i...
AbstractThe B1 domain of protein G has been a classic model system of folding for decades, the subje...