Experimental evaluation of topological parameters determining protein-folding rates

AUTOR(ES)

Miller, Erik J.

FONTE

National Academy of Sciences

RESUMO

Recent work suggests that structural topology plays a key role in determining protein-folding rates and pathways. The refolding rates of small proteins that fold without intermediates are found to correlate with simple structural parameters such as relative contact order, long-range order, or the fraction of short-range contacts. To test and evaluate the role of structural topology experimentally, a set of circular permutants of the ribosomal protein S6 from Thermus thermophilus was analyzed. Despite a wide range of relative contact order, the permuted proteins all fold with similar rates. These results suggest that alternative topological parameters may better describe the role of topology in protein-folding rates.

Documentos Relacionados

• Cooperativity in protein-folding kinetics.
• Unifying features in protein-folding mechanisms
• Protein-folding landscapes in multichain systems
• Optimal protein-folding codes from spin-glass theory.
• The water factor in the protein-folding problem