中文

High resolution protein folding with a transferable potential

生物大分子 2009-11-11 v1

摘要

A generalized computational method for folding proteins with a fully transferable potential and geometrically realistic all-atom model is presented and tested on seven different helix bundle proteins. The protocol, which includes graph-theoretical analysis of the ensemble of resulting folded conformations, was systematically applied and consistently produced structure predictions of approximately 3 Angstroms without any knowledge of the native state. To measure and understand the significance of the results, extensive control simulations were conducted. Graph theoretic analysis provides a means for systematically identifying the native fold and provides physical insight, conceptually linking the results to modern theoretical views of protein folding. In addition to presenting a method for prediction of structure and folding mechanism, our model suggests that a accurate all-atom amino acid representation coupled with a physically reasonable atomic interaction potential (that does not require optimization to the test set) and hydrogen bonding are essential features for a realistic protein model.

关键词

引用

@article{arxiv.q-bio/0509007,
  title  = {High resolution protein folding with a transferable potential},
  author = {Isaac A. Hubner and Eric J. Deeds and Eugene I. Shakhnovich},
  journal= {arXiv preprint arXiv:q-bio/0509007},
  year   = {2009}
}

备注

submitted to PNAS 2005-03-16