Center for Genomics and Systems Biology, New York University, NY 10003, USA.
Proc Natl Acad Sci U S A. 2012 Sep 4;109(36):14320-5. doi: 10.1073/pnas.1209945109. Epub 2012 Aug 20.
Peptoid molecules are biomimetic oligomers that can fold into unique three-dimensional structures. As part of an effort to advance computational design of folded oligomers, we present blind-structure predictions for three peptoid sequences using a combination of Replica Exchange Molecular Dynamics (REMD) simulation and Quantum Mechanical refinement. We correctly predicted the structure of a N-aryl peptoid trimer to within 0.2 Å rmsd-backbone and a cyclic peptoid nonamer to an accuracy of 1.0 Å rmsd-backbone. X-ray crystallographic structures are presented for a linear N-alkyl peptoid trimer and for the cyclic peptoid nonamer. The peptoid macrocycle structure features a combination of cis and trans backbone amides, significant nonplanarity of the amide bonds, and a unique "basket" arrangement of (S)-N(1-phenylethyl) side chains encompassing a bound ethanol molecule. REMD simulations of the peptoid trimers reveal that well folded peptoids can exhibit funnel-like conformational free energy landscapes similar to those for ordered polypeptides. These results indicate that physical modeling can successfully perform de novo structure prediction for small peptoid molecules.
肽类分子是仿生的低聚物,可以折叠成独特的三维结构。作为推进折叠低聚物计算设计努力的一部分,我们使用 Replica Exchange Molecular Dynamics(REMD)模拟和量子力学精修的组合,对三个肽类序列进行了盲结构预测。我们正确预测了 N-芳基肽类三聚体的结构,其 backbone 的 rmsd-backbone 为 0.2 Å,环肽类非三聚体的结构,其 backbone 的 rmsd-backbone 为 1.0 Å。我们还展示了线性 N-烷基肽类三聚体和环肽类非三聚体的 X 射线晶体结构。肽类大环结构的特征是顺式和反式骨架酰胺的组合、酰胺键的显著非平面性以及(S)-N(1-苯乙基)侧链的独特“篮子”排列,包含一个结合的乙醇分子。肽类三聚体的 REMD 模拟表明,折叠良好的肽类可以表现出类似于有序多肽的漏斗状构象自由能景观。这些结果表明,物理建模可以成功地对小分子肽类进行从头结构预测。