Department of Chemistry, Seoul National University, Seoul, Korea.
Proteins. 2011 Aug;79(8):2403-17. doi: 10.1002/prot.23059. Epub 2011 May 20.
Ab initio protein structure prediction is a challenging problem that requires both an accurate energetic representation of a protein structure and an efficient conformational sampling method for successful protein modeling. In this article, we present an ab initio structure prediction method which combines a recently suggested novel way of fragment assembly, dynamic fragment assembly (DFA) and conformational space annealing (CSA) algorithm. In DFA, model structures are scored by continuous functions constructed based on short- and long-range structural restraint information from a fragment library. Here, DFA is represented by the full-atom model by CHARMM with the addition of the empirical potential of DFIRE. The relative contributions between various energy terms are optimized using linear programming. The conformational sampling was carried out with CSA algorithm, which can find low energy conformations more efficiently than simulated annealing used in the existing DFA study. The newly introduced DFA energy function and CSA sampling algorithm are implemented into CHARMM. Test results on 30 small single-domain proteins and 13 template-free modeling targets of the 8th Critical Assessment of protein Structure Prediction show that the current method provides comparable and complementary prediction results to existing top methods.
从头蛋白质结构预测是一个具有挑战性的问题,需要精确的蛋白质结构能量表示和有效的构象采样方法,以成功进行蛋白质建模。在本文中,我们提出了一种从头结构预测方法,该方法结合了最近提出的一种新的片段组装方法、动态片段组装(DFA)和构象空间退火(CSA)算法。在 DFA 中,模型结构由基于片段库中的短程和长程结构约束信息构建的连续函数进行评分。这里,DFA 由 CHARMM 的全原子模型表示,并添加了 DFIRE 的经验势能。使用线性规划优化了各个能量项之间的相对贡献。构象采样是通过 CSA 算法进行的,该算法比现有 DFA 研究中使用的模拟退火更有效地找到低能量构象。新引入的 DFA 能量函数和 CSA 采样算法已被实现到 CHARMM 中。对 30 个小单域蛋白质和第 8 次蛋白质结构预测关键评估的 13 个无模板建模目标的测试结果表明,该方法提供了与现有顶级方法相当和互补的预测结果。
