Large-scale linear programming techniques for the design of protein folding potentials

被引:0
|
作者
Michael Wagner
Jarosław Meller
Ron Elber
机构
[1] Cincinnati Children’s Hospital Research Foundation,Biomedical Informatics
[2] University of Cincinnati,Biomedical Informatics
[3] Cincinnati Children’s Hospital Research Foundation,Department of Informatics
[4] University of Cincinnati,Department of Computer Science
[5] Nicholas Copernicus University,undefined
[6] Cornell University,undefined
来源
Mathematical Programming | 2004年 / 101卷
关键词
Protein folding; Interior-point algorithm; PCx; Linear programming; Linear feasibility; Parallel processing;
D O I
暂无
中图分类号
学科分类号
摘要
We present large-scale optimization techniques to model the energy function that underlies the folding process of proteins. Linear Programming is used to identify parameters in the energy function model, the objective being that the model predict the structure of known proteins correctly. Such trained functions can then be used either for ab-initio prediction or for recognition of unknown structures. In order to obtain good energy models we need to be able to solve dense Linear Programming Problems with tens (possibly hundreds) of millions of constraints in a few hundred parameters, which we achieve by tailoring and parallelizing the interior-point code PCx.
引用
收藏
页码:301 / 318
页数:17
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