Arbor Sage, Marshall Garland R
Department of Biochemistry and Molecular Biophysics, Washington University School of Medicine, St. Louis, MO 63110, USA.
J Comput Aided Mol Des. 2009 Feb;23(2):87-95. doi: 10.1007/s10822-008-9241-4. Epub 2008 Sep 17.
Reverse turns are often recognition sites for protein/protein interactions and, therefore, valuable potential targets for determining recognition motifs in development of potential therapeutics. A virtual combinatorial library of cyclic tetrapeptides (CTPs) was generated and the bonds in the low-energy structures were overlapped with canonical reverse-turn Calpha-Cbeta bonds (Tran et al., J Comput Aided Mol Des 19(8):551-566, 2005) to determine the utility of CTPs as reverse-turn peptidomimetics. All reverse turns in the Protein Data Bank (PDB) with a crystal structures resolution < or = 3.0 A were classified into the same known canonical reverse-turn Calpha-Cbeta bond clusters (Tran et al., J Comput Aided Mol Des 19(8):551-566, 2005). CTP reverse-turn mimics were compiled that mimicked both the relative orientations of three of the four as well as all four Calpha-Cbeta bonds in the reverse turns of the PDB. 54% of reverse turns represented in the PDB had eight or more CTPs structures that mimicked the orientation of all four of the Calpha-Cbeta bonds in the reverse turn.
反向转角通常是蛋白质/蛋白质相互作用的识别位点,因此,在潜在治疗药物开发中确定识别基序方面是有价值的潜在靶点。生成了一个环状四肽(CTP)的虚拟组合文库,并将低能量结构中的键与典型的反向转角α-碳-β-碳键重叠(Tran等人,《计算机辅助分子设计杂志》19(8):551-566,2005年),以确定CTP作为反向转角肽模拟物的效用。蛋白质数据库(PDB)中所有晶体结构分辨率≤3.0 Å的反向转角都被分类到相同的已知典型反向转角α-碳-β-碳键簇中(Tran等人,《计算机辅助分子设计杂志》19(8):551-566,2005年)。编写了CTP反向转角模拟物,其模拟了PDB反向转角中四个α-碳-β-碳键中的三个以及所有四个的相对取向。PDB中54%的反向转角具有八个或更多模拟反向转角中所有四个α-碳-β-碳键取向的CTP结构。
