Institute of Biotechnology and Antibiotics, Warsaw, Poland.
Int J Biol Macromol. 2011 Nov 1;49(4):548-54. doi: 10.1016/j.ijbiomac.2011.06.008. Epub 2011 Jun 16.
A tertiary structure of recombinant A22(G)-B31(K)-B32(R)-human insulin monomer (insulin GKR) has been characterized by (1)H, (13)C NMR at natural isotopic abundance using NOESY, TOCSY, (1)H/(13)C-GHSQC, and (1)H/(13)C-GHSQC-TOCSY spectra. Translational diffusion studies indicate the monomer structure in water/acetonitrile (65/35vol.%). CSI analysis confirms existence of secondary structure motifs present in human insulin standard (HIS). Both techniques allow to establish that in this solvent recombinant insulin GKR exists as a monomer. Starting from structures calculated by the program CYANA, two different refinement protocols used molecular dynamics simulated annealing with the program AMBER; in vacuum (AMBER_VC), and including a generalized Born solvent model (AMBER_GB). From these calculations an ensemble of 20 structures of lowest energy was chosen which represents the tertiary structure of studied insulin. Here we present novel insulin with added A22(G) amino acid which interacts with β-turn environment resulting in high flexibility of B chain C-terminus.
已通过天然丰度的(1)H、(13)C NMR 谱,包括 NOESY、TOCSY、(1)H/(13)C-GHSQC 和(1)H/(13)C-GHSQC-TOCSY 图谱,对重组 A22(G)-B31(K)-B32(R)-人胰岛素单体(胰岛素 GKR)的三级结构进行了表征。平移扩散研究表明单体结构存在于水/乙腈(65/35vol.%)中。CSI 分析证实了人胰岛素标准品(HIS)中存在的二级结构基序。这两种技术都可以确定在这种溶剂中重组胰岛素 GKR 以单体形式存在。从程序 CYANA 计算的结构出发,使用程序 AMBER 进行了两种不同的分子动力学模拟退火的细化方案;在真空(AMBER_VC)中,并包括广义 Born 溶剂模型(AMBER_GB)。从这些计算中选择了 20 个能量最低的结构集合,代表了所研究胰岛素的三级结构。在此,我们提出了一种新型胰岛素,在其中添加了 A22(G)氨基酸,该氨基酸与β-转角环境相互作用,导致 B 链 C 末端具有很高的灵活性。
