带电荷的组氨酸通过与主链电荷相互作用,影响螺旋中所有位置的α-螺旋稳定性。
Charged histidine affects alpha-helix stability at all positions in the helix by interacting with the backbone charges.
作者信息
Armstrong K M, Baldwin R L
机构信息
Department of Biochemistry, Beckman Center, Stanford University Medical School, CA 94305-5307.
出版信息
Proc Natl Acad Sci U S A. 1993 Dec 1;90(23):11337-40. doi: 10.1073/pnas.90.23.11337.
Abstract
To determine whether a charged histidine side chain affects alpha-helix stability only when histidine is close to one end of the helix or also when it is in the central region, we substitute a single histidine residue at many positions in two reference peptides and measure helix stability and histidine pKa. The position of a charged histidine residue has a major effect on helix stability in 0.01 M NaCl: the helix content of a 17-residue peptide is 24% when histidine is at position 3 compared to 76% when it is at position 17. This dependence of helix content on histidine position decreases sharply in 1 M NaCl, as expected for counterion screening of the charge-helix dipole interaction. Results at interior positions indicate that the position of a charged histidine residue affects helix stability at these positions. Unexpectedly high values of the helix content are found when either neutral or charged histidine is at one of the last three C-terminal positions, suggesting that either form can stabilize an isolated helix by hydrogen bonding to a main-chain CO group.
摘要
为了确定带电荷的组氨酸侧链是否仅在组氨酸靠近螺旋一端时影响α-螺旋稳定性,还是在其处于中心区域时也有影响,我们在两条参考肽的多个位置替换单个组氨酸残基,并测量螺旋稳定性和组氨酸的pKa。在0.01 M NaCl中,带电荷的组氨酸残基位置对螺旋稳定性有重大影响:当组氨酸位于第3位时,17个残基肽的螺旋含量为24%,而当它位于第17位时为76%。正如电荷-螺旋偶极相互作用的抗衡离子筛选所预期的那样,在1 M NaCl中,螺旋含量对组氨酸位置的这种依赖性急剧降低。内部位置的结果表明,带电荷的组氨酸残基位置会影响这些位置的螺旋稳定性。当在C端最后三个位置之一存在中性或带电荷的组氨酸时,发现螺旋含量意外地高,这表明任何一种形式都可以通过与主链CO基团形成氢键来稳定孤立的螺旋。
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