Anticooperativity in a Glu-Lys-Glu salt bridge triplet in an isolated alpha-helical peptide

Iqbalsyah TM; Doig AJ

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Anticooperativity in a Glu-Lys-Glu salt bridge triplet in an isolated alpha-helical peptide

机译：在分离的α-螺旋肽中的Glu-Lys-Glu盐桥三联体中的抗合作性

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Salt bridges between oppositely charged side chains are well-known to stabilize protein structure, though their contributions vary considerably. Here we study Glu-Lys and Lys-Glu salt bridges, formed when the residues are spaced i, i + 4 surface of an isolated a-helix in aqueous solution. Both are stabilizing by -0.60 and -1.02 kcal/mol, respectively, when the interacting residues are fully charged. When the side chains are spaced i, i + 4, i + 8, forming a Glu-Lys-Glu triplet, the second salt bridge provides no additional stabilization to the helix. We attribute this to the inability of the central Lys to form two salt bridges simultaneously. Analysis of these salt bridges in protein structures shows that the Lys-Glu interaction is dominant, with the side chains of the Glu-Lys pair far apart.

机译：众所周知，带相反电荷的侧链之间的盐桥可稳定蛋白质结构，尽管它们的作用差异很大。在这里，我们研究Glu-Lys和Lys-Glu盐桥，当残基在水溶液中隔开一个a-螺旋的i，i + 4表面时，它们形成。当相互作用的残基完全带电时，两者的稳定度分别为-0.60和-1.02 kcal / mol。当侧链间隔为i + 4 + i + 8形成Glu-Lys-Glu三重态时，第二个盐桥不会为螺旋结构提供额外的稳定性。我们将此归因于中央Lys无法同时形成两个盐桥。对蛋白质结构中这些盐桥的分析表明，Lys-Glu相互作用占主导，Glu-Lys对的侧链相距很远。

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《Biochemistry》 |2005年第31期|共8页
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Iqbalsyah TM; Doig AJ;
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正文语种 eng
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SIDE-CHAIN INTERACTIONS; 20 AMINO-ACIDS; COIL THEORY; ELECTROSTATIC STRENGTHS; CIRCULAR-DICHROISM; PROTEIN STABILITY; ION-PAIR; SURFACE; ENERGETICS; RESIDUE;

机译：侧链相互作用;20种氨基酸;螺旋理论;电强度;圆二色性;蛋白质稳定性;离子对;表面;能量学;残基;

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专利

1. Anticooperativity in a Glu-Lys-Glu salt bridge triplet in an isolated alpha-helical peptide [J] . Iqbalsyah TM, Doig AJ Biochemistry . 2005,第31期

机译：在分离的α-螺旋肽中的Glu-Lys-Glu盐桥三联体中的抗合作性
2. Pairwise Coupling in an Arg-Phe-Met Triplet Stabilizes alpha-Helical Peptide via Shared Rotamer Preferences [J] . Teuku M.Iqbalsyah, Andrew J.Doig Journal of the American Chemical Society . 2005,第14期

机译：Arg-Phe-Met三重态中的成对偶联通过共享的Rotamer首选项稳定了α-螺旋肽
3. Remote Sensitized Photoisomerization via Through-Bond Triplet-Triplet Energy Transfer Mediated by a Salt Bridge in a Supramolecular Dyad [J] . Han L, Wei HX, Li SY, Chemphyschem: A European journal of chemical physics and physical chemistry . 2010,第1期

机译：通过超分子二元组中的盐桥介导的全键三重态-三重态能量转移进行远程感光光异构化
4. Lactam-bridged and disulfide-bridged peptide mimic of a stable alpha-helical folded protein [C] . Stanley C.Kwok, Colin T.Mant, Robert S.Hodges the International Peptide Symposium . 2001

机译：内酰胺桥和二硫键肽模仿稳定的α-螺旋折叠蛋白
5. Studies of electrostatic, salt, and metal-binding interactions in the alpha-helical coiled-coil: A model protein system [D] . Kohn, Wayne David 1998

机译：α-螺旋卷曲螺旋中静电，盐和金属结合相互作用的研究：一种模型蛋白质系统
6. A salt bridge stabilizes the helix formed by isolated C-peptide of RNase A. [O] . A Bierzynski, P S Kim, R L Baldwin 1982

机译：盐桥可稳定由RNase A的分离C肽形成的螺旋。
7. Anticooperativity in a Glu-Lys-Glu salt bridge triplet in an isolated α-helical peptide [O] . Iqbalsyah, Teuku M., Doig, Andrew J. 2005

机译：在分离的α-螺旋肽中Glu-Lys-Glu盐桥三联体中的抗运动性

Anticooperativity in a Glu-Lys-Glu salt bridge triplet in an isolated alpha-helical peptide

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