Supramolecular structure of a helical ribbon peptide self-assembly

机译：螺旋带状肽自组装的超分子结构

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We have studied the supramolecular structure of nanometer scale helical ribbons observed in the self-assembly of beta-sheets forming peptide KFE8 (amino acid sequence: FKFEFKFE). By running molecular dynamics simulations on a wide range of possible combinations of single and double layer beta-sheet ribbons, we identified the most stable structure. The effect of solution pH was incorporated by scaling the charge on sidechains based on electrostatic double layer theory. Our results suggest that the helical ribbon is comprised of a double beta-sheet having multiple local energy minima at different pitch values. Electrostatic interactions between charged sidechains are found to be crucial in determining the curvature and elasticity of the helix, which suggests that the helical shape depends on the solution properties. Our approach has general applicability to studying helices made of beta-sheet forming peptides with various amino acid sequences.

机译：我们已经研究了在形成肽KFE8（氨基酸序列：FKFEFKFE）的β-折叠的自组装中观察到的纳米级螺旋带的超分子结构。通过对单层和双层β-折叠碳带的各种可能组合进行分子动力学模拟，我们确定了最稳定的结构。根据静电双层理论，通过缩放侧链上的电荷，可以合并溶液pH的影响。我们的结果表明，螺旋带由双β-折叠组成，在不同的螺距值下具有多个局部能量最小值。发现带电侧链之间的静电相互作用对于确定螺旋的曲率和弹性至关重要，这表明螺旋形状取决于溶液的性质。我们的方法在研究由具有多种氨基酸序列的β-折叠形成肽制成的螺旋中具有普遍的适用性。

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《》|2002年|p.612-613|共2页
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Wonmuk Hwang; Marini; D.M.; Shuguang Zhang; Kamm; R.D.;
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中图分类无线电电子学、电信技术;
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molecular dynamics method; organic compounds; pH; molecular biophysics; biochemistry; macromolecules; molecular configurations; peptide self-assembly; double layer beta-sheet ribbons; single layer beta-sheet ribbons; solution pH effect; pitch values;

机译：分子动力学方法;有机化合物; pH;分子生物物理学;生物化学;大分子;分子构型;肽自组装;双层β-折叠带;单层β-折叠带;溶液pH效应;螺距值;

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专利

1. DNA-Grafted Supramolecular Polymers: Helical Ribbon Structures Formed by Self-Assembly of Pyrene-DNA Chimeric Oligomers [J] . Vyborna Yuliia, Vybornyi Mykhailo, Rudnev Alexander V., Angewandte Chemie . 2015,第27期

机译：DNA接枝的超分子聚合物：P-DNA嵌合低聚物的自组装形成的螺旋带状结构。
2. Morphology Control between Twisted Ribbon, Helical Ribbon, and Nanotube Self-Assemblies with His-Containing Helical Peptides in Response to pH Change [J] . Akihiro Uesaka, Motoki Ueda, Akira Makino, Langmuir: The ACS Journal of Surfaces and Colloids . 2014,第4期

机译：pH值变化对扭曲带，螺旋带和含His螺旋肽的纳米管自组装之间的形态学控制
3. Supramolecular structure of helical ribbons self-assembled from a beta-sheet peptide [J] . Wonmuk Hwang, Davide M.Marini, Roger D.Kamm, The Journal of Chemical Physics . 2003,第1期

机译：由β-折叠肽自组装的螺旋带的超分子结构
4. Supramolecular structure of a helical ribbon peptide self-assembly [C] . Wonmuk Hwang, Davide M. Marini, Shuguang Zhang, Joint Engineering in Medicine and Biology Society-Biomedical Engineering Society Conference . 2002

机译：螺旋丝带肽自组装的超分子结构
5. Supramolecular Assembly Containing α-Helical Peptide Molecules in Lipid Bilayer Membrane and at the Air/Water Interface [D] . Fujita, Katsuhiko 1995

机译：脂质双层膜中和在空气/水界面处包含α-螺旋肽分子的超分子组装。
6. Novel Materials From the Supramolecular Self-Assembly of Short Helical β3-Peptide Foldamers [O] . Ketav Kulkarni, Nathan Habila, Mark P. Del Borgo, 1970

机译：短螺旋β3-肽折叠分子超分子自组装的新型材料
7. Cover Picture: DNA-Grafted Supramolecular Polymers: Helical Ribbon Structures Formed by Self-Assembly of Pyrene-DNA Chimeric Oligomers (Angew. Chem. Int. Ed. 27/2015) [O] . Yuliia Vyborna, Mykhailo Vybornyi, Alexander V. Rudnev, 2015

机译：封面图片：DNA接枝的超分子聚合物：通过芘-DNA嵌合低聚物的自组装形成的螺旋带结构（Angew.Chem.Int.ED。27/2015）

Supramolecular structure of a helical ribbon peptide self-assembly

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