MOLECULAR MODELING OF C-ERBB2 RECEPTOR DIMERIZATION - COILED-COIL STRUCTURE OF WILD AND ONCOGENIC TRANSMEMBRANE DOMAINS - STABILIZATION BY INTERHELICAL HYDROGEN BONDS IN THE ONCOGENIC FORM

Garnier N.; Duneau JP.; Genest M.; Genest D.

首页> 外文期刊>Biopolymers: Original Research on Biomolecules and Biomolecular Assemblies >MOLECULAR MODELING OF C-ERBB2 RECEPTOR DIMERIZATION - COILED-COIL STRUCTURE OF WILD AND ONCOGENIC TRANSMEMBRANE DOMAINS - STABILIZATION BY INTERHELICAL HYDROGEN BONDS IN THE ONCOGENIC FORM

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MOLECULAR MODELING OF C-ERBB2 RECEPTOR DIMERIZATION - COILED-COIL STRUCTURE OF WILD AND ONCOGENIC TRANSMEMBRANE DOMAINS - STABILIZATION BY INTERHELICAL HYDROGEN BONDS IN THE ONCOGENIC FORM

机译：C-ERBB2受体二聚化的分子模型-野生型和致癌跨膜域的螺旋结构-致癌形式的螺旋间氢键稳定化

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Dimerization models of c-erbB2 transmembrane domains (Leu651-Ile675) are studied by molecular mechanics and molecular dynamics simulations. Both wild and Glu mutated transmembrane helices exhibit the same relative orientation for favorable associations and dimerize preferentially in left-handed coiled-coil structures. The mutation point 659 belongs to the interfacing residues, and in the transforming domain, symmetric hydrogen bonds between Glu carboxylic groups stabilize the dimeric structure. The same helix packing found for the wild dimers, except side-chain-side-chain hydrogen bonds, suggests that the transmembrane domains dimerize according to similar process. Structural and energetical characterization of the models are presented. (C) 1997 John Wiley & Sons, Inc. [References: 36]

机译：通过分子力学和分子动力学模拟研究了c-erbB2跨膜结构域的二聚化模型（Leu651-Ile675）。野生和Glu突变的跨膜螺旋都表现出相同的相对方向，以实现良好的缔合，并优先在左手螺旋线圈结构中二聚。突变点659属于接口残基，并且在转化域中，Glu羧基之间的对称氢键稳定了二聚体结构。除了侧链-侧链氢键外，野生二聚体的螺旋堆积也相同，这表明跨膜结构域按照相似的过程二聚。介绍了模型的结构和能量特征。（C）1997 John Wiley＆Sons，Inc. [参考：36]

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《Biopolymers: Original Research on Biomolecules and Biomolecular Assemblies》 |1997年第2期|共12页
作者
Garnier N.; Duneau JP.; Genest M.; Genest D.;
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正文语种 eng
中图分类分子生物学;
关键词
Molecular modeling; C-erbb2 receptor; Dimerization; Coiled-coil structure; Wild transmembrane helices; Oncogenic transmembrane helices; Neu oncogene; Leucine zipper; Alpha-helices; Protein; Sequence; Prediction; Region; Packing; Motif;

机译：分子模型;C-erbb2受体;二聚化;卷曲螺旋结构;野生跨膜螺旋;致癌跨膜螺旋;新致癌基因;亮氨酸拉链;α-螺旋;蛋白质;序列;预测;区域;包装;基序;

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1. MOLECULAR MODELING OF C-ERBB2 RECEPTOR DIMERIZATION - COILED-COIL STRUCTURE OF WILD AND ONCOGENIC TRANSMEMBRANE DOMAINS - STABILIZATION BY INTERHELICAL HYDROGEN BONDS IN THE ONCOGENIC FORM [J] . Garnier N., Duneau JP., Genest M., Biopolymers: Original Research on Biomolecules and Biomolecular Assemblies . 1997,第2期

机译：C-ERBB2受体二聚化的分子模型-野生型和致癌跨膜域的螺旋结构-致癌形式的螺旋间氢键稳定化
2. Strong dimerization of wild-type ErbB2/Neu transmembrane domain and the oncogenic Val664Glu mutant in mammalian plasma membranes [J] . Placone Jesse, He Lijuan, Del Piccolo Nuala, Biochimica et biophysica acta. Biomembranes . 2014,第9期

机译：哺乳动物质膜中野生型ErbB2 / Neu跨膜结构域和致癌Val664Glu突变体的强二聚化
3. JAK2 V617F Dimerizes Homodimeric Cytokine Receptors Cytosolic Domains By Requiring Pseudokinase Domain Residues That Promote JAK2 Dimerization and Oncogenic Activity [J] . Leroy Emilie, Balligand Thomas, Constantinescu Stefan N. Blood: The Journal of the American Society of Hematology . 2018,第NovaelaTreatmentAppr期

机译：JAK2 V617F通过需要促进JAK2二聚化和致癌活性的伪转基因酶结构域残基来二聚体细胞因子受体细胞溶质结构域
4. ORGANIC COMPOUNDS CAPABLE TO FORM INTERMOLECULAR HYDROGEN BONDS FOR NANOSTRUCTURES CREATED ON SOLID SURFACE, AIMED TO SENSOR DESIGN [C] . O. NEILANDSauthor_name/ NATO advanced research workshop on molecular low dimensional and nanostructured materials for advanced applicatons . 2002

机译：能够形成在固体表面上产生的纳米结构的分子间氢键的有机化合物，旨在传感器设计
5. Strong dimerization of wild-type ErbB2/Neu transmembrane domain and the oncogenic Val664Glu mutant in mammalian plasma membranes [O] . Jesse Placone, Lijuan He, Nuala Del Piccolo, -1

机译：哺乳动物质膜中野生型ErbB2 / Neu跨膜结构域和致癌Val664Glu突变体的强二聚化
6. Strong dimerization of wild-type ErbB2/Neu transmembrane domain and the oncogenic Val664Glu mutant in mammalian plasma membranes [O] . Placone Jesse, He Lijuan, Del Piccolo Nuala, 2014

机译：哺乳动物质膜中野生型ErbB2 / Neu跨膜结构域和致癌Val664Glu突变体的强二聚化
7. Energetics and Structure Prediction of the Network of Homo- and Hetero- Oligomers Formed by the Transmembrane Domains of the ErbReceptor Family of Proteins [R] . Fleming, K. G. 2006

机译：Erb受体蛋白家族跨膜结构域形成的同源寡聚体网络的能量学和结构预测

MOLECULAR MODELING OF C-ERBB2 RECEPTOR DIMERIZATION - COILED-COIL STRUCTURE OF WILD AND ONCOGENIC TRANSMEMBRANE DOMAINS - STABILIZATION BY INTERHELICAL HYDROGEN BONDS IN THE ONCOGENIC FORM

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