Notch Transmembrane Domain: Secondary Structure andTopology

机译：缺口跨膜域：二级结构和拓扑结构

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The Notch signaling pathway is critical in development, neuronal maintenance, and hematopoiesis. An obligate step in the activation of this pathway is cleavage of its transmembrane (TM) domain by γ-secretase. While the soluble domains have been extensively studied, little has been done to characterize its TM and flanking juxtamembrane (JM) segments. Here, we present the results of nuclear magnetic resonance (NMR) studies of the human Notch1 TM/JM domain. The TM domain is largely α-helical. While the flanking JM segments do not adopt regular secondary structure, they interact with the membrane surface, suggesting membrane interactions may play a role in modulating its cleavage by γ-secretase and subsequent NOTCH signaling function.

机译：Notch信号通路在发育，神经元维持和造血中至关重要。激活该途径的一个必不可少的步骤是通过γ-分泌酶裂解其跨膜（TM）结构域。尽管已经对可溶性域进行了广泛研究，但几乎没有进行表征其TM和侧翼近膜（JM）片段的工作。在这里，我们介绍人类Notch1 TM / JM域的核磁共振（NMR）研究的结果。 TM域主要是α-螺旋。虽然侧翼JM节段不采用规则的二级结构，但它们与膜表面相互作用，这表明膜相互作用可能在通过γ-分泌酶和随后的NOTCH信号传导功能调节其裂解中发挥作用。

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期刊名称 ACS AuthorChoice
作者
CatherineL. Deatherage; Zhenwei Lu; Ji-Hun Kim; Charles R. Sanders; *;
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年(卷),期 -1(54),23
年度 -1
页码 3565–3568
总页数 4
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专利

1. Notch Transmembrane Domain: Secondary Structure and Topology [J] . Deatherage Catherine L., Lu Zhenwei, Kim Ji-Hun, Biochemistry . 2015,第23期

机译：陷波跨膜结构域：二级结构和拓扑
2. Secondary and tertiary structures of the transmembrane domains of the translocator protein TSPO determined by NMR. Stabilization of the TSPO tertiary fold upon ligand binding. [J] . Murail S, Robert JC, Coic YM Biochimica et biophysica acta. Biomembranes . 2008,第6期

机译：通过NMR确定易位蛋白TSPO的跨膜结构域的二级和三级结构。配体结合后，TSPO三级折叠稳定。
3. Transmembrane domain of cystic fibrosis transmembrane conductance regulator: Design, characterization, and secondary structure of synthetic peptides m1-m6 [J] . Wigley WC., Jones JD., Slaughter C., Biochemistry . 1998,第3期

机译：囊性纤维化的跨膜结构域跨膜电导调节剂：合成肽m1-m6的设计，表征和二级结构
4. Spectral and time domains analysis of pentagon UWB antenna with WLAN band-notched using electromagnetic band-gap structures [C] . Abdelmoumen Kaabal, Mustapha El Halaoui, Saida Ahyoud, International conference on wireless networks and mobile communications . 2014

机译：具有电磁带隙结构的WLAN带隙五边形UWB天线的频谱和时域分析
5. Structural analysis of the Notch transmembrane domain explains substrate preference of gamma-secretase and reveals conformational variants of bacterially expressed substrates. [D] . Keller, Preston Curtis, II. 2006

机译：Notch跨膜结构域的结构分析解释了γ-分泌酶的底物偏爱，并揭示了细菌表达底物的构象变异。
6. Fourier transform coupled to tryptophan-scanning mutagenesis: Lessons from its application to the prediction of secondary structure in the acetylcholine receptor lipid-exposed transmembrane domains [O] . José David Otero-Cruz, David Abner Torres-Núñez, Carlos Alberto Báez-Pagán, -1

机译：傅里叶变换与色氨酸扫描诱变耦合：从其应用到乙酰胆碱受体脂质暴露的跨膜结构域二级结构预测中的经验教训
7. Secondary and tertiary structures of the transmembrane domains of the translocator protein TSPO determined by NMR. Stabilization of the TSPO tertiary fold upon ligand binding [O] . Murail Samuel, Robert Jean-Claude, Coïc Yves-Marie, 2008

机译：通过NMR确定易位蛋白TSPO的跨膜结构域的二级和三级结构。配体结合后稳定TSPO三级折叠
8. 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

Notch Transmembrane Domain: Secondary Structure andTopology

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