Analysis of transmembrane domain mutants is consistent with sequential cleavage of Notch by gamma-secretase.

Chandu D; Huppert SS; Kopan R

首页> 外文期刊>Journal of Neurochemistry: Offical Journal of the International Society for Neurochemistry >Analysis of transmembrane domain mutants is consistent with sequential cleavage of Notch by gamma-secretase.

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Analysis of transmembrane domain mutants is consistent with sequential cleavage of Notch by gamma-secretase.

机译：跨膜结构域突变体的分析与γ-分泌酶对Notch的顺序切割相一致。

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gamma-Secretase is a lipid-embedded, intramembrane-cleaving aspartyl protease that cleaves its substrates twice within their transmembrane domains (TMD): once near the cytosolic leaflet (at S3/epsilon) and again in the middle of the TMD (at S4/gamma). To address whether this unusual process occurs in two independent or interdependent steps, we investigated how mutations at the S3/epsilon site in Notch1-based substrates impact proteolysis. We demonstrate that such mutations greatly inhibit not only gamma-secretase-mediated cleavage at S3 but also at S4, independent of their impact on NICD stability. These results, together with our previous observations, suggest that hydrolysis at the center of the Notch transmembrane domain (S4/gamma) is dependent on the S3/epsilon cleavage. Notch (and perhaps all gamma-secretase substrates) may be cleaved by sequential proteolysis starting at S3.

机译：γ-分泌酶是一种脂质包埋的，膜内裂解的天冬氨酰蛋白酶，可在其跨膜结构域（TMD）内裂解其底物两次：一次靠近胞质小叶（在S3 / epsilon处），再一次在TMD中部（在S4 /伽玛）。为了解决此异常过程是否以两个独立或相互依赖的步骤发生，我们研究了基于Notch1的底物中S3 / epsilon位点的突变如何影响蛋白水解。我们证明，这种突变不仅可以极大地抑制S3处的γ-分泌酶介导的裂解，而且还可以抑制S4处的裂解，而不受它们对NICD稳定性的影响。这些结果以及我们以前的观察结果表明，Notch跨膜结构域（S4 /γ）中心的水解取决于S3 /ε裂解。 Notch（也许所有的γ-分泌酶底物）可以通过从S3开始的顺序蛋白水解来裂解。

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《Journal of Neurochemistry: Offical Journal of the International Society for Neurochemistry 》 |2006年第1期| 共8页
作者
Chandu D; Huppert SS; Kopan R;
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正文语种 eng
中图分类神经病学与精神病学 ;
关键词
Endopeptidases; Receptor; Notch1;

机译：内肽酶;受体;Notch1;

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专利

1. Analysis of transmembrane domain mutants is consistent with sequential cleavage of Notch by gamma-secretase. [J] . Chandu D, Huppert SS, Kopan R Journal of Neurochemistry: Offical Journal of the International Society for Neurochemistry . 2006 ,第1期

机译：跨膜结构域突变体的分析与γ-分泌酶对Notch的顺序切割相一致。
2. Effect of valine on the efficiency and precision at S4 cleavage of the Notch-1 transmembrane domain. [J] . Tanii H, Jiang J, Fukumori A, Journal of Neuroscience Research . 2006 ,第4期

机译：缬氨酸对Notch-1跨膜结构域S4切割效率和精度的影响。
3. A novel epsilon-cleavage within the transmembrane domain of the Alzheimer amyloid precursor protein demonstrates homology with Notch processing. [J] . Weidemann A, Eggert S, Reinhard FB, Biochemistry . 2002 ,第8期

机译：在阿尔茨海默蛋白淀粉样蛋白前体蛋白的跨膜结构域内的新型ε-切割证明了陷波加工的同源性。
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. γ-Secretase Catalyzes Sequential Cleavages of the AβPP Transmembrane Domain [O] . Xuemin Xu -1

机译：γ-分泌酶催化AβPP跨膜结构域的顺序切割。
7. Analysis of transmembrane domain mutants is consistent with sequential cleavage of Notch by gamma-secretase [O] . Dilip Chandu, Stacey S. Huppert, Raphael Kopan 2006

机译：跨膜域域突变体的分析与γ-分泌酶的凹口串联裂解一致

Analysis of transmembrane domain mutants is consistent with sequential cleavage of Notch by gamma-secretase.

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