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Control of mammalian G protein signaling by N-terminal acetylation and the N-end rule pathway

机译：通过N末端乙酰化和N末端规则途径控制哺乳动物G蛋白信号传导

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Rgs2, a regulator of G proteins, lowers blood pressure by decreasing signaling through Gαq. Human patients expressing Met-Leu-Rgs2 (ML-Rgs2) or Met-Arg-Rgs2 (MR-Rgs2) are hypertensive relative to people expressing wild-type Met-Gln-Rgs2 (MQ-Rgs2). We found that wild-type MQ-Rgs2 and its mutant, MR-Rgs2, were destroyed by the Ac/N-end rule pathway, which recognizes Nα-terminally acetylated (Nt-acetylated) proteins. The shortest-lived mutant, ML-Rgs2, was targeted by both the Ac/N-end rule and Arg/N-end rule pathways. The latter pathway recognizes unacetylated N-terminal residues. Thus, the Nt-acetylated Ac-MX-Rgs2 (X = Arg, Gln, Leu) proteins are specific substrates of the mammalian Ac/N-end rule pathway. Furthermore, the Ac/N-degron of Ac-MQ-Rgs2 was conditional, and Teb4, an endoplasmic reticulum (ER) membrane-embedded ubiquitin ligase, was able to regulate G protein signaling by targeting Ac-MX-Rgs2 proteins for degradation through their N^α-terminal acetyl group.

机译：Rgs2是G蛋白的调节剂，它通过减少Gαq信号来降低血压。表达Met-Leu-Rgs2（ML-Rgs2）或Met-Arg-Rgs2（MR-Rgs2）的人类患者相对于表达野生型Met-Gln-Rgs2（MQ-Rgs2）的人来说是高血压。我们发现野生型MQ-Rgs2及其突变体MR-Rgs2被Ac / N端规则途径破坏，该途径识别Nα-末端乙酰化（Nt-乙酰化）蛋白。寿命最短的突变体ML-Rgs2既是Ac / N端规则途径，也是Arg / N端规则途径都针对。后者途径识别未乙酰化的N-末端残基。因此，Nt-乙酰化的Ac-MX-Rgs2（X = Arg，Gln，Leu）蛋白是哺乳动物Ac / N-端规则途径的特定底物。此外，Ac-MQ-Rgs2的Ac / N-降解子是有条件的，内质网（ER）膜嵌入的泛素连接酶Teb4能够通过靶向Ac-MX-Rgs2蛋白降解而调节G蛋白信号转导。它们的N ^α末端乙酰基。

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Park Sang-Eun; Kim Jeong-Mok; Seok Ok-Hee; Cho Hanna; Wadas Brandon; Kim Seon-Young; Varshavsky Alexander; Hwang Cheol-Sang;
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1. Control of mammalian G protein signaling by N-terminal acetylation and the N-end rule pathway [J] . Sang-Eun Park, Jeong-Mok Kim, Ok-Hee Seok, Science . 2015,第6227期

机译：通过N末端乙酰化和N末端规则途径控制哺乳动物G蛋白信号传导
2. Control of protein degradation by N-terminal acetylation and the N-end rule pathway [J] . Kha The Nguyen, Sang-Hyeon Mun, Chang-Seok Lee, Experimental & molecular medicine. . 2018,第7期

机译：通过N末端乙酰化和N末端规则途径控制蛋白质降解
3. Control of Protein Quality and Stoichiometries by N-Terminal Acetylation and the N-End Rule Pathway [J] . ShemorryA., HwangC.-S., VarshavskyA. Molecular cell . 2013,第4期

机译：通过N-末端乙酰化和N-末端规则途径控制蛋白质质量和化学计量
4. Increasing supply of Met and Arg relative to Lys while maintaining ratios of Thr∶Phe,Lys∶Thr, Lys∶His, and Lys∶Val alters casein protein abundance via AA-induced upstream mammalian target of rapamycin signaling pathway and circadian clock of bovine mammary epithelial cells [C] . L.Y.Hu, Y.F.Chen, I.M.Cortes, The 6th International Symposium on Dairy Cow Nutrition and Milk Quality（第六届“奶牛营养与牛奶质量”国际研讨会）论文集 . -1

机译：越来越多的遇见和arg的供应，而相对于李斯，而且保持鼠窜，lys:tr，lys:his和lys:val通过AA诱导的雷帕霉素信号传导途径和牛乳清昼夜昼夜昼夜昼夜急性的哺乳动物，改变酪蛋白蛋白质丰富上皮细胞
5. Regulation of the TGFbeta signaling pathway through the acetylation of Smad proteins. [D] . Tu, Andrea W. 2007

机译：通过Smad蛋白的乙酰化调节TGFbeta信号通路。
6. Control of mammalian G protein signaling by N-terminal acetylationand the N-end rule pathway [O] . Sang-Eun Park, Jeong-Mok Kim, Ok-Hee Seok, -1

机译：通过N末端乙酰化控制哺乳动物G蛋白信号传导和N端规则路径
7. (Hyper)tension release by N-terminal acetylation / Control of mammalian G protein signaling by N-terminal acetylation and the N-end rule pathway [O] . Lyon Gholson J. 2015

机译：N末端乙酰化释放（高血压）/通过N末端乙酰化和N末端规则途径控制哺乳动物G蛋白信号传导

Control of mammalian G protein signaling by N-terminal acetylation and the N-end rule pathway

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