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Quantitative analysis of the yeast pheromone pathway.酵母信息素途径的定量分析。
Yeast. 2019 Aug;36(8):495-518. doi: 10.1002/yea.3395. Epub 2019 Jun 27.
2
Checkpoints in a yeast differentiation pathway coordinate signaling during hyperosmotic stress.酵母分化途径中的检验点在高渗胁迫过程中协调信号转导。
PLoS Genet. 2012 Jan;8(1):e1002437. doi: 10.1371/journal.pgen.1002437. Epub 2012 Jan 5.
3
Pheromone-induced morphogenesis improves osmoadaptation capacity by activating the HOG MAPK pathway.信息素诱导的形态发生通过激活 HOG MAPK 途径提高渗透适应能力。
Sci Signal. 2013 Apr 23;6(272):ra26. doi: 10.1126/scisignal.2003312.
4
Systematic analysis of F-box proteins reveals a new branch of the yeast mating pathway.系统分析 F-box 蛋白揭示了酵母交配途径的一个新分支。
J Biol Chem. 2019 Oct 4;294(40):14717-14731. doi: 10.1074/jbc.RA119.010063. Epub 2019 Aug 9.
5
Kel1 is a phosphorylation-regulated noise suppressor of the pheromone signaling pathway.Kel1 是一个磷酸化调控的噪声抑制子,作用于信息素信号通路。
Cell Rep. 2021 Dec 28;37(13):110186. doi: 10.1016/j.celrep.2021.110186.
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Quantitative proteomics reveals a Gα/MAPK signaling hub that controls pheromone-induced cellular polarization in yeast.定量蛋白质组学揭示了一个 Gα/MAPK 信号枢纽,它控制酵母中信息素诱导的细胞极化。
J Proteomics. 2019 Sep 15;207:103467. doi: 10.1016/j.jprot.2019.103467. Epub 2019 Jul 24.
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The Hog1 MAPK prevents cross talk between the HOG and pheromone response MAPK pathways in Saccharomyces cerevisiae.Hog1丝裂原活化蛋白激酶可防止酿酒酵母中HOG和信息素反应丝裂原活化蛋白激酶途径之间的相互干扰。
Genes Dev. 1998 Sep 15;12(18):2874-86. doi: 10.1101/gad.12.18.2874.
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Mathematical modeling reveals differential regulation of MAPK activity by phosphatase proteins in the yeast pheromone response pathway.数学建模揭示了酵母信息素反应途径中磷酸酶蛋白对丝裂原活化蛋白激酶(MAPK)活性的差异调节。
Mol Biosyst. 2017 Jun 27;13(7):1323-1335. doi: 10.1039/c7mb00213k.
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Analysis of the pheromone signaling pathway by RT-qPCR in the budding yeast .利用 RT-qPCR 分析出芽酵母中的信息素信号通路。
STAR Protoc. 2022 Mar 3;3(1):101210. doi: 10.1016/j.xpro.2022.101210. eCollection 2022 Mar 18.
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Pheromone-induced morphogenesis and gradient tracking are dependent on the MAPK Fus3 binding to Gα.信息素诱导的形态发生和梯度追踪依赖于丝裂原活化蛋白激酶Fus3与Gα的结合。
Mol Biol Cell. 2015 Sep 15;26(18):3343-58. doi: 10.1091/mbc.E15-03-0176. Epub 2015 Jul 15.
引用本文的文献
1
Individual yeast cells signal at different levels but each with good precision.单个酵母细胞发出的信号强度各异,但每个信号都具有很高的精准度。
R Soc Open Sci. 2025 Apr 30;12(4):241025. doi: 10.1098/rsos.241025. eCollection 2025 Apr.
2
Optogenetic control of pheromone gradients and mating behavior in budding yeast.光遗传学对芽殖酵母中信息素梯度和交配行为的控制
Life Sci Alliance. 2025 Apr 11;8(6). doi: 10.26508/lsa.202403078. Print 2025 Jun.
3
Prenylation-dependent membrane localization of a deubiquitinating enzyme and its role in regulating G protein-mediated signaling in yeast.去泛素化酶的异戊二烯化依赖性膜定位及其在酵母中调节G蛋白介导信号传导的作用。
J Biol Chem. 2025 Feb;301(2):108180. doi: 10.1016/j.jbc.2025.108180. Epub 2025 Jan 10.
4
Multiscale Modeling of Bistability in the Yeast Polarity Circuit.酵母极性电路中双稳定性的多尺度建模。
Cells. 2024 Aug 15;13(16):1358. doi: 10.3390/cells13161358.
5
Shared and redundant proteins coordinate signal cross-talk between MAPK pathways in yeast.酵母中共享和冗余的蛋白质协调 MAPK 信号通路之间的交叉对话。
Mol Biol Cell. 2024 Oct 1;35(10):ar126. doi: 10.1091/mbc.E24-06-0270. Epub 2024 Jul 31.
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Catalytic site mutations confer multiple states of G protein activation.催化位点突变赋予 G 蛋白多种激活状态。
Sci Signal. 2023 Feb 14;16(772):eabq7842. doi: 10.1126/scisignal.abq7842.
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Phosphorylation of RGS regulates MAP kinase localization and promotes completion of cytokinesis.RGS 的磷酸化调节 MAP 激酶定位并促进胞质分裂完成。
Life Sci Alliance. 2022 Aug 19;5(10). doi: 10.26508/lsa.202101245. Print 2022 Oct.
8
Coupling/Uncoupling Reversibility in Isolated Mitochondria from .来自……的分离线粒体中的偶联/解偶联可逆性
Life (Basel). 2021 Nov 27;11(12):1307. doi: 10.3390/life11121307.
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A universal allosteric mechanism for G protein activation.一种通用的变构机制用于 G 蛋白激活。
Mol Cell. 2021 Apr 1;81(7):1384-1396.e6. doi: 10.1016/j.molcel.2021.02.002. Epub 2021 Feb 25.
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A predictive model of gene expression reveals the role of network motifs in the mating response of yeast.一个基因表达的预测模型揭示了网络基元在酵母交配反应中的作用。
Sci Signal. 2021 Feb 16;14(670):eabb5235. doi: 10.1126/scisignal.abb5235.
本文引用的文献
1
Negative Feedback Phosphorylation of Gγ Subunit Ste18 and the Ste5 Scaffold Synergistically Regulates MAPK Activation in Yeast.负反馈磷酸化 Ste18 的 Gγ 亚基和 Ste5 支架协同调节酵母中 MAPK 的激活。
Cell Rep. 2018 May 1;23(5):1504-1515. doi: 10.1016/j.celrep.2018.03.135.
2
Single-cell profiling screen identifies microtubule-dependent reduction of variability in signaling.单细胞分析筛选发现微管依赖性信号转导变异性降低。
Mol Syst Biol. 2018 Apr 4;14(4):e7390. doi: 10.15252/msb.20167390.
3
Analysis of the thresholds for transcriptional activation by the yeast MAP kinases Fus3 and Kss1.酵母丝裂原活化蛋白激酶 Fus3 和 Kss1 的转录激活阈值分析。
Mol Biol Cell. 2018 Mar 1;29(5):669-682. doi: 10.1091/mbc.E17-10-0578. Epub 2018 Jan 10.
4
Extracellular Processing of Molecular Gradients by Eukaryotic Cells Can Improve Gradient Detection Accuracy.真核细胞对分子梯度的细胞外处理可提高梯度检测准确性。
Phys Rev Lett. 2017 Dec 15;119(24):248101. doi: 10.1103/PhysRevLett.119.248101. Epub 2017 Dec 14.
5
Coordinated regulation of intracellular pH by two glucose-sensing pathways in yeast.酵母中两条葡萄糖感应途径对细胞内 pH 的协调调节。
J Biol Chem. 2018 Feb 16;293(7):2318-2329. doi: 10.1074/jbc.RA117.000422. Epub 2017 Dec 28.
6
Mitogen-activated protein kinase (MAPK) dynamics determine cell fate in the yeast mating response.丝裂原活化蛋白激酶(MAPK)动力学决定酵母交配反应中的细胞命运。
J Biol Chem. 2017 Dec 15;292(50):20354-20361. doi: 10.1074/jbc.AC117.000548. Epub 2017 Nov 9.
7
Multigenerational silencing dynamics control cell aging.多代沉默动力学控制细胞衰老。
Proc Natl Acad Sci U S A. 2017 Oct 17;114(42):11253-11258. doi: 10.1073/pnas.1703379114. Epub 2017 Oct 3.
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Cell Polarity in Yeast.酵母细胞极性。
Annu Rev Cell Dev Biol. 2017 Oct 6;33:77-101. doi: 10.1146/annurev-cellbio-100616-060856. Epub 2017 Aug 7.
9
Coupled feedback loops control the stimulus-dependent dynamics of the yeast transcription factor Msn2.耦合反馈环控制酵母转录因子Msn2的刺激依赖性动力学。
J Biol Chem. 2017 Jul 28;292(30):12366-12372. doi: 10.1074/jbc.C117.800896. Epub 2017 Jun 21.
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Amino acid metabolites that regulate G protein signaling during osmotic stress.在渗透胁迫期间调节G蛋白信号传导的氨基酸代谢产物。
PLoS Genet. 2017 May 30;13(5):e1006829. doi: 10.1371/journal.pgen.1006829. eCollection 2017 May.
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