苯菌灵依赖性微管蛋白突变体的剂量抑制因子：微管稳定性与细胞代谢之间存在联系的证据

Dosage suppressors of a benomyl-dependent tubulin mutant: evidence for a link between microtubule stability and cellular metabolism.

作者信息

Machin N A, Lee J M, Chamany K, Barnes G

机构信息

Department of Molecular and Cell Biology, University of California, Berkeley, USA.

出版信息

Genetics. 1996 Dec;144(4):1363-73. doi: 10.1093/genetics/144.4.1363.

DOI:10.1093/genetics/144.4.1363

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1207690/

Abstract

To identify factors important for the regulation of microtubule stability in yeast, dosage suppressors of the hyperstable microtubule phenotype of the budding yeast tub2-150 beta-tubulin mutation were isolated. Of the two suppressors reported here, one (JSN2) encodes a tRNAVal, and the other (JSN3) is an antimorphic allele of the methionine biosynthesis transcription factor Met4p. Furthermore, growth of tub2-150 mutants and suppression of tub2-150 mutants by JSN3 are sensitive to levels of methionine in the growth medium. We explore several possible explanations for these findings, including the potential involvement of the general amino acid control and the involvement of Cbflp, a component of yeast kinetochores that is also necessary for Met4p-mediated transcription.

摘要

为了确定对酵母中微管稳定性调控重要的因素，我们分离了芽殖酵母tub2-150β-微管蛋白突变体超稳定微管表型的剂量抑制子。在此报道的两个抑制子中，一个（JSN2）编码一种tRNAVal，另一个（JSN3）是甲硫氨酸生物合成转录因子Met4p的反形态等位基因。此外，tub2-150突变体的生长以及JSN3对tub2-150突变体的抑制作用对生长培养基中甲硫氨酸的水平敏感。我们探讨了对这些发现的几种可能解释，包括一般氨基酸控制的潜在参与以及Cbflp的参与，Cbflp是酵母动粒的一个组分，也是Met4p介导的转录所必需的。

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本文引用的文献

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2

Microtubule stability in budding yeast: characterization and dosage suppression of a benomyl-dependent tubulin mutant.芽殖酵母中的微管稳定性：苯菌灵依赖性微管蛋白突变体的特征及剂量抑制

Mol Biol Cell. 1995 Sep;6(9):1241-59. doi: 10.1091/mbc.6.9.1241.

3

Met30p, a yeast transcriptional inhibitor that responds to S-adenosylmethionine, is an essential protein with WD40 repeats.Met30p是一种对S-腺苷甲硫氨酸有反应的酵母转录抑制剂，是一种具有WD40重复序列的必需蛋白质。

Mol Cell Biol. 1995 Dec;15(12):6526-34. doi: 10.1128/MCB.15.12.6526.

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The general amino acid control regulates MET4, which encodes a methionine-pathway-specific transcriptional activator of Saccharomyces cerevisiae.一般氨基酸调控作用调节MET4，MET4编码酿酒酵母甲硫氨酸途径特异性转录激活因子。

Mol Microbiol. 1993 Jan;7(2):215-28. doi: 10.1111/j.1365-2958.1993.tb01113.x.

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