酿酒酵母ras2突变的抑制因子。
Suppressors of the ras2 mutation of Saccharomyces cerevisiae.
作者信息
Cannon J F, Gibbs J B, Tatchell K
出版信息
Genetics. 1986 Jun;113(2):247-64. doi: 10.1093/genetics/113.2.247.
Abstract
Saccharomyces cerevisiae contains two members of the ras gene family. Strains with disruptions of the RAS2 gene fail to grow efficiently on nonfermentable carbon sources. This growth defect can be suppressed by extragenic mutations called sra. We have isolated 79 independent suppressor mutations, 68 of which have been assigned to one of five loci. Eleven additional dominant mutations have not been assigned to a specific locus. Some sra1 and SRA4 and all SRA3 mutations were RAS independent, allowing growth of yeast cells that lack a functional RAS gene. Mutations in sra1, SRA3, SRA4 and sra6 are linked to his6, ino1, met3 and ade6, respectively. Some sra mutants have pleiotropic phenotypes that affect glycogen accumulation, sporulation, viability, respiratory capacity and suppression of two cell-division-cycle mutations, cdc25 and cdc35. The proposed functions of many of the suppressor genes are consistent with the model in which RAS activates adenylate cyclase.
摘要
酿酒酵母含有ras基因家族的两个成员。RAS2基因被破坏的菌株在非发酵性碳源上无法有效生长。这种生长缺陷可以被称为sra的基因外突变所抑制。我们分离出了79个独立的抑制突变,其中68个已被定位到五个位点之一。另外11个显性突变尚未定位到特定位点。一些sra1和SRA4以及所有SRA3突变不依赖于RAS,允许缺乏功能性RAS基因的酵母细胞生长。sra1、SRA3、SRA4和sra6中的突变分别与his6、ino1、met3和ade6连锁。一些sra突变体具有多效性表型,影响糖原积累、孢子形成、活力、呼吸能力以及对两个细胞分裂周期突变cdc25和cdc35的抑制。许多抑制基因的推测功能与RAS激活腺苷酸环化酶的模型一致。
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