Becker J, Walter W, Yan W, Craig E A
Department of Biomolecular Chemistry, University of Wisconsin-Madison, 53706, USA.
Mol Cell Biol. 1996 Aug;16(8):4378-86. doi: 10.1128/MCB.16.8.4378.
In order to analyze the in vivo role of the SSA class of cytosolic 70-kDa heat shock proteins (hsps) of Saccharomyces cerevisiae, we isolated a temperature-sensitive mutant of SSA1. The effect of a shift of mutant cells (ssa1ts ssa2 ssa3 ssa4) from the permissive temperature of 23 degrees C to the nonpermissive temperature of 37 degrees C on the processing of several precursor proteins translocated into the endoplasmic reticulum or mitochondria was assessed. Of three mitochondrial proteins tested, the processing of only one, the beta subunit of the F1F0 ATPase, was dramatically affected. Of six proteins destined for the endoplasmic reticulum, the translocation of only prepro-alpha-factor and proteinase A was inhibited. The processing of prepro-alpha-factor was inhibited within 2 min of the shift to 37 degrees C, suggesting a direct effect of the hsp70 defect on translocation. More than 50% of radiolabeled alpha-factor accumulated in the precursor form, with the remainder rapidly reaching the mature form. However, the translocation block was complete, as the precursor form could not be chased through the translocation pathway. Since DnaJ-related proteins are known to interact with hsp70s and strains containing conditional mutations in a dnaJ-related gene, YDJ1, are defective in translocation of prepro-alpha-factor, we looked for a genetic interaction between SSA genes and YDJ1 in vivo. We found that a deletion mutation of YDJ1 was synthetically lethal in a ssa1ts ssa2 ssa3 ssa4 background. In addition, a strain containing a single functional SSA gene, SSA1, and a deletion of YDJ1 accumulated the precursor form of alpha-factor. However, no genetic interaction was observed between a YDJ1 mutation and mutations in the SSB genes, which encode a second class of cytosolic hsp70 chaperones. These results are consistent with SSA proteins and Ydj1p acting together in the translocation process.
为了分析酿酒酵母胞质70 kDa热休克蛋白(hsps)的SSA类在体内的作用,我们分离出了SSA1的温度敏感型突变体。评估了突变细胞(ssa1ts ssa2 ssa3 ssa4)从允许温度23℃转移到非允许温度37℃对几种转运到内质网或线粒体的前体蛋白加工的影响。在测试的三种线粒体蛋白中,只有一种,即F1F0 ATPase的β亚基的加工受到显著影响。在六种运往内质网的蛋白中,只有前原α因子和蛋白酶A的转运受到抑制。转移到37℃后2分钟内,前原α因子的加工就受到抑制,这表明hsp70缺陷对转运有直接影响。超过50%的放射性标记α因子以前体形式积累,其余的迅速达到成熟形式。然而,转运阻滞是完全的,因为前体形式无法通过转运途径被追踪。由于已知DnaJ相关蛋白与hsp70相互作用,并且在与dnaJ相关的基因YDJ1中含有条件突变的菌株在前原α因子的转运方面存在缺陷,我们在体内寻找SSA基因和YDJ1之间的遗传相互作用。我们发现YDJ1的缺失突变在ssa1ts ssa2 ssa3 ssa4背景下是合成致死的。此外,含有单个功能性SSA基因SSA1和YDJ1缺失的菌株积累了α因子的前体形式。然而,在YDJ1突变和编码第二类胞质hsp70伴侣蛋白的SSB基因的突变之间未观察到遗传相互作用。这些结果与SSA蛋白和Ydj1p在转运过程中共同发挥作用一致。