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Literature DB >> 25331360

Cadmium-induced activation of high osmolarity glycerol pathway through its Sln1 branch is dependent on the MAP kinase kinase kinase Ssk2, but not its paralog Ssk22, in budding yeast.

Linghuo Jiang¹, Chunlei Cao, Lilin Zhang, Wei Lin, Jing Xia, Huihui Xu, Yan Zhang.

Abstract

Cadmium ions disrupt reactive oxygen species/Ca(2+) homeostasis and subsequently elicit cell death and adaptive signaling cascades in eukaryotic cells. Through a functional genomics approach, we have identified deletion mutants of 106 yeast genes, including three MAP kinase genes (HOG1, SLT2, and KSS1), are sensitive to a sublethal concentration of cadmium, and 64 mutants show elevated intracellular cadmium concentrations upon exposure to cadmium. Hog1 is phosphorylated, reaching a peak 30 min after the cadmium treatment. Both Sln1 and Sho1 upstream branches are involved in the cadmium-induced activation of high osmolarity glycerol (HOG) pathway. Cadmium-induced HOG activation is dependent on the MAP kinase kinase kinase Ssk2, but not its paralog Ssk22, in the Sln1 branch.

Entities: Chemical Gene Species

Keywords: MAP kinase; Saccharomyces cerevisiae; Ssk2; cadmium; high osmolarity glycerol; vacuolar protein sorting

Mesh：

Substances：

Year: 2014 PMID： 25331360 DOI： 10.1111/1567-1364.12220

Source DB: PubMed Journal: FEMS Yeast Res ISSN： 1567-1356 Impact factor: 2.796

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Cited

9 in total

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9. The protein kinase Cmk2 negatively regulates the calcium/calcineurin signalling pathway and expression of calcium pump genes PMR1 and PMC1 in budding yeast.

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