Takashi Maruoka scite author profile

The yeast high osmolarity glycerol (HOG) signaling pathway can be activated by either of the two upstream pathways, termed the SHO1 and SLN1 branches. When stimulated by high osmolarity, the SHO1 branch activates an MAP kinase module composed of the Ste11 MAPKKK, the Pbs2 MAPKK, and the Hog1 MAPK. To investigate how osmostress activates this MAPK module, we isolated both gain-of-function and loss-of-function alleles in four key genes involved in the SHO1 branch, namely SHO1, CDC42, STE50, and STE11. These mutants were characterized using an HOG-dependent reporter gene, 8xCRE-lacZ. We found that Cdc42, in addition to binding and activating the PAK-like kinases Ste20 and Cla4, binds to the Ste11-Ste50 complex to bring activated Ste20/Cla4 to their substrate Ste11. Activated Ste11 and its HOG pathway-specific substrate, Pbs2, are brought together by Sho1; the Ste11-Ste50 complex binds to the cytoplasmic domain of Sho1, to which Pbs2 also binds. Thus, Cdc42, Ste50, and Sho1 act as adaptor proteins that control the flow of the osmostress signal from Ste20/Cla4 to Ste11, then to Pbs2.

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Essential Hydrophilic Carboxyl-terminal Regions Including Cysteine Residues of the Yeast Stretch-activated Calcium-permeable Channel Mid1

Maruoka

Nagasoe

Inoue

et al. 2002

Journal of Biological Chemistry

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The yeast Saccharomyces cerevisiae MID1 gene encodes a stretch-activated Ca 2؉ -permeable nonselective cation channel composed of 548 amino acid residues. A physiological role of the Mid1 channel is known to maintain the viability of yeast cells exposed to mating pheromone, but its structural basis remains to be clarified. To solve this problem, we identified the mutation sites of mid1 mutant alleles generated by in vivo ethyl methanesulfonate mutagenesis and found that two mid1 alleles have nonsense mutations at the codon for Trp 441 , generating a truncated Mid1 protein lacking two-thirds of the intracellular carboxyl-terminal region from Asn 389 to Thr 548 . In vitro random mutagenesis with hydroxylamine also showed that the carboxyl-terminal region is essential. To identify the functional portion of the carboxyl-terminal region in detail, we performed a progressive carboxyl-terminal truncation followed by functional analyses and found that the truncated protein produced from the mid1 allele bearing the amber mutation at the codon for Phe 522 (F522Am) complemented the mating pheromone-induced death phenotype of the mid1 mutant and increased its Ca 2؉ uptake activity to a wild-type level, whereas N521Am did not. This result indicates that the carboxyl-terminal domain spanning from Asn 389 to Asn 521 is required for Mid1 function. Interestingly, this domain is cysteine-rich, and alaninescanning mutagenesis revealed that seven out of 10 cysteine residues are unexchangeable. These results clearly indicate that the carboxyl-terminal domain including the cysteine residues is important for Mid1 function.

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Maternal enrichment affects prenatal hippocampal proliferation and open-field behaviors in female offspring mice

Maruoka

Kodomari

Yamauchi

et al. 2009

Neuroscience Letters

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Ghrelin alters postnatal endocrine secretion and behavior in mouse offspring

Kodomari¹,

Maruoka²,

Yamauchi³

et al. 2009

Neurochemistry International

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Takashi Maruoka

Adaptor functions of Cdc42, Ste50, and Sho1 in the yeast osmoregulatory HOG MAPK pathway

Essential Hydrophilic Carboxyl-terminal Regions Including Cysteine Residues of the Yeast Stretch-activated Calcium-permeable Channel Mid1

Maternal enrichment affects prenatal hippocampal proliferation and open-field behaviors in female offspring mice

Ghrelin alters postnatal endocrine secretion and behavior in mouse offspring

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