Renkichi Takata scite author profile

The cloning of fga1, the gene encoding a G protein alpha subunit, was performed by standard PCR techniques and by screening a Fusarium oxysporum genomic library, using the PCR product as a probe. The full-length open reading frame spanned 1,059 nucleotides and the deduced primary structure of the protein (353 amino acid residues) showed high identity to those of G protein alpha(i) family proteins from other filamentous fungi. Disruption of fga1 had no effect on vegetative growth, but reduced the conidiation and pathogenicity of the fungus. Disruptants also showed a decreased level of intracellular cAMP and increased resistance to heat shock at 45 degrees C. These results suggest that the Galpha subunit encoded by fga1 is involved in a signal transduction pathway in F. oxysporum that controls conidiation, heat resistance and pathogenicity.

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Biochemical and genetic studies on two different types of erythromycin resistant mutants of Escherichia coli with altered ribosomal proteins

Stöffler

et al. 1973

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The G protein β subunit FGB1 regulates development and pathogenicity in Fusarium oxysporum

et al. 2003

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Signaling via the G protein Î± subunit FGA2 is necessary for pathogenesis inFusarium oxysporum

Jain

Akiyama

Takata

et al. 2005

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Cloning and disruption of fga1, the gene encoding the G protein alpha subunit FGA1 in phytopathogenic fungus Fusarium oxysporum, has been reported previously, and the fga1 disruptants showed altered colony morphology, increased heat resistance, reduced conidiation and pathogenicity. To further evaluate the role of G protein signaling in this fungus, cloning of fga2, which encodes the second Galpha protein FGA2, was performed by PCR methods. The deduced primary structure of FGA2 (355 amino acid residues) showed high identity with other Galpha proteins, which belong to class III of fungal Galpha proteins. Disruption of fga2 led to higher heat resistance, similar to the fga1 disruptants, but pathogenicity was completely lost, unlike the fga1 disruptants. Alteration of colony morphology and conidiation, which was observed in the fga1 disruptants, was not observed in the fga2 disruptants. The fga1/fga2 double disruptants showed phenotypic alterations similar to the fga1 or fga2 single disruptants, but increase of heat resistance was much more pronounced than in each single disruptant.

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Cloning and sequencing of an Escherichia coli K12 gene which encodes a polypeptide having similarity to the human ferritin H subunit

Izuhara¹,

Takamune²,

Takata³

1991

Molec. Gen. Genet.

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Using lambda phage clones containing segments of the Escherichia coli K12 chromosome as hybridization probes, we found one gene at 42 min on the E. coli chromosome map, the expression of which was affected by RNase III. The sequence of the DNA fragment containing this gene (gen-165) revealed the presence of an open reading frame encoding a polypeptide of 165 amino acid residues. The amino acid sequence deduced from the nucleotide sequence exhibited a remarkable similarity to that of the human ferritin H chain.

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Renkichi Takata

Targeted disruption of a G protein α subunit gene results in reduced pathogenicity in Fusarium oxysporum

Biochemical and genetic studies on two different types of erythromycin resistant mutants of Escherichia coli with altered ribosomal proteins

The G protein β subunit FGB1 regulates development and pathogenicity in Fusarium oxysporum

Signaling via the G protein Î± subunit FGA2 is necessary for pathogenesis inFusarium oxysporum

Cloning and sequencing of an Escherichia coli K12 gene which encodes a polypeptide having similarity to the human ferritin H subunit

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