Miho Izuta scite author profile

Miho Izuta

5Publications

146Citation Statements Received

89Citation Statements Given

How they've been cited

132

143

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Affiliations

Roche (Japan), Tohoku University, Roche (Switzerland)

Publications

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A controllable gene-expression system for the pathogenic fungus Candida glabrata

Nakayama¹,

Izuta²,

Nagahashi³

et al. 1998

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A system for controlling gene expression was established in the pathogenic fungus Candida glabrata to elucidate the physiological functions of genes. T o Control the expression O f the gene O f interest, the c. glabrata Cells Were first transformed with the plasmid carrying the tetracycline repressortransactivator fusion tetR:: G A U , then with the DNA fragment containing the controllable cassette, the tetracycline operator chimeric promoter ( t e t 0 : :ScHOP7). The peptide elongation factor 3 (CgTEF3) and DNA topoisomerase II (CgTOP2) genes from C. glabrata were cloned and their expression assessed using this system. When the promoter of CgT€F3 or CgTOP2 was replaced with tet0: :ScHOP7, doxycycline almost completely repressed the expression of both mRNAs, and impaired growth. Repression of the TOP2 or T€F3 gene by doxycycline also hampered the survival of C. glabrata cells in mice; in mouse kidneys the number of C. glabrata cells, in which the TOP2 or T€F3 promoter was replaced with the tetO::ScHOP7 controllable cassette, did not increase when the mice were given doxycycline. Thus, it appears that the gene repression mediated by doxycycline occurred not only in culture media but also in animals; therefore, this system can be used to elucidate the function of the gene in fungal infections and pathogenesis.

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Depletion of the Squalene Synthase ( ERG9 ) Gene Does Not Impair Growth of Candida glabrata in Mice

Nakayama¹,

Izuta²,

Nakayama

et al. 2000

Antimicrob Agents Chemother

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Squalene synthase (farnesyl-diphosphate farnesyltransferase, EC 2.5.1.21) is the first committed enzyme of the sterol biosynthesis pathway. Inhibitors of this enzyme have been intensively studied as potential antifungal agents. To assess the effect of deactivating squalene synthase on the growth of fungi in mice, we isolated the squalene synthase (ERG9) gene from the pathogenic fungus Candida glabrata and generated strains in which the CgERG9 gene was under the control of the tetracycline-regulatable promoter. Depletion of the ERG9 gene by doxycycline (DOX), a derivative of tetracycline, decreased the cell viability in laboratory media, whereas it did not affect cell growth in mice at all. The growth defect caused by DOX in laboratory media was suppressed by the addition of serum. Analyses of the sterol composition of the restored cells in serum-containing media suggest that the defect of ergosterol biosynthesis can be complemented by the incorporation of exogenous cholesterol into the cells. Thus, deactivation of squalene synthase did not affect fungal growth in mice, presumably because the cells were able to incorporate cholesterol from the serum. These results showed that squalene synthase could not be a suitable target of antifungals for the treatment of C. glabrata infection.

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A point mutation within each of two ATP-binding motifs inactivates the functions of elongation factor 3

Yang

Hamada²,

Terashima³

et al. 1996

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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We have investigated how point mutations in the two ATP-binding motifs (G(463)PNGCGK(469)ST and G(701)PNGAGK(707)ST) of elongation factor 3 (EF-3) affect ribosome-activated ATPase activity of EF-3, polyphenylalanine synthesis, and growth of Saccharomyces cerevisiae. The point mutation impaired the ribosome-activated ATPase activity of EF-3, when glycine(463 and 701) and lysine(469 and 707) were replaced with valine and arginine, respectively. Thus, each glycine and lysine residue in both ATP-binding motifs is indispensable for EF-3's binding with ATP and the ensuing generation of ribosome-activated ATPase activity. Additionally, the mutant EF-3s did not catalyze polyphenylalanine synthesis in vitro when each glycine(463 and 701) was replaced with valine. The mutant EF-3s did not support cell growth in TEF3-disrupted S. cerevisiae, when each lysine(469 and 707) and glycine(463) was replaced with arginine and valine, respectively. Thus, each of the two ATP-binding motifs of EF-3 is indispensable for the ribosome-activated ATPase activity of EF-3, which is required for protein synthesis and cell growth in S. cerevisiae.

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Cloning and Characterization of the Pectate Lyase III Gene ofEvwinia carotovoraEr

Yoshida

Izuta

Ito

et al. 1991

Agricultural and Biological Chemistry

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Cloning and characterization of the pectate lyase III gene of Erwinia carotovora Er.

Yoshida

Izuta

Ito

et al. 1991

Agricultural and Biological Chemistry

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A pectate lyase gene III (pel III) of Erwinia carotovora Er was cloned. The gene was expressed independently of a vector promoter in both E. carotovora Er and Escherichia coli. The pel III product was largely excreted in the culture medium of E. carotovora Er, while the product was only exported to the periplasmic space and was not excreted in the medium of E. coli. Nucleotide sequence analysis of pel III disclosed an open reading frame of 1,122 bp encoding a protein of 374 amino acids. The deduced amino acid sequence contained the N-terminal 30 amino acid sequence from the purified pectate lyase III (PL III) indicating the presence of a 22-amino-acid signal peptide. A putative ribosome-binding site was found to be 9 bp upstream of the start codon. The location of pel III was about 5.6 kb downstream of pel I. The PL III showed 80% homology in the amino acid sequence with the PL I of E. carotovora Er.

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Miho Izuta

A controllable gene-expression system for the pathogenic fungus Candida glabrata

Depletion of the Squalene Synthase ( ERG9 ) Gene Does Not Impair Growth of Candida glabrata in Mice

A point mutation within each of two ATP-binding motifs inactivates the functions of elongation factor 3

Cloning and Characterization of the Pectate Lyase III Gene ofEvwinia carotovoraEr

Cloning and characterization of the pectate lyase III gene of Erwinia carotovora Er.

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