F. Mirbod
Gifu University
11 Papers
51 Citations
F. Mirbod is an academic researcher from Gifu University. The author has contributed to research in topics: Candida albicans & Corpus albicans. The author has an hindex of 8, co-authored 11 publications. Previous affiliations of F. Mirbod include University of Toledo Medical Center & University of California, Los Angeles.
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Papers
Molecular cloning of a Rho family, CDC42Ca gene from Candida albicans and its mRNA expression changes during morphogenesis
TL;DR: The isolated gene encoding CDC42 may play a role in the bud emergence and also germ tube formation in C. albicans and the mRNA level showed a transient increase with a peak at 2 h after the fresh medium shift when cells synchronously formed buds, whereas it displayed a gradual increase up to 12H after the medium shift with elongation of germ tubes.
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Molecular cloning of a gene encoding translation initiation factor (TIF) from Candida albicans
F. Mirbod,Shigeru Nakashima,Yasuo Kitajima,Mahmoud A. Ghannoum,Richard D. Cannon,Yoshinori Nozawa +5 more
TL;DR: The differential display technique was applied to compare mRNAs from two clinical isolates of Candida albicans with different virulence; high (potent strain, 16240) and low (weak strain, 18084) extracellular phospholipase activities, revealing at least two hybridized bands in Southern blot analysis, suggesting two or more closely related sequences in the C.Albicans genome.
Methods for phospholipid extraction in Candida albicans: an extraction method with high efficacy
TL;DR: The percentage distribution of individual phospholipids showed a much higher level of phosphatidylcholine following extraction by the modified Folch method compared with extraction by any of the established methods.
8
Phospholipid Biosynthesis in Growing and Non-growing Conditions in Candida albicans
TL;DR: Investigation of 32Pi incorporation into different phospholipids by continuous and pulse-labeling in cells grown in the synthetic medium and yeast extractproteose peptone-dextrose medium suggests that the principal PC synthesis for membrane biogenesis is via the de novo pathway in C. albicans.
3
A Study of Lipid Biosynthesis in Cryptococcus Neoformans
TL;DR: Cryptococcus neoformansを[14C]acetate(NEN)で�’識し(continuousおよびpulse labeling),各脂質に取り込まれた放射活性を経時的に測定し,Cr.neoformans