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Discovering the chlamydospore regulatory network in Candida albicans

A normal resident of healthy humans and warm-blooded animals, C. albicans is a commensal fungus that is also among the most common opportunistic pathogens of humans. C. albicans forms unique morphological structures called chlamydospores, which are large, spherical, thick-walled structures formed at...

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Bibliographic Details
Published in:Access microbiology 2021-12, Vol.3 (12)
Main Authors: Bapat, Priyanka, Nobile, Clarissa
Format: Article
Language:English
Online Access:Get full text
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Summary:A normal resident of healthy humans and warm-blooded animals, C. albicans is a commensal fungus that is also among the most common opportunistic pathogens of humans. C. albicans forms unique morphological structures called chlamydospores, which are large, spherical, thick-walled structures formed at the ends of hyphae that have unknown biological function. My goal is to discover the regulatory network controlling chlamydospore formation in C. albicans . By determining this network, we can gain insight into the biological roles of chlamydospores in the C. albicans lifestyle, better understand C. albicans morphological transitions, and determine the selective advantage (if any) provided by chlamydospores to this pathogenic fungus. To determine this regulatory network, I have screened a library of 211 C. albicans transcription factor (TF) homozygous deletion mutants to assay for their abilities to form chlamydospores under standard chlamydospore-inducing growth conditions. I have identified seven TF mutants that fail to produce any chlamydospores andthree TF mutants that produce high levels of chlamydospores relative to WT. To characterize the transcriptional changes occurring during chlamydospore formation, I have performed RNA sequencing (RNA-seq) on these identified regulator mutants to uncover the differentially regulated target genes of each chlamydospore regulator. I will use genome-wide chromatin immunoprecipitation followed by sequencing (ChIP-seq) on epitope-tagged versions of these regulators to determine which genes are directly under the control of each TF. RNA-seq coupled with ChIP-seq will allow me to determine the regulatory network controlling chlamydospore formation in C. albicans .
ISSN:2516-8290
2516-8290
DOI:10.1099/acmi.cc2021.po0013