Cell-type-specific transcriptional profiles of the dimorphic pathogen penicillium marneffei reflect distinct reproductive, morphological, and environmental demands
Penicillium marneffei is an opportunistic human pathogen endemic to Southeast Asia. At 25° P. marneffei grows in a filamentous hyphal form and can undergo asexual development (conidiation) to produce spores (conidia), the infectious agent. At 37° P. marneffei grows in the pathogenic yeast cell form...
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th-mahidol.314232018-10-19T12:39:50Z Cell-type-specific transcriptional profiles of the dimorphic pathogen penicillium marneffei reflect distinct reproductive, morphological, and environmental demands Shivani Pasricha Michael Payne David Canovas Luke Pase Nathamon Ngaosuwankul Sally Beard Alicia Oshlack Gordon K. Smyth Sansanee C. Chaiyaroj Kylie J. Boyce Alex Andrianopoulos University of Melbourne Mahidol University Walter and Eliza Hall Institute of Medical Research University of Seville Karlsruhe Institute of Technology, Campus North University of Edinburgh Murdoch Children's Research Institute Biochemistry, Genetics and Molecular Biology Medicine Penicillium marneffei is an opportunistic human pathogen endemic to Southeast Asia. At 25° P. marneffei grows in a filamentous hyphal form and can undergo asexual development (conidiation) to produce spores (conidia), the infectious agent. At 37° P. marneffei grows in the pathogenic yeast cell form that replicates by fission. Switching between these growth forms, known as dimorphic switching, is dependent on temperature. To understand the process of dimorphic switching and the physiological capacity of the different cell types, two microarray-based profiling experiments covering approximately 42% of the genome were performed. The first experiment compared cells from the hyphal, yeast, and conidiation phases to identify "phase or cell-state-specific" gene expression. The second experiment examined gene expression during the dimorphic switch from one morphological state to another. The data identified a variety of differentially expressed genes that have been organized into metabolic clusters based on predicted function and expression patterns. In particular, C-14 sterol reductase-encoding gene ergM of the ergosterol biosynthesis pathway showed high-level expression throughout yeast morphogenesis compared to hyphal. Deletion of ergM resulted in severe growth defects with increased sensitivity to azole-type antifungal agents but not amphotericin B. The data defined gene classes based on spatio-temporal expression such as those expressed early in the dimorphic switch but not in the terminal cell types and those expressed late. Such classifications have been helpful in linking a given gene of interest to its expression pattern throughout the P. marneffei dimorphic life cycle and its likely role in pathogenicity. © 2013 Pasricha et al. 2018-10-19T04:44:07Z 2018-10-19T04:44:07Z 2013-01-01 Article G3: Genes, Genomes, Genetics. Vol.3, No.11 (2013), 1997-2014 10.1534/g3.113.006809 21601836 2-s2.0-84889050267 https://repository.li.mahidol.ac.th/handle/123456789/31423 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84889050267&origin=inward |
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Biochemistry, Genetics and Molecular Biology Medicine Shivani Pasricha Michael Payne David Canovas Luke Pase Nathamon Ngaosuwankul Sally Beard Alicia Oshlack Gordon K. Smyth Sansanee C. Chaiyaroj Kylie J. Boyce Alex Andrianopoulos Cell-type-specific transcriptional profiles of the dimorphic pathogen penicillium marneffei reflect distinct reproductive, morphological, and environmental demands |
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Penicillium marneffei is an opportunistic human pathogen endemic to Southeast Asia. At 25° P. marneffei grows in a filamentous hyphal form and can undergo asexual development (conidiation) to produce spores (conidia), the infectious agent. At 37° P. marneffei grows in the pathogenic yeast cell form that replicates by fission. Switching between these growth forms, known as dimorphic switching, is dependent on temperature. To understand the process of dimorphic switching and the physiological capacity of the different cell types, two microarray-based profiling experiments covering approximately 42% of the genome were performed. The first experiment compared cells from the hyphal, yeast, and conidiation phases to identify "phase or cell-state-specific" gene expression. The second experiment examined gene expression during the dimorphic switch from one morphological state to another. The data identified a variety of differentially expressed genes that have been organized into metabolic clusters based on predicted function and expression patterns. In particular, C-14 sterol reductase-encoding gene ergM of the ergosterol biosynthesis pathway showed high-level expression throughout yeast morphogenesis compared to hyphal. Deletion of ergM resulted in severe growth defects with increased sensitivity to azole-type antifungal agents but not amphotericin B. The data defined gene classes based on spatio-temporal expression such as those expressed early in the dimorphic switch but not in the terminal cell types and those expressed late. Such classifications have been helpful in linking a given gene of interest to its expression pattern throughout the P. marneffei dimorphic life cycle and its likely role in pathogenicity. © 2013 Pasricha et al. |
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University of Melbourne |
| author_facet |
University of Melbourne Shivani Pasricha Michael Payne David Canovas Luke Pase Nathamon Ngaosuwankul Sally Beard Alicia Oshlack Gordon K. Smyth Sansanee C. Chaiyaroj Kylie J. Boyce Alex Andrianopoulos |
| format |
Article |
| author |
Shivani Pasricha Michael Payne David Canovas Luke Pase Nathamon Ngaosuwankul Sally Beard Alicia Oshlack Gordon K. Smyth Sansanee C. Chaiyaroj Kylie J. Boyce Alex Andrianopoulos |
| author_sort |
Shivani Pasricha |
| title |
Cell-type-specific transcriptional profiles of the dimorphic pathogen penicillium marneffei reflect distinct reproductive, morphological, and environmental demands |
| title_short |
Cell-type-specific transcriptional profiles of the dimorphic pathogen penicillium marneffei reflect distinct reproductive, morphological, and environmental demands |
| title_full |
Cell-type-specific transcriptional profiles of the dimorphic pathogen penicillium marneffei reflect distinct reproductive, morphological, and environmental demands |
| title_fullStr |
Cell-type-specific transcriptional profiles of the dimorphic pathogen penicillium marneffei reflect distinct reproductive, morphological, and environmental demands |
| title_full_unstemmed |
Cell-type-specific transcriptional profiles of the dimorphic pathogen penicillium marneffei reflect distinct reproductive, morphological, and environmental demands |
| title_sort |
cell-type-specific transcriptional profiles of the dimorphic pathogen penicillium marneffei reflect distinct reproductive, morphological, and environmental demands |
| publishDate |
2018 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/31423 |
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1763488645116854272 |