Pia Schmidt scite author profile

Micro-organisms must adapt to environmental change to survive, and this is particularly true for fungal pathogens such as Candida glabrata. C. glabrata is found both in the environment and in diverse niches in its human host. The ambient pH of these niches varies considerably, and therefore we have examined the response of C. glabrata to changes in ambient pH using a proteomic approach. Proteins expressed in C. glabrata cells growing at pH 4.0, 7.4 or 8.0 were compared by 2-DE, and 174 spots displaying reproducible and statistically significant changes in expression level were identified by peptide mass fingerprinting, thereby extending our 2-DE map of the C. glabrata proteome to a total of 272 identified spots. Proteins involved in glucose metabolism, the TCA cycle, respiration and protein synthesis were expressed at lower levels during growth at pH 7.4 and/or 8.0, whereas proteins involved in stress responses and protein catabolism were expressed at higher levels under these alkaline conditions. Our data suggest that C. glabrata perceives low pH as less stressful than higher pH. This contrasts with another opportunistic fungal pathogen of humans, Candida albicans.

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Gross Karyotypic and Phenotypic Alterations among Different Progenies of the Candida glabrata CBS138/ATCC2001 Reference Strain

Bader

Schwarz

Kraneveld

et al. 2012

PLoS ONE

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Genomic plasticity is a mechanism for adaptation to environmental cues such as host responses and antifungal drug pressure in many fungi including the human pathogenic yeast Candida glabrata. In this study we evaluated the phenotypic and genotypic stability of the world-wide used C. glabrata reference strain CBS138/ATCC2001 under laboratory conditions. A set of ten lineages of this wild type strain and genetically modified progenies were obtained from different scientific laboratories, and analyzed for genotypic and phenotypic alterations. Even though the derivates were indistinguishable by multi locus sequence typing, different phenotypic groups that correlated with specific karyotypic changes were observed. In addition, modifications in the adherence capacity to plastic surface emerged that were shown to correlate with quantitative changes in adhesin gene expression rather than subtelomeric gene loss or differences in the number of macrosatellite repeats within adhesin genes. These results confirm the genomic plasticity of C. glabrata and show that chromosomal aberrations and functional adaptations may occur not only during infection and under antimicrobial therapy, but also under laboratory conditions without extreme selective pressures. These alterations can significantly affect phenotypic properties such as cell surface attributes including adhesion and the cell wall carbohydrate composition and therefore, if unnoticed, may adulterate the outcome of genetic studies.

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Molecular mechanisms of the human pathogen <i>Candida glabrata</i> involved in the interaction with the host

Schmidt¹

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Mösch for their advice and support as my thesis committee members. I enjoyed the very fruitful committee meetings a lot. Thank you! Many thanks also go to Prof. Dr. Alistair Brown, Institute of Medical Sciences at the University of Aberdeen in Scotland for giving me the opportunity to do part of my PhD work in his lab. I want to thank Laura Selway, David Stead, Janet Walker and Zhikang Yin for their continuous help and advice in the work of the proteomics project. Working in the Aberdeen Fungal Group has been a very successful, exciting and pleasant experience.My thanks also go to my colleagues in the Weig-lab: I especially want to thank Agnieszka Goretzki, my "partner-in-crime" in cell wall preparations and cell culture assays. I thank you a lot for your excellent assistance during numerous experiments! I want to thank all former and current members of the lab for helpful discussions and creating an atmosphere, which made the whole work fun! Thank you:

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Pia Schmidt

Proteomic analysis of the pH response in the fungal pathogen Candida glabrata

Gross Karyotypic and Phenotypic Alterations among Different Progenies of the Candida glabrata CBS138/ATCC2001 Reference Strain

Molecular mechanisms of the human pathogen <i>Candida glabrata</i> involved in the interaction with the host

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