Janine Bauer scite author profile

Hyphal morphogenesis in Candida albicans is regulated by multiple pathways which act by either inducing or repressing filamentation. Most notably, Tup1, Nrg1, and Rfg1 are transcriptional repressors, while Efg1, Flo8, Cph1, and Czf1 can induce filamentation. Here, we present the functional analysis of CaSFL1, which encodes the C. albicans homolog of the Saccharomyces cerevisiae SFL1 (suppressor of flocculation) gene. Deletion of CaSFL1 results in flocculation (i.e., the formation of clumps) of yeast cells, which is most pronounced in minimal medium. The flocs contained hyphae already under noninducing conditions, and filamentation could be enhanced with hypha-inducing cues at 37°C. Expression of SFL1 in a heterozygous mutant under the control of the CaMET3 promoter was shown to complement these defects and allowed switching between wild-type and mutant phenotypes. Interestingly, increased expression of SFL1 using a MET3prom-SFL1 construct prior to the induction of filamentation completely blocked germ tube formation. To localize Sfl1 in vivo, we generated a SFL1-GFP fusion. Sfl1-green fluorescent protein was found in the nucleus in both yeast cells and, to a lesser extent, hyphal cells. Using reverse transcription-PCR, we find an increased expression of ALS1, ALS3, HWP1, ECE1, and also FLO8. Our results suggest that Sfl1 functions in the repression of flocculation and filamentation and thus represents a novel negative regulator of C. albicans morphogenesis.

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Critical physiological factors influencing the outcome of antimicrobial testing according to ISO 22196 / JIS Z 2801

Wiegand

Völpel

Ewald

et al. 2018

PLoS ONE

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Bactericidal materials gained interest in the health care sector as they are capable of preventing material surfaces from microbial colonization and subsequent spread of infections. However, commercialization of antimicrobial materials requires proof of their efficacy, which is usually done using in vitro methods. The ISO 22196 standard (Japanese test method JIS Z 2801) is a method for measuring the antibacterial activity of daily goods. As it was found reliable for testing the biocidal activity of antimicrobially active materials and surface coatings most of the laboratories participating in this study used this protocol. Therefore, a round robin test for evaluating antimicrobially active biomaterials had to be established. To our knowledge, this is the first report on inaugurating a round robin test for the ISO 22196 / JIS Z 2801. The first round of testing showed that analyses in the different laboratories yielded different results, especially for materials with intermediate antibacterial effects distinctly different efficacies were noted. Scrutinizing the protocols used by the different participants and identifying the factors influencing the test outcomes the approach was unified. Four critical factors influencing the outcome of antibacterial testing were identified in a series of experiments: (1) incubation time, (2) bacteria starting concentration, (3) physiological state of bacteria (stationary or exponential phase of growth), and (4) nutrient concentration. To our knowledge, this is the first time these parameters have been analyzed for their effect on the outcome of testing according to ISO 22196 / JIS Z 2801. In conclusion, to enable assessment of the results obtained it is necessary to evaluate these single parameters in the test protocol carefully. Furthermore, uniform and robust definitions of the terms antibacterial efficacy / activity, bacteriostatic effects, and bactericidal action need to be agreed upon to simplify communication of results and also regulate expectations regarding antimicrobial tests, outcomes, and materials.

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Functional analysis of Candida albicans genes whose Saccharomyces cerevisiae homologues are involved in endocytosis

Martin

Hellwig

Schaub

et al. 2007

Yeast

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PCR-based techniques for directed gene alterations have become standard tools inCandida albicans. To help to increase the speed of functional analysis of Candida albicans genes, we previously constructed and updated a modular set of pFA-plasmid vectors for PCR-based gene targeting in C. albicans. Here we report the functional analyses of C. albicans ORFs whose homologues in S. cerevisiae are involved in endocytosis, to explore their potential involvement in polarized cell growth. Three C. albicans genes, ABP1, BZZ1 and EDE1, were found to be non-essential. Yeast and hyphal morphogenesis were not affected by the individual deletions and the mutant strains appeared wild-type-like under the different growth conditions tested. On the other hand, deletion of both alleles of the C. albicans PAN1 homologue was not feasible. Promoter shut-down experiments using a MET3p-PAN1/pan1 strain indicated severe growth defects and abolished endocytosis, indicating that PAN1 is an essential gene. Subcellular distribution of CaAbp1 and CaPan1 was analysed via GFP-tagged proteins. Both proteins were found to localize at the cortex and at hyphal tips in a patch-like manner, supporting their role in endocytosis. Localization patterns of Abp1 and Pan1, however, were distinct from that of the FM4-64 stained Spitzenkörper.

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Janine Bauer

Candida albicans Sfl1 Suppresses Flocculation and Filamentation

Critical physiological factors influencing the outcome of antimicrobial testing according to ISO 22196 / JIS Z 2801

Functional analysis of Candida albicans genes whose Saccharomyces cerevisiae homologues are involved in endocytosis

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