Abstract
BackgroundThe calcium/calcineurin signaling pathway is mediated by the transcription factors NFAT (nuclear factor of activated T cells) in mammals and Crz1 (calcineurin-responsive zinc finger 1) in yeasts and other lower eukaryotes. A previous microarray analysis identified a putative Crz1-binding motif in promoters of its target genes in Candida albicans, but it has not been experimentally demonstrated.MethodsAn inactivation mutant for CaCRZ1 was generated through CRISPR/Cas9 approach. Transcript profiling was carried out by RNA sequencing of the wild type and the inactivation mutant for CaCRZ1 in response to 0.2 M CaCl2. Gene promoters were scanned by the online MEME (Multiple Em for Motif Elicitation) software. Gel electrophoretic mobility shift assay (EMSA) and chromatin immunoprecipitation (ChIP) analysis were used for in vitro and in vivo CaCrz1-binding experiments, respectively.ResultsRNA sequencing reveals that expression of 219 genes is positively, and expression of 59 genes is negatively, controlled by CaCrz1 in response to calcium stress. These genes function in metabolism, cell cycling, protein fate, cellular transport, signal transduction, transcription, and cell wall biogenesis. Forty of these positively regulated 219 genes have previously been identified by DNA microarray analysis. Promoter analysis of these common 40 genes reveals a consensus motif [5′-GGAGGC(G/A)C(T/A)G-3′], which is different from the putative CaCrz1-binding motif [5′-G(C/T)GGT-3′] identified in the previous study, but similar to Saccharomyces cerevisiae ScCrz1-binding motif [5′-GNGGC(G/T)CA-3′]. EMSA and ChIP assays indicate that CaCrz1 binds in vitro and in vivo to both motifs in the promoter of its target gene CaUTR2. Promoter mutagenesis demonstrates that these two CaCrz1-binding motifs play additive roles in the regulation of CaUTR2 expression. In addition, the CaCRZ1 gene is positively regulated by CaCrz1. CaCrz1 can bind in vitro and in vivo to its own promoter, suggesting an autoregulatory mechanism for CaCRZ1 expression.ConclusionsCaCrz1 differentially binds to promoters of its target genes to regulate their expression in response to calcium stress. CaCrz1 also regulates its own expression through the 5′-TGAGGGACTG-3′ site in its promoter.3QEHhwZ2kG3j3zrcs7CSeNVideo abstract
Highlights
The calcium/calcineurin signaling pathway is mediated by the transcription factors nuclear factor of activated T cells (NFAT) in mammals and Calcineurin-responsive zinc finger 1 (Crz1) in yeasts and other lower eukaryotes
Gene expression in response to calcium stress is controlled by the calcium/calcineurin signalling through the transcription factors NFAT in mammals and Crz1 in yeasts and other lower eukaryotes
RNA sequencing, we have identified 219 genes that are positively, and 59 genes that are negatively, controlled by CaCrz1 in response to calcium stress in this study
Summary
An inactivation mutant for CaCRZ1 was generated through CRISPR/Cas approach. Transcript profiling was carried out by RNA sequencing of the wild type and the inactivation mutant for CaCRZ1 in response to 0.2 M CaCl2. We designed SgRNA primers CRZ1-sgF and CRZ1-sgR near the start codon of CaCRZ1 using the online software Benchling (https://benchling.com/academic) as well as the repair DNA primers CRZ1-RFand CRZ1-RR containing 40-bp homologous regions flanking the SgRNA sequence Primers CRZ1sgF and CRZ1-sgR were annealed, cut with BsmBI and cloned into the BsmBI site of pV1093 (Additional file 1: Figure S1A-S1B), which generated the recombinant plasmid pV1093-SgRNA. The repair DNA and the recombinant plasmid pV1093-SgRNA linearized by both SacI and KpnI were used together to transform cells of C. albicans strain SN148 (Additional file 1: Figure S1C). Potential correct CRISPR mutants for CaCRZ1 were detected with diagnostical PstI-digestion of 1-kb PCR products, containing the SgRNA region, amplified with primers CRZ1-CF and CRZ1-CR from genomic DNA samples of transformants (Additional file 1: Figure S1DS1E). Mutated sites in CaCRZ1 alleles in those potential correct CRISPR mutants were further confirmed by DNA sequencing
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