N. Jamie Ryding scite author profile

SummarywhiH is one of several known loci specifically needed for the orderly multiple sporulation septation of aerial hyphae of Streptomyces coelicolor A3(2) and for the expression of at least some late sporulation genes. DNA complementing whiH mutants was located immediately upstream of hrdB, which encodes the principal factor of S. coelicolor. Sequencing revealed a gene whose disruption gave rise to a typical whiH mutant phenotype. Four whiH mutants contained base changes or a frameshift in this gene. The deduced product of whiH is related to a large family of bacterial regulatory proteins, the most similar being several repressors (such as GntR of Bacillus subtilis) responsive to carboxylate-containing intermediates in carbon metabolism. Transcription of whiH was initiated at a single promoter, P whiH . Levels of whiH mRNA were developmentally regulated, increasing sharply when aerial mycelium was present, and reaching a maximum approximately when spores were first detectable. Transcript levels were markedly increased in a whiH mutant, indicating the possible involvement of WhiH in negative regulation of its own production. P whiH was directly dependent on the factor encoded by another sporulation gene, whiG, as shown by in vivo and in vitro transcription analysis.

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Regulation of the Streptomyces coelicolor Calcium-Dependent Antibiotic by absA , Encoding a Cluster-Linked Two-Component System

Ryding

Anderson

Champness

2002

J Bacteriol

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The Streptomyces coelicolor absA two-component system was initially identified through analysis of mutations in the sensor kinase absA1 that caused inhibition of all four antibiotics synthesized by this strain. Previous genetic analysis had suggested that the phosphorylated form of AbsA2 acted as a negative regulator of antibiotic biosynthesis in S. coelicolor (T. B. Anderson, P. Brian, and W. C. Champness, Mol. Microbiol. 39:553-566, 2001). Genomic sequence data subsequently provided by the Sanger Centre (Cambridge, United Kingdom) revealed that absA was located within the gene cluster for production of one of the four antibiotics, calcium-dependent antibiotic (CDA). In this paper we have identified numerous transcriptional start sites within the CDA cluster and have shown that the original antibiotic-negative mutants used to identify absA exhibit a stronger negative regulation of promoters upstream of the proposed CDA biosynthetic genes than of promoters in the clusters responsible for production of actinorhodin and undecylprodigiosin. The same antibiotic-negative mutants also showed an increase in transcription from a promoter divergent to that of absA, upstream of a putative ABC transporter, in addition to an increase in transcription of absA itself. Interestingly, the negative regulation of the biosynthetic transcripts did not appear to be mediated by transcriptional regulation of cdaR (a gene encoding a homolog of the pathway-specific regulators of the act and red clusters) or by any other recognizable transcriptional regulator associated with the cluster. The role of absA in regulating the expression of the diverse antibiotic biosynthesis clusters in the genome is discussed in light of its location in the cda cluster.

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WhiA, a Protein of Unknown Function Conserved among Gram-Positive Bacteria, Is Essential for Sporulation in Streptomyces coelicolor A3(2)

et al. 2000

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The whiA sporulation gene of Streptomyces coelicolor A3(2), which plays a key role in switching aerial hyphae away from continued extension growth and toward sporulation septation, was cloned by complementation of whiA mutants. DNA sequencing of the wild-type allele and five whiA mutations verified that whiA is a gene encoding a protein with homologues in all gram-positive bacteria whose genome sequence is known, whether of high or low G؉C content. No function has been attributed to any of these WhiA-like proteins. In most cases, as in S. coelicolor, the whiA-like gene is downstream of other conserved genes in an operon-like cluster. Phenotypic analysis of a constructed disruption mutant confirmed that whiA is essential for sporulation. whiA is transcribed from at least two promoters, the most downstream of which is located within the preceding gene and is strongly up-regulated when colonies are undergoing sporulation. The up-regulation depends on a functional whiA gene, suggesting positive autoregulation, although it is not known whether this is direct or indirect. Unlike the promoters of some other sporulation-regulatory genes, the whiA promoter does not depend on the sporulation-specific factor encoded by whiG.Dispersal of the mycelial organism Streptomyces coelicolor A3(2) occurs by the formation of long chains of spores from aerial hyphae. A critical stage in this process is the subdivision of a multigenomic apical aerial hyphal compartment into many unigenomic prespore compartments by the synchronous formation of regularly spaced sporulation septa (26,38). At least six genetic loci (whiA, whiB, whiG, whiH, whiI, and whiJ) are needed for sporulation septation (8, 10), in addition to cell division genes that are also involved in vegetative growth (24,25). These six early whi loci appear to play no role in vegetative growth. Mutations in them have pleiotropic effects on the later stages of sporulation, including weak or undetectable transcription of the genes responsible for the production of grey spore pigment (20), hence the white colony phenotype after which they were named (18). Transcription of sigF, which encodes a late sporulation sigma factor, is also dependent on these early whi genes (21, 28). The complex early whi mutant phenotypes suggest that some or all of the six "early" whi genes encode regulatory elements. Indeed, whiG encodes a sigma factor ( WhiG [11,37]), whiH encodes a repressor-like protein (31), and whiI encodes a response regulator-like protein (1); the product of whiB has features that resemble those of some transcription factors (13,34). Mutations in some other more recently discovered genes also affect sporulation septation but in a more allele-specific manner (30).This paper is concerned with whiA. Like whiB mutants, whiA and whiA whiB double mutants have tightly coiled aerial hyphae that are markedly longer than normal spore chains, contain uncondensed DNA, and lack sporulation septa and readily detectable FtsZ (9, 15, 33). whiA and whiB are therefore believed to play a role in th...

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New Sporulation Loci in Streptomyces coelicolor A3(2)

et al. 1999

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Sporulation mutants of Streptomyces coelicolor appear white because they are defective in the synthesis of the grey polyketide spore pigment, and such white (whi) mutants had been used to define eight sporulation loci, whiA,whiB, whiD, whiE, whiG,whiH, whiI, and whiJ (K. F. Chater, J. Gen. Microbiol. 72:9–28, 1972; N. J. Ryding, Ph.D. thesis, University of East Anglia, 1995). In an attempt to identify new whi loci, we mutagenized S. coelicolor M145 spores with nitrosoguanidine and identified 770 mutants with colonies ranging from white to medium grey. After excluding unstable strains, we examined the isolates by phase-contrast microscopy and chose 115 whi mutants with clear morphological phenotypes for further study. To exclude mutants representing cloned whi genes, self-transmissible SCP2*-derived plasmids carrying whiA, whiB,whiG, whiH, or whiJ (but notwhiD, whiE, or whiI) were introduced into each mutant by conjugation, and strains in which the wild-type phenotype was restored either partially or completely by any of these plasmids were excluded from further analysis. In an attempt to complement some of the remaining 31 whi mutants, an SCP2* library of wild-type S. coelicolor chromosomal DNA was introduced into 19 of the mutants by conjugation. Clones restoring the wild-type phenotype to 12 of the 19 strains were isolated and found to represent five distinct loci, designated whiK,whiL, whiM, whiN, andwhiO. Each of the five loci was located on the ordered cosmid library: whiL, whiM, whiN, and whiO occupied positions distinct from previously clonedwhi genes; whiK was located on the same cosmid overlap as whiD, but the two loci were shown by complementation to be distinct. The phenotypes resulting from mutations at each of these new loci are described.

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N. Jamie Ryding

A developmentally regulated gene encoding a repressor‐like protein is essential for sporulation in Streptomyces coelicolor A3(2)

Regulation of the Streptomyces coelicolor Calcium-Dependent Antibiotic by absA , Encoding a Cluster-Linked Two-Component System

WhiA, a Protein of Unknown Function Conserved among Gram-Positive Bacteria, Is Essential for Sporulation in Streptomyces coelicolor A3(2)

New Sporulation Loci in Streptomyces coelicolor A3(2)

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