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Streptomyces coelicolor is a multicellular bacterium whose life cycle encompasses three differentiated states: vegetative hyphae, aerial hyphae and spores. Among the factors required for aerial development are the 'chaplins', a family of eight secreted proteins that coat the surface of aerial hyphae. Three chaplins (the 'long' chaplins, ChpA, B and C) possess an LAXTG-containing C-terminal sorting signal and are predicted sortase substrates. The five remaining 'short' chaplins are presumed to be associated with the cell surface through interactions with the long chaplins. We show here that two sortase enzymes, SrtE1 and SrtE2, cleave LAXTG-containing peptides at two distinct positions in vitro, and are required for cell wall anchoring of ChpC in vivo. srtE1/E2 double mutants are delayed in aerial hyphae formation, do not sporulate and fail to display all short chaplins on their aerial surfaces. Surprisingly, these mutant characteristics were not shared by a long chaplin mutant, which exhibited only modest delays in aerial development, leading us to revise the current model of chaplin-mediated aerial development. The sortase mutant phenotype, instead, appears to stem from an inability to transcribe aerial hyphae-specific genes, whose products have diverse functions. This suggests that sortase activity triggers an important, and previously unknown, developmental checkpoint.  相似文献   

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The phosphopantetheinyl transferase genes SCO5883 (redU) and SCO6673 were disrupted in Streptomyces coelicolor. The redU mutants did not synthesize undecylprodigiosin, while SCO6673 mutants failed to produce calcium-dependent antibiotic. Neither gene was essential for actinorhodin production or morphological development in S. coelicolor, although their mutation could influence these processes.  相似文献   

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Streptomyces coelicolor produces an extracellular protease inhibitor protein, STI (Streptomyces trypsin inhibitor). We show that post-growth elimination of STI is needed for colonies to develop aerial mycelium efficiently. Inactivation of STI, and thus the normal progression of colony development, at least partly involves an extracellular protease specified by gene SCO5913. Two-hybrid analysis identified two possible targets of STI inhibition (the products of SCO1355 and SCO5447), both extracellular proteases containing a domain homologous with the P-domain of eukaryotic convertases, proteases that mediate the processing of many precursors with important cellular or developmental roles. At least the SCO1355 protease is needed for the normal progression of development. Two components of the proposed cascade are dependent on the tRNA for the rare UUA (leucine) codon, which is specified by the developmental gene bldA. A model is presented that links intracellular regulatory events with an extracellular protease cascade to facilitate normal development.  相似文献   

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Advances in Streptomyces coelicolor genetics   总被引:25,自引:0,他引:25  
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High-multiplicity of chitinase genes in Streptomyces coelicolor A3(2).   总被引:2,自引:0,他引:2  
Six different genes for chitinase from ordered cosmids of the chromosome of Streptomyces coelicolor A3(2) were identified by hybridization, using the chitinase genes from other Streptomyces spp. as probes, and cloned. The genes were sequenced and analyzed. The genes, together with an additional chitinase gene obtained from the data bank, can be classified into either family 18 or family 19 of the glycosyl hydrolase classification. The five chitinases that fall into family 18 show diversity in their multiple domain structures as well as in the amino acid sequences of their catalytic domains. The remaining two chitinases are members of family 19 chitinases, since their C-terminus shares more than 70% identity with the catalytic domain of ChiC of Streptomyces griseus, the sole gene for family 19 chitinase so far found in an organism other than higher plants.  相似文献   

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W Champness  P Riggle  T Adamidis  P Vandervere 《Gene》1992,115(1-2):55-60
To define genetic elements that regulate antibiotic synthesis, we screened for mutations that visibly blocked synthesis of Streptomyces coelicolor's two pigmented antibiotics and found mutant strains in which all four antibiotics were blocked. The responsible mutations defined two loci, absA and absB. Two additional approaches to defining genes have been taken: isolation of cloned genes with a dominant negative effect on antibiotic synthesis and isolation of genes which, in multicopy, can compensate for specific mutational blocks. These genes apparently function in a global regulatory pathway (or network) for control of antibiotic synthesis.  相似文献   

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The filamentous bacterium Streptomyces coelicolor undergoes a complicated process of morphological differentiation that begins with the formation of an aerial mycelium and culminates in sporulation. Genes required for the initiation of aerial mycelium formation have been termed bld (bald), describing the smooth, undifferentiated colonies of mutant strains. By using an insertional mutagenesis protocol that relies on in vitro transposition, we have isolated a bld mutant harboring an insertion in a previously uncharacterized gene, SCE59.12c, renamed here rsuA. The insertion mutant exhibited no measurable growth defect but failed to produce an aerial mycelium and showed a significant delay in the production of the polyketide antibiotic actinorhodin. The rsuA gene encodes an apparent anti-sigma factor and is located immediately downstream of SCE59.13c, renamed here sigU, whose product is inferred to be a member of the extracytoplasmic function subfamily of RNA polymerase sigma factors. The absence of rsuA in a strain that contained sigU caused a block in development, and the overexpression of sigU in an otherwise wild-type strain caused a delay in aerial mycelium formation. However, a strain in which both rsuA and sigU had been deleted was able to undergo morphological differentiation normally. We conclude that the rsuA-encoded anti-sigma factor is responsible for antagonizing the function of the sigma factor encoded by sigU. We also conclude that the sigU-encoded sigma factor is not normally required for development but that its uncontrolled activity obstructs morphological differentiation at an early stage.  相似文献   

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Glutamate synthesis in Streptomyces coelicolor.   总被引:1,自引:2,他引:1       下载免费PDF全文
Both glutamate synthase (GOGAT) and glutamate dehydrogenase (GDH) are involved in glutamate synthesis in Streptomyces coelicolor. The highest levels of GDH were seen in extracts of cells grown with high levels of ammonium as the nitrogen source. GOGAT activity was reduced two- to threefold in extracts of cells grown with good sources of glutamate. S. coelicolor mutants deficient in GOGAT (Glt-) required glutamate for growth with L-alanine, asparagine, arginine, or histidine as the nitrogen source but grew like wild-type cells when ammonium, glutamine, or aspartate was the nitrogen source. The glt mutations were tightly linked to hisA1. Mutants deficient in both GOGAT and GDH (Gdh-) required glutamate for growth in all media. The gdh-5 mutation was mapped to the left region of the S. coelicolor chromosomal map, between proA1 and uraA1.  相似文献   

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