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在天蓝色链霉菌中,SCP2^*质粒接合转移频率的快增长,SCP2^*质粒介导的质粒同源性重组频率的快增长与气生菌丝的形成同步。在1株bld基因突变株中,3株whi基因突变株中,测定SCP2^*质粒接合转移及其介导的质粒同源性重组,结果表明,除whiA基因突变导致质粒接合转移频率不稳定外,其余3个基因突变对质粒接合转移不产生影响,但在所测定的4个基因突变株中,质粒同源性重组的频率降低超过10掊。 相似文献
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H Wildermuth 《Journal of general microbiology》1970,60(1):43-50
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Purification of an Extracellular Signaling Molecule Involved in Production of Aerial Mycelium by Streptomyces coelicolor 总被引:5,自引:0,他引:5 下载免费PDF全文
We have extensively purified a factor from conditioned medium that restores aerial mycelium formation to a mutant of Streptomyces coelicolor that is defective in morphological differentiation. Response to this factor is shown to depend on the presence of the BldK oligopeptide import system. We suggest that this substance acts at the first step in a putative cascade of developmental regulatory signals. 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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Regine Hengge Angelika Gründling Urs Jenal Robert Ryan Fitnat Yildiz 《Journal of bacteriology》2016,198(1):15-26
The first International Symposium on c-Di-GMP Signaling in Bacteria (22 to 25 March 2015, Harnack-Haus, Berlin, Germany) brought together 131 molecular microbiologists from 17 countries to discuss recent progress in our knowledge of bacterial nucleotide second messenger signaling. While the focus was on signal input, synthesis, degradation, and the striking diversity of the modes of action of the current second messenger paradigm, i.e., cyclic di-GMP (c-di-GMP), “classics” like cAMP and (p)ppGpp were also presented, in novel facets, and more recent “newcomers,” such as c-di-AMP and c-AMP-GMP, made an impressive appearance. A number of clear trends emerged during the 30 talks, on the 71 posters, and in the lively discussions, including (i) c-di-GMP control of the activities of various ATPases and phosphorylation cascades, (ii) extensive cross talk between c-di-GMP and other nucleotide second messenger signaling pathways, and (iii) a stunning number of novel effectors for nucleotide second messengers that surprisingly include some long-known master regulators of developmental pathways. Overall, the conference made it amply clear that second messenger signaling is currently one of the most dynamic fields within molecular microbiology, with major impacts in research fields ranging from human health to microbial ecology. 相似文献
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S H Fisher 《Journal of bacteriology》1989,171(5):2372-2377
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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Identification of Streptomyces coelicolor Proteins That Are Differentially Expressed in the Presence of Plant Material 下载免费PDF全文
Streptomyces coelicolor and Lemna minor were used as a model to study the modulation of bacterial gene expression during plant-streptomycete interactions. S. coelicolor was grown in minimal medium with and without L. minor fronds. Bacterial proteomes were analyzed by two-dimensional gel electrophoresis, and a comparison of the two culture conditions resulted in identification of 31 proteins that were induced or repressed by the presence of plant material. One-half of these proteins were identified by peptide mass fingerprinting by using matrix-assisted laser desorption ionization-time of flight mass spectrometry. The induced proteins were involved in energetic metabolism (glycolysis, pentose phosphate pathway, oxidative phosphorylation), protein synthesis, degradation of amino acids, alkenes, or cellulose, tellurite resistance, and growth under general physiological or oxidative stress conditions. The repressed proteins were proteins synthesized under starvation stress conditions. These results suggest that root exudates provide additional carbon sources to the bacteria and that physiological adaptations are required for efficient bacterial growth in the presence of plants. 相似文献
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Colony growth of Streptomyces coelicolor A3(2) was studied on a cellophane membrane beneath which was passed a continuous supply of liquid medium. Colony development and differentiation occurred normally but hyphal extension rates and colony radial growth rates were reduced and branch formation was increased in comparison with colonies grown on the same medium solidified with agar. These changes are thought to result from continuous removal of staling compounds which would otherwise suppress branching at the colony margin. Glucose concentrations in the range of 0–1 g · l−1 had little effect on radial growth and branching except at a concentration of 1 g glucose · l−1, at which branching at the colony margin was suppressed. This concentration of glucose did not permit continued growth on solid medium. 相似文献
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Danielle L. Sexton Renée J. St-Onge Henry J. Haiser Mary R. Yousef Lauren Brady Chan Gao Jacqueline Leonard Marie A. Elliot 《Journal of bacteriology》2015,197(5):848-860
Dormancy is a common strategy adopted by bacterial cells as a means of surviving adverse environmental conditions. For Streptomyces bacteria, this involves developing chains of dormant exospores that extend away from the colony surface. Both spore formation and subsequent spore germination are tightly controlled processes, and while significant progress has been made in understanding the underlying regulatory and enzymatic bases for these, there are still significant gaps in our understanding. One class of proteins with a potential role in spore-associated processes are the so-called resuscitation-promoting factors, or Rpfs, which in other actinobacteria are needed to restore active growth to dormant cell populations. The model species Streptomyces coelicolor encodes five Rpf proteins (RpfA to RfpE), and here we show that these proteins have overlapping functions during growth. Collectively, the S. coelicolor Rpfs promote spore germination and are critical for growth under nutrient-limiting conditions. Previous studies have revealed structural similarities between the Rpf domain and lysozyme, and our in vitro biochemical assays revealed various levels of peptidoglycan cleavage capabilities for each of these five Streptomyces enzymes. Peptidoglycan remodeling by enzymes such as these must be stringently governed so as to retain the structural integrity of the cell wall. Our results suggest that one of the Rpfs, RpfB, is subject to a unique mode of enzymatic autoregulation, mediated by a domain of previously unknown function (DUF348) located within the N terminus of the protein; removal of this domain led to significantly enhanced peptidoglycan cleavage. 相似文献
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Mutants of Streptomyces coelicolor defective in sporulation 总被引:17,自引:0,他引:17
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Initiation of actinorhodin export in Streptomyces coelicolor 总被引:1,自引:0,他引:1
Tahlan K Ahn SK Sing A Bodnaruk TD Willems AR Davidson AR Nodwell JR 《Molecular microbiology》2007,63(4):951-961
Many microorganisms produce molecules having antibiotic activity and expel them into the environment, presumably enhancing their ability to compete with their neighbours. Given that these molecules are often toxic to the producer, mechanisms must exist to ensure that the assembly of the export apparatus accompanies or precedes biosynthesis. Streptomyces coelicolor produces the polyketide antibiotic actinorhodin in a multistep pathway involving enzymes encoded by genes that are clustered together. Embedded within the cluster are genes for actinorhodin export, two of which, actR and actA resemble the classic tetR and tetA repressor/efflux pump-encoding gene pairs that confer resistance to tetracycline. Like TetR, which represses tetA, ActR is a repressor of actA. We have identified several molecules that can relieve repression by ActR. Importantly (S)-DNPA (an intermediate in the actinorhodin biosynthetic pathway) and kalafungin (a molecule related to the intermediate dihydrokalafungin), are especially potent ActR ligands. This suggests that along with the mature antibiotic(s), intermediates in the biosynthetic pathway might activate expression of the export genes thereby coupling export to biosynthesis. We suggest that this could be a common feature in the production of many bioactive natural products. 相似文献