Your search keyword '"Streptomyces -- Research"' showing total 490 results

1. Studies from D. Gomez-Rios and Co-Researchers Yield New Data on Obesity, Fitness and Wellness (Degradation Kinetics of Clavulanic Acid In Fermentation Broths At Low Temperatures)

Subjects

Obesity -- Research -- Care and treatment, Antibiotics -- Usage, Streptomyces -- Research, Enzymes, Bacteria, Lactams, Fermentation, Physical fitness, Microbial drug resistance, Beta lactamases, Editors, Health

Abstract

2019 MAY 18 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- New research on Obesity, Fitness and Wellness is the subject of a [...]

Published

2019

2. Findings from China Pharmaceutical University Yields New Data on Streptomyces griseus (Specific N-demethylation of Verapamil By Cytochrome P450 From Streptomyces Griseus Atcc 13273)

Subjects

Streptomyces -- Research, Cytochromes -- Research, Obesity, Education, Bacteria, Verapamil, Physical fitness, Microbial drug resistance, Drug resistance, Novels, Editors, Health

Abstract

2019 MAY 11 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Data detailed on Gram-Positive Bacteria - Streptomyces griseus have been presented. According [...]

Published

2019

3. Data on Streptomyces Reported by N.E. El-Naggar and Colleagues (Purification, Characterization and Immunogenicity Assessment of Glutaminase Free L-asparaginase From Streptomyces Brollosae Neae-115)

Subjects

Acute lymphocytic leukemia -- Care and treatment, Asparaginase -- Usage, Streptomyces -- Research, Chemotherapy, Obesity, Enzymes, Bacteria, Lymphocytic leukemia, Physical fitness, Pediatrics, Technology, Editors, Health

Abstract

2019 APR 6 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Research findings on Gram-Positive Bacteria - Streptomyces are discussed in a new [...]

Published

2019

4. Data on Escherichia coli Discussed by Researchers at University of Stuttgart [Production of P-amino-l-phenylalanine (L-papa) From Glycerol By Metabolic Grafting of Escherichia Coli]

Subjects

Escherichia coli -- Research, Biosynthesis -- Research, Streptomyces -- Research, Obesity, Bacteria, Amino acids, Physical fitness, Phenylalanine, Antibacterial agents, Glycerol, Chloramphenicol, Gram-negative bacteria, Anopheles, Editors, Health

Abstract

2019 APR 6 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Investigators discuss new findings in Gram-Negative Bacteria - Escherichia coli. According to [...]

Published

2019

5. Production and characterization of a biosurfactant produced by Streptomyces sp. DPUA 1559 isolated from lichens of the Amazon region

Author

Santos, A.P.P., Silva, M.D.S., Costa, E.V.L., Rufino, R.D., Santos, V.A., Ramos, C.S., Sarubbo, L.A., and Porto, A.L.F.

Published

2018

6. The tra locus of streptomycete plasmid plJ101 mediates efficient transfer of a circular but not a linear version of the same replicon

Author

Wangt, Jing and Pettis, Gregg S.

Subjects

Circular DNA -- Research, Circular DNA -- Physiological aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, DNA replication -- Research, Biological sciences

Abstract

Conjugal transfer of circular plasmids in Streptomyces involves a unique mechanism employing few plasmid-encoded loci and the transfer of double-stranded DNA by an as yet uncharacterized intercellular route. Efficient transfer of the circular streptomycete plasmid plJ101 requires only two plasmid loci: the plJ101 tra gene, and as a cis-acting function known as clt. Here, we compared the ability of the plJ101 transfer apparatus to promote conjugal transfer of circular versus linear versions of the same replicon. While the plJ101 tra locus readily transferred the circular form of the replicon, the linear version was transferred orders of magnitude less efficiently and all plasmids isolated from the transconjugants were circular, regardless of their original configuration in the donor. Additionally, relatively rare circularization of linear plasmids was detectable in the donor cells, which is consistent with the notion that this event was a prerequisite for transfer by TraB(plJ101). Linear versions of this same replicon did transfer efficiently, in that configuration, from strains containing the conjugative linear plasmid SLP2. Our data indicate that functions necessary and sufficient for transfer of circular DNA were insufficient for transfer of a related linear DNA molecule. The results here suggest that the conjugation mechanisms of linear versus circular DNA in Streptomyces spp. are inherently different and/or that efficient transfer of linear DNA requires additional components. DOI 10.1099/mic.0.036467-0

Published

2010

7. Autoregulation of hpdR and its effect on CDA biosynthesis in Streptomyces coelicolor

Author

Yang, Haihua, An, Yang, Wang, Linqi, Zhang, Shuli, Zhang, Yue, Tian, Yuqing, Liu, Gang, and Tan, Huarong

Subjects

Streptomyces -- Genetic aspects, Streptomyces -- Research, Bacterial proteins -- Physiological aspects, Bacterial proteins -- Research, Genes -- Research, Biological sciences

Abstract

HpdR, an IclR-family regulator in Streptomyces coelicolor, is a substrate-dependent repressor for the tyrosine catabolic gene hppD. In this study, S1 nuclease protection assays revealed that hpdR is subject to a negative autoregulation. Purified HpdR showed specific DNA-binding activity for the promoter region of hpdR, indicating that the autoregulation of hpdR is performed directly. The disruption of hpdR led to reduced production of CDA by S. coelicolor J1501, suggesting a positive effect of hpdR on CDA biosynthesis. Electrophoretic mobility shift assays showed that HpdR specifically bound to the promoter region of hmaS (SCO3229 in the CDA gene cluster), encoding 4-hydroxymandelic acid synthase. Disruption of hmaS in J1501 abolished CDA production. It is possible that hpdR regulates CDA biosynthesis by controlling the transcription of hmaS. DOI 10.1099/mic.0.038604-0

Published

2010

8. The role of the TetR-family transcriptional regulator aur1R in negative regulation of the auricin gene cluster in Streptomyces aureofaciens CCM 3239

Author

Novakova, Renata, Kutas, Peter, Feckova, Lubomira, and Kormanec, Jan

Subjects

Streptomyces -- Physiological aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, Genetic transcription -- Research, Antibiotics -- Genetic aspects, Antibiotics -- Research, Biological sciences

Abstract

Two regulatory genes, aur1P and aur1R, have been previously identified upstream of the aur1 polyketide gene cluster involved in biosynthesis of the angucycline-like antibiotic auricin in Streptomyces aureofaciens CCM 3239. The aur1P gene encodes a protein similar to the response regulators of bacterial two-component signal transduction systems and has been shown to specifically activate expression of the auricin biosynthetic genes. The aur1R gene encodes a protein homologous to transcriptional repressors of the TetR family. Here we describe the characterization of the aur1R gene. Expression of the gene is directed by a single promoter, aur1Rp, which is induced just before stationary phase. Disruption of aur1R in S. aureofaciens CCM 3239 had no effect on growth and differentiation. However, the disrupted strain produced more auricin than its parental wild-type S. aureofaciens CCM 3239 strain. Transcription from the aur1Ap and aur1Pp promoters, directing expression of the first biosynthetic gene in the auricin gene cluster and the pathway-specific transcriptional activator, respectively, was increased in the S. aureofaciens CCM 3239 aur1R mutant strain. However, aur1 R was shown to bind specifically only to the aur1Pp promoter in vitro. This binding was abolished by the addition of auricin and/or its intermediates. The results indicate that the aur1 R regulator specifically represses expression of the aur1P gene, which encodes a pathway-specific activator of the auricin biosynthetic gene cluster in S. aureofaciens CCM 3239, and that this repression is relieved by auricin or its intermediates. DOI 10.1099/mic.0.037895-0

Published

2010

9. The G243D mutation (afsB mutation) in the principal sigma factor [[sigma].sup.HrdB] alters intracellular ppGpp level and antibiotic production in Streptomyces coelicolor A3(2)

Author

Wang, Guojun, Tanaka, Yukinori, and Ochi, Kozo

Subjects

Gene mutations -- Physiological aspects, Gene mutations -- Research, Streptomyces -- Physiological aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, Antibiotics -- Research, Antibiotics -- Production processes, Biological sciences

Abstract

Deficient antibiotic production in an afsB mutant, BH5, of Streptomyces coelicolor A3(2) was recently shown to be due to a mutation (G243D) in region 1.2 of the primary sigma factor [delta].sup.HrdB], Here we show that intracellular ppGpp levels during growth, as well as after amino acid depletion, in the mutant BH5 are lower than those of the afs[B.sup.+] parent strain. The introduction of certain rifampicin resistance (rif) mutations, which bypassed the requirement of ppGpp for transcription of pathway-specific regulatory genes, actll-ORF4 and redD, for actinorhodin and undecylprodigiosin, respectively, completely restored antibiotic production by BH5. Antibiotic production was restored also by introduction of a new class of thiostrepton-resistance (tsp) mutations, which provoked aberrant accumulation of intracellular ppGpp. Abolition of ppGpp synthesis in the afsB tsp mutant Tsp33 again abolished antibiotic production. These results indicate that intracellular ppGpp level is finely tuned for successful triggering of antibiotic production in the wild-type strain, and that this fine tuning was absent from the afsB mutant BH5, resulting in a failure to initiate antibiotic production in this strain. DOI 10.1099/mic.0.039834-0

Published

2010

10. Morphological differentiation and clavulanic acid formation are affected in a Streptomyces clavuligerus adpA-deleted mutant

Author

Lopez-Garcia, M. Teresa, Santamarta, Irene, and Liras, Paloma

Subjects

Clavulanate -- Physiological aspects, Clavulanate -- Genetic aspects, Clavulanate -- Research, Streptomyces -- Physiological aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, Cell differentiation -- Physiological aspects, Cell differentiation -- Genetic aspects, Cell differentiation -- Research, Biological sciences

Abstract

The TTA codon-containing adpA gene of Streptomyces clavuligerus, located upstream of ornA, is in a DNA region syntenous with the homologous region of other Streptomyces genomes. Deletion of adpA results in a medium-dependent sparse aerial mycelium formation and lack of sporulation. Clavulanic acid formation in this mutant decreases to about 10 O/o of the wild-type level depending on the medium, whereas its production is strongly stimulated by increasing the adpA copy number. Quantitative transcriptional analysis indicates that expression of the clavulanic acid regulatory genes ccaR and claR decreases seven- and fourfold, respectively, in the [] mutant, resulting in a large decrease in expression of genes encoding biosynthesis enzymes for the early steps of ctavulanic acid formation and a smaller decrease in the expression of genes for the late steps of the pathway. An ARE box, 5'-TCTCATGGAGACATAGCGGGGCATGC-3', is present upstream of adpA and efficiently binds S. clavuligerus Brp protein, as shown by electrophoretic mobility shift assay (EMSA) analysis. The transcription level of adpA is higher in the absence of Brp, as shown in S. clavuligerus AMp, suggesting a connection between adpA expression and the [gamma]-butyrolactone system in S. clavuligerus. DOI 10.1099/mic.0.035956-0

Published

2010

11. Deletion of a regulatory gene within the cpk gene cluster reveals novel antibacterial activity in Streptomyces coelicolor A3(2)

Author

Gottelt, Marco, Kol, Stefan, Gomez-Escribano, Juan Pablo, Bibb, Mervyn, and Takano, Eriko

Subjects

Genetic regulation -- Research, Drug resistance in microorganisms -- Physiological aspects, Drug resistance in microorganisms -- Genetic aspects, Drug resistance in microorganisms -- Research, Streptomyces -- Physiological aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, Biological sciences

Abstract

Genome sequencing of Streptomyces coelicolor A3(2) revealed an uncharacterized type I polyketide synthase gene cluster (cpk). Here we describe the discovery of a novel antibacterial activity (abCPK) and a yellow-pigmented secondary metabolite (yCPK) after deleting a presumed pathway-specific regulatory gene (scbR2) that encodes a member of the ol-butyrolactone receptor family of proteins and which lies in the cpk gene cluster. Overproduction of yCPK and abCPK in a scbR2 deletion mutant, and the absence of the newly described compounds from cpk deletion mutants, suggest that they are products of the previously orphan cpk biosynthetic pathway in which abCPK is converted into the yellow pigment. Transcriptional analysis suggests that scbR2 may act in a negative feedback mechanism to eventually limit yCPK biosynthesis. The results described here represent a novel approach for the discovery of new, biologically active compounds. DOI 10.1099/mic.0.038281-0

Published

2010

12. Biochemical characterization of a novel indole prenyltransferase from Streptomyces sp. SN-593

Author

Takahashi, Shunji, Takagi, Hiroshi, Toyoda, Atsushi, Uramoto, Masakazu, Nogawa, Toshihiko, Ueki, Masashi, Sakaki, Yoshiyuki, and Osada, Hiroyuki

Subjects

Transferases -- Genetic aspects, Transferases -- Physiological aspects, Transferases -- Research, Transferases -- Chemical properties, Streptomyces -- Genetic aspects, Streptomyces -- Research, Metabolites -- Analysis, Indole -- Research, Biological sciences

Abstract

Genome sequencing of Streptomyces species has highlighted numerous potential genes of secondary metabolite biosynthesis. The mining of cryptic genes is important for exploring chemical diversity. Here we report the metabolite-guided genome mining and functional characterization of a cryptic gene by biochemical studies. Based on systematic purification of metabolites from Streptomyces sp. SN-593, we isolated a novel compound, 6-dimethylallylindole (DMAI)-3-carbaldehyde. Although many 6-DMAI compounds have been isolated from a variety of organisms, an enzyme catalyzing the transfer of a dimethylallyl group to the C-6 indole ring has not been reported so far. A homology search using known prenyltransferase sequences against the draft sequence of the Streptomyces sp. SN-593 genome revealed the iptA gene. The IptA protein showed 27% amino acid identity to cyanobacterial LtxC, which catalyzes the transfer of a geranyl group to (-)-indolactam V. A BLAST search against IptA revealed much-more-similar homologs at the amino acid level than LtxC, namely, SAML0654 (60%) from Streptomyces ambofaciens ATCC 23877 and SCO7467 (58%) from S. coelicolor A3(2). Phylogenetic analysis showed that IptA was distinct from bacterial aromatic prenyltransferases and fungal indole prenyltransferases. Detailed kinetic analyses of IptA showed the highest catalytic efficiency (6.13 [min.sup.-1] [micro][M.sup.-1]) for L-Trp in the presence of dimethylallyl pyrophosphate (DMAPP), suggesting that the enzyme is a 6-dimethylallyl-L-Trp synthase (6.DMATS). Substrate specificity analyses of IptA revealed promiscuity for indole derivatives, and its reaction products were identified as novel 6-DMAI compounds. Moreover, [DELTA]iptA mutants abolished the production of 6-DMAI-3-carbaldehyde as well as 6-dimethylallyl-L-Trp, suggesting that the iptA gene is involved in the production of 6-DMAI-3-carbaldehyde. doi: 10.1128/JB.01557-09

Published

2010

13. A heterodimer of EsxA and EsxB is involved in sporulation and is secreted by a type VII secretion system in Streptomyces coelicolor

Author

San Roman, Sandra Akpe, Facey, Paul D., Fernandez-Martinez, Lorena, Rodriguez, Caridad, Vallin, Carlos, Del Sol, Ricardo, and Dyson, Paul

Subjects

Gene mutations -- Research, Genetic regulation -- Research, Streptomyces -- Physiological aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, Biological sciences

Abstract

An esx locus, related to the multiple esx loci of Mycobacterium tuberculosis, is conserved in all sequenced Streptomyces genomes, where it is associated with the developmental regulatory gene bldB. Here we demonstrate that the esxBA operon, comprising part of the locus, has a novel morphogenetic function in the model species Streptomyces coelicolor. This operon encodes two proteins belonging to the WXG-1 O0 superfamily that can form a heterodimer and are secreted in the absence of signal sequences. A mutation in esxBA results in a delay in sporulation, with eventual development of aerial hyphae with chains of abnormally sized spore compartments possessing irregular DNA contents. During early sporulation, expression of the operon is elevated in a bldB mutant. Other genes in the locus, notably SC05734 and SC05721, encode components of a type VII secretion system. Disruption of either of these genes prevents secretion of EsxAB but has no effect on sporulation. To explain the morphogenetic function of EsxAB, we propose that the heterodimer sequesters a regulator of expression of genes involved in nucleoid organization during sporulation. DOI 10.1099/mic.0.037069-0

Published

2010

14. The [[sigma.sup.R] regulon of Streptomyces coelicolor A3(2) reveals a key role in protein quality control during disulphide stress

Author

Kallifidas, Dimitris, Thomas, Derek, Doughty, Phillip, and Paget, Mark S.B.

Subjects

Bacterial proteins -- Physiological aspects, Bacterial proteins -- Research, Oxidative stress -- Physiological aspects, Oxidative stress -- Research, Streptomyces -- Physiological aspects, Streptomyces -- Research, Biological sciences

Abstract

Diamide is an artificial disulphide-generating electrophile that mimics an oxidative shift in the cellular thiol--disulphide redox state (disulphide stress). The Gram-positive bacterium Streptomyces coelicolor senses and responds to disulphide stress through the [[sigma.sup.R]--RsrA system, which comprises an extracytoplasmic function (ECF) sigma factor and a redox-active anti-sigma factor. Known targets that aid in the protection and recovery from disulphide stress include the thioredoxin system and genes involved in producing the major thiol buffer mycothiol. Here we determine the global response to diamide in wild-type and sigR mutant backgrounds to understand the role of [[sigma].sup.R] in this response and to reveal additional regulatory pathways that allow cells to cope with disulphide stress. In addition to thiol oxidation, diamide was found to cause protein misfolding and aggregation, which elicited the induction of the HspR heat-shock regulon. Although this response is [[sigma.sup.R]-independent, [[sigma.sup.R] does directly control Clp and Lon ATP-dependent AAA(+) proteases, which may partly explain the reduced ability of a sigR mutant to resolubilize protein aggregates, [[sigma.sup.R] also controls msrA and msrB methionine sulphoxide reductase genes, implying that [[sigma.sup.R]--RsrA is responsible for the maintenance of both cysteine and methionine residues during oxidative stress. This work shows that the [[sigma.sup.R]-RsrA system plays a more significant role in protein quality control than previously realized, and emphasizes the importance of controlling the cellular thiol--disulphide redox balance. DOI 10.1099/mic.0.037804-0

Published

2010

15. The enigmatic lack of glucose utilization in Streptomyces clavuligerus is due to inefficient expression of the glucose permease gene

Author

Perez-Redondo, Rosario, Santamarta, Irene, Bovenberg, Roel, Martin, Juan F., and Liras, Paloma

Subjects

Enzymes -- Physiological aspects, Enzymes -- Genetic aspects, Enzymes -- Research, Dextrose -- Physiological aspects, Dextrose -- Genetic aspects, Dextrose -- Research, Glucose -- Physiological aspects, Glucose -- Genetic aspects, Glucose -- Research, Promoters (Genetics) -- Research, Streptomyces -- Physiological aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, Biological sciences

Abstract

Streptomyces clavuligerus ATCC 27064 is unable to use glucose but has genes for a glucose permease (glcP) and a glucose kinase (glkA). Transformation of S. clavuligerus 27064 with the Streptomyces coelicolor glcP1 gene with its own promoter results in a strain able to grow on glucose. The glcP gene of S. clavuligerus encodes a 475 amino acid glucose permease with 12 transmembrane segments. GIcP is a functional protein when expressed from the S. coelicolor glcP1 promoter and complements two different glucose transport-negative Escherichia coli mutants. Transcription studies indicate that the glcP promoter is very weak and does not allow growth on glucose. These results suggest that S. clavuligerus initially contained a functional glucose permease gene, like most other Streptomyces species, and lost the expression of this gene by adaptation to glucose-poor habitats. DOI 10.1099/mic.0.035840-0

Published

2010

16. SanG, a transcriptional activator, controls nikkomycin biosynthesis through binding to the sanN--sanO intergenic region in Streptomyces ansochromogenes

Author

He, Xihong, Li, Rui, Pan, Yuanyuan, Liu, Gang, and Tan, Huarong

Subjects

Bacterial proteins -- Physiological aspects, Bacterial proteins -- Genetic aspects, Bacterial proteins -- Research, Polymerase chain reaction -- Usage, Streptomyces -- Physiological aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, Genetic transcription -- Research, Biological sciences

Abstract

Streptomyces ansochromogenes SanG is a pathway-specific regulator that mainly controls the transcription of two transcriptional units involved in nikkomycin biosynthesis. SanG consists of three major functional domains: an N-terminal Streptomyces antibiotic regulatory protein (SARP) domain, a central ATPase domain, and a C-terminal half homologous to guanylate cyclases belonging to the LuxR family. SanG was expressed in Escherichia coil as a C-terminally [His.sub.6]tagged protein. The purified SanG-[His.sub.6] was shown to be a dimer in solution by dynamic light scattering. An electrophoretic mobility-shift assay showed that the purified SanG protein could bind to the DNA fragment containing the bidirectional sanN--sanQ promoter region. The SanG-binding sites within the bidirectional sanN--sanQ promoter region were determined by footprinting analysis and identified a consensus-directed repeat sequence 5'-CGGCAAG-3'. SanG showed significant ATPase/GTPase activity in vitro, and addition of ATP/GTP enhanced the affinity of SanG for target DNA, but ATP/GTP hydrolysis was not essential for SanG binding to the target DNA. However, real-time reverse transcription PCR showed that mutation of the ATPase/GTPase domain of Sang significantly decreased the transcriptional level of sanN--I and sanO--V. These results indicated that the ATPase/GTPase activity of SanG modulated the transcriptional activation of SanG target genes during nikkomycin biosynthesis. DOI 10.1099/mic.0.033605-0

Published

2010

17. Regulation of valanimycin biosynthesis in Streptomyces viridifaciens: characterization of Vlml as a Streptomyces antibiotic regulatory protein (SARP)

Author

Garg, Ram P. and Parry, Ronald J.

Subjects

Bacterial proteins -- Physiological aspects, Bacterial proteins -- Genetic aspects, Bacterial proteins -- Research, Genetic regulation -- Research, Streptomyces -- Physiological aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, Biological sciences

Abstract

Streptomyces antibiotic regulatory proteins (SARPs) have been shown to activate transcription by binding to a tandemly arrayed set of heptameric direct repeats located around the -35 region of their cognate promoters. Experimental evidence is presented here showing that vlml is a regulatory gene in the valanimycin biosynthetic gene cluster of Streptomyces viridifaciens and encodes a protein belonging to the SARP family. The organization of the valanimycin biosynthetic gene cluster suggests that the valanimycin biosynthetic genes are located on three potential transcripts, vlmHORBCD, vlmJKL and vlmA. Disruption of vlml abolished valanimycin biosynthesis. Western blot analyses showed that VlmR and VlmA are absent from the vlml mutant and that the production of VlmK is severely diminished. These results demonstrate that the expression of these genes from the three potential transcripts is under the positive control of Vlml. The vlmA-vlmH and vlml-vlmJ intergenic regions both exhibit a pattern of heptameric direct repeats. Gel shift assays with Vlml overproduced in Escherichia coil as a C-terminal FLAG-tagged protein clearly demonstrated that Vlml binds to DNA fragments from both regions that contain these heptameric repeats. When a high-copy-number vlml expression plasmid was introduced into Streptomyces coelicolor M512, which contains mutations in the undecylprodigiosin and actinorhodin activators redD and actll-orf4, undecylprodigiosin production was restored, showing that vlml can complement a redD mutation. Introduction of the same vlml expression plasmid into an S. viridifaciens vlml mutant restored valanimycin production to wild-type levels. DOI 10.1099/mic.0.033167-0

Published

2010

18. Noncoding RNA of glutamine synthetase I modulates antibiotic production in streptomyces coelicolor A3(2)

Author

D'Alia, Davide, Nieselt, Kay, Steigele, Stephan, Muller, Jonas, Verburg, Ilse, and Takano, Eriko

Subjects

Antisense RNA -- Research, Glutamine synthetase -- Research, Streptomyces -- Genetic aspects, Streptomyces -- Research, Gene mutations -- Research, Biological sciences

Abstract

Overexpression of antisense chromosomal cis-encoded noncoding RNAss (ncRNAs) in glutamine synthetase I resulted in a decrease in growth, protein synthesis, and antibiotic production in Streptomyces coelicolor. In addition, we predicted 3,597 cis-encoded ncRNAs and validated 13 of them experimentally, including several ncRNAs that are differentially expressed in bacterial hormone-defective mutants. doi:10.1128/JB.01374-09

Published

2010

19. Null mutation analysis of an afsA-family gene, barX, that is involved in biosynthesis of the [gamma]-butyrolactone autoregulator in Streptomyces virginiae

Author

Lee, Yong Jik, Kitani, Shigeru, and Nihira, Takuya

Subjects

Gamma butyrolactone -- Physiological aspects, Gamma butyrolactone -- Research, Gene mutations -- Research, Streptomyces -- Physiological aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, Biological sciences

Abstract

Virginiae butanolide (VB) is a [gamma]-butyrolactone autoregulator that triggers production of the streptogramin antibiotic virginiamycin in Streptomyces virginiae. Our previous studies suggested that the barX gene, an afsA-family gene, is likely to participate in the regulatory pathway for the production of VB, rather than in the biosynthetic pathway of VB itself, in contrast to the function of other afsA-family genes. Mutation analysis now shows that BarX at least plays an enzymic role in the VB biosynthetic pathway. Heterologous expression of the afsA gene from Streptomyces griseus into the barX mutant partially restored the deficiency of virginiamycin production, suggesting that afsA-family genes have a common ability to synthesize the [gamma]-butyrolactone autoregulators. Taken together with previous works relating to the function of an afsA-family gene, these results support the idea that streptomycetes have two biosynthetic pathways for the [gamma]-butyrolactone autoregulators. DOI 10.1099/mic.0.032003-0

Published

2010

20. Cell wall hydrolases affect germination, vegetative growth, and sporulation in streptomyces coelicolor

Author

Haiser, Henry J., Yousef, Mary R., and Elliot, Marie A.

Subjects

Peptidoglycans -- Physiological aspects, Peptidoglycans -- Research, Bacterial cell walls -- Physiological aspects, Bacterial cell walls -- Research, Streptomyces -- Growth, Streptomyces -- Genetic aspects, Streptomyces -- Research, Germination -- Research, Hydrolases -- Physiological aspects, Hydrolases -- Research, Enzymes -- Physiological aspects, Enzymes -- Research, Company growth, Biological sciences

Abstract

Peptidoglycan is a major cell wall constituent of gram-positive bacteria. It is a dynamic macromolecule that is actively remodeled to enable cell growth and differentiation through a tightly choreographed interplay of hydrolytic and biosynthetic enzyme activities. The filamentous bacterium Streptomyces coelicolor has a complex life cycle that likely requires considerable cell wall remodeling to enable both extension of vegetative hyphae and formation of differentiated cell types. In silico analysis of the S. coelicolor genome enabled identification of 56 candidate cell wall hydrolase genes. We found that seven of these genes shared a highly conserved 5' untranslated region and were expressed during both vegetative growth and sporulation; four of these genes were selected for more extensive biochemical and biological characterization. The proteins encoded by these genes, termed RpfA, SwIA, SwIB, and SwlC, were confirmed to be hydrolytic enzymes, as they could efficiently cleave S. coelicolor cell walls. Phenotypic analyses revealed that these enzymes are important throughout development; deletion of each hydrolase gene resulted in a mutant strain that was heat sensitive, defective in spore formation, and either altered in vegetative growth or delayed in spore germination. Our results indicate that these enzymes play key roles at multiple stages in the growth and development of S. coelicolor, highlighting both the lack of redundancy in hydrolase activity and the importance of cell wall remodeling in the S. coelicolor life cycle. doi: 10.1128/JB.00767-09

Published

2009

21. One of the two genes encoding nucleoid-associated HU proteins in streptomyces coelicolor is developmentally regulated and specifically involved in spore maturation

Author

Salerno, Paola, Larsson, Jessica, Bucca, Giselda, Laing, Emma, Smith, Colin P., and Flardh, Klas

Subjects

Spores (Bacteria) -- Physiological aspects, Spores (Bacteria) -- Genetic aspects, Spores (Bacteria) -- Research, Streptomyces -- Genetic aspects, Streptomyces -- Research, Homology (Biology) -- Research, Biological sciences

Abstract

Streptomyces genomes encode two homologs of the nucleoid-associated HU proteins. One of them, here designated HupA, is of a conventional type similar to E. coli HU[alpha] and HU[beta], while the other, HupS, is a two-domain protein. In addition to the N-terminal part that is similar to that of HU proteins, it has a C-terminal domain that is similar to the alanine- and lysine-rich C termini of eukaryotic linker histones. Such two-domain HU proteins are found only among Actinobacteria. In this phylum some organisms have only a single HU protein of the type with a C-terminal histone Hl-like domain (e.g., Hip in Mycobacterium smegmatis), while others have only a single conventional HU. Yet others, including the streptomycetes, produce both types of HU proteins. We show here that the two HU genes in Streptomyces coelicoior are differentially regulated and that hupS is specifically expressed during sporulation, while hupA is expressed in vegetative hyphae. The developmental upregulation of hupS occurred in sporogenic aerial hyphal compartments and was dependent on the developmental regulators whiA, whiG, and whiI. HupS was found to be nucleoid associated in spores, and a hupS deletion mutant had an average nucleoid size in spores larger than that in the parent strain. The mutant spores were also defective in heat resistance and spore pigmentation, although they possessed apparently normal spore walls and displayed no increased sensitivity to detergents. Overall, the results show that HupS is specifically involved in sporulation and may affect nucleoid architecture and protection in spores of S. coelicolor. doi: 10.1128/JB.00709-09

Published

2009

22. Reciprocal regulation between SigK and differentiation programs in streptomyces coelicolor

Author

Mao, Xu-Ming, Zhou, Zhan, Hou, Xiao-Ping, Guan, Wen-Jun, and Li, Yong-Quan

Subjects

Streptomyces -- Health aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, Antibiotics -- Production processes, Gene expression -- Research, Biological sciences

Abstract

Here we reported that deletion of SigK (SCO6520), a sigma factor in Streptomyces coelicolor, caused an earlier switch from vegetative mycelia to aerial mycelia and higher expression of chpE and chpH than that in the wild type. Loss of SigK also resulted in accelerated and enhanced production of antibiotics, actinorhodin, and undecylprodigiosin and increased expression of actII-orf4 and redD. These results suggested that SigK had a negative role in morphological transition and secondary metabolism. Furthermore, the sigK promoter (sigKp) activity gradually increased and sigK expression was partially dependent on SigK, but this dependence decreased during the developmental course of substrate mycelia. Meanwhile, two potentially nonspecific cleavages occurred between SigK and green fluorescent protein, and the SigK fusion proteins expressed under the constitutive promoter ermEp* sharply decreased and disappeared when aerial mycelia emerged. If expressed under sigKp, 3FLAG-SigK showed similar dynamic patterns but did not decrease as sharply as SigK expressed under ermEp*. These data suggested that the climbing expression of sigK might reduce the prompt degradation of SigK during vegetative hypha development for the proper timing of morphogenesis and that SigK vanished to remove the block for the emergence of aerial mycelia. Thus, we proposed that SigK had inhibitory roles on developmental events and that these inhibitory effects may be released by SigK degradation. doi: 10.1128/JB.00875-09

Published

2009

23. CebR as a master regulator for cellulose/cellooligosaccharide catabolism affects morphological development in Streptomyces griseus

Author

Marushima, Kazuya, Ohnishi, Yasuo, and Horinouchi, Sueharu

Subjects

Cellulose -- Physiological aspects, Cellulose -- Research, Oligosaccharides -- Physiological aspects, Oligosaccharides -- Research, Streptomyces -- Physiological aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, Genetic transcription -- Research, Biological sciences

Abstract

Streptomyces griseus mutants exhibiting deficient glucose repression of [beta]-galactosidase activity on lactosecontaining minimal medium supplemented with a high concentration of glucose were isolated. One of these mutants had a 12-bp deletion in cebR, which encodes a LacI/GalR family regulator. Disruption of cebR in the wild-type strain caused the same phenotype as the mutant, indicating that CebR is required for glucose repression of [beta]-galactosidase activity. Recombinant CebR protein bound to a 14-bp inverted-repeat sequence (designated the CebR box) present in the promoter regions of cebR and the putative cellobiose utilization operon, cebEFG-bglC. The DNA-binding activity of CebR was impaired by cellooligosaccharides, including cellobiose, cellotriose, cellotetraose, cellopentaose, and cellohexaose. In agreement with this observation, transcription from the cebE and cebR promoters was greatly enhanced by the addition of cellobiose to the medium. Seven other genes containing one or two CebR boxes in their upstream regions were found in the S. griseus genome. Five of these genes encode putative secreted proteins: two cellulases, a cellulose-binding protein, a pectate lyase, and a protein of unknown function. These five genes and cebEFG-bglC were transcribed at levels 4 to 130 times higher in the AcebR mutant than in the wild-type strain, as determined by quantitative reverse transcription-PCR. These findings indicate that CebR is a master regulator of cellulose/cellooligosaccharide catabolism. Unexpectedly, the AcebR mutant formed very few aerial hyphae on lactose-containing medium, demonstrating a link between carbon source utilization and morphological development. doi: 10.1128/JB.00703-09

Published

2009

24. Streptomyces roseoverticillatus produces two different poly(amino acid)s: lariat-shaped [gamma]-poly(L-glutamic acid) and [epsilon]-poly(L-lysine)

Author

Nishikawa, Masanobu and Kobayashi, Kei

Subjects

Amino acids -- Physiological aspects, Amino acids -- Genetic aspects, Amino acids -- Research, Microbial metabolism -- Genetic aspects, Microbial metabolism -- Research, Streptomyces -- Physiological aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, Biological sciences

Abstract

The poly(amino acid)s [gamma]-poly(DL-glutamic acid) (gPGA) and [epsilon]-poly(L-lysine) (ePL) are known to be natural linear poly(amino acid)s secreted by Bacillus spp. and Streptomyces spp., respectively. In this study, a Streptomyces strain producing both ePL and gPGA was identified. Mass spectrometry and other analyses revealed that the gPGA is a mixture of oligomers consisting of 10-13 L-glutamic acid residues linked by isopeptide bonds. In contrast to the known Bacillus gPGA, the glutamic acid oligomers have a cyclodehydrated structure in each molecule. We previously reported that the ePL molecules secreted by the same Streptomyces strain disperse only slightly in an agar culture plate, as though they were larger molecules. This phenomenon is explicable by the observed polyion complex formation between the glutamic acid oligomers and ePLs. The glutamic acid oligomers control the ePL's dispersion, which would also affect the spatial distribution of the ePL's antimicrobial activity. Therefore, gene clustering or common use of the gene was presumed for biosynthesis of the two poly(amino acid)s. However, no gene for biosynthesis of the glutamic acid oligomer was found in the neighbouring region of that for ePL biosynthesis, and the glutamic acid oligomer was produced by a mutant in which the ePL biosynthetic gene was inactivated by gene disruption.

Published

2009

25. DNA microarray analysis of global gene regulation by A-factor in Streptomyces griseus

Author

Hara, Hirofumi, Ohnishi, Yasuo, and Horinouchi, Sueharu

Subjects

Gene expression -- Research, Streptomyces -- Health aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, DNA microarrays -- Usage, Biological sciences

Abstract

A-factor (2-isocapryloyl-3R-hydroxymethyl-[gamma]-butyrolactone) is a microbial hormone that triggers morphological differentiation and secondary metabolism in Streptomyces griseus. The effects of A-factor on global gene expression were determined by DNA microarray analysis of transcriptomes obtained with the A-factor-deficient mutant [DELTA]afsA. A-factor was added at a concentration of 25 ng [ml.sup.-1] to mutant [DELTA]afsA at the middle of the exponential growth phase, and RNA samples were prepared from the cells grown after A-factor addition for a further 5, 15 and 30 min, and 1, 2, 4, 8 and 12 h. The effects of A-factor on transcription of all protein-coding genes of S. griseus were evaluated by comparison of the transcriptomes with those obtained from cells grown in the absence of A-factor. Analysis of variance among the transcriptomes revealed that 477 genes, which were dispersed throughout the chromosome, were differentially expressed during the 12 h after addition of A-factor, when evaluated by specific criteria. Quality threshold clustering analysis with regard to putative polycistronic transcriptional units and levels of upregulation predicted that 152 genes belonging to 74 transcriptional units were probable A-factor-inducible genes. Competitive electrophoretic mobility shift assays using DNA fragments including putative promoter regions of these 74 transcriptional units suggested that AdpA bound 37 regions to activate 72 genes in total. Many of these A-factor-inducible genes encoded proteins of unknown function, suggesting that the A-factor regulatory cascade of S. griseus affects gene expression at a specific time point more profoundly than expected.

Published

2009

26. Transmembrane topology of the AbsA1 sensor kinase of Streptomyces coelicolor

Author

McKenzie, Nancy L. and Nodwell, Justin R.

Subjects

Cell membranes -- Physiological aspects, Cell membranes -- Research, Phosphotransferases -- Physiological aspects, Phosphotransferases -- Research, Streptomyces -- Physiological aspects, Streptomyces -- Research, Biological sciences

Abstract

The sensor kinase AbsA1 (SCO3225) phosphorylates the response regulator AbsA2 (SCO3226) and dephosphorylates AbsA2~P. The phosphorylated response regulator represses antibiotic biosynthesis operons in Streptomyces coelicolor. AbsA1 was predicted to have an atypical transmembrane topology, and the location of its signal-sensing domain is not readily obvious. To better understand this protein and to gain insight into its signal response mechanism, we determined its transmembrane topology using fusions of absA1 to egfp, which is believed to be the first application of this approach to transmembrane topology in the actinomycetes. Our results are in agreement with the in silico topological predictions and demonstrate that AbsA1 has five transmembrane domains, four near the N terminus and one near the C terminus. Unlike most sensor kinases, the largest extracellular portion of AbsA1 is at the C terminus.

Published

2009

27. PolR, a pathway-specific transcriptional regulatory gene, positively controls polyoxin biosynthesis in Streptomyces cacaoi subsp. asoensis

Author

Li, Rui, Xie, Zhoujie, Tian, Yuqing, Yang, Haihua, Chen, Wenqing, You, Delin, Liu, Gang, Deng, Zixin, and Tan, Huarong

Subjects

Genes -- Physiological aspects, Genes -- Research, Streptomyces -- Physiological aspects, Streptomyces -- Research, Genetic transcription -- Research, Biological sciences

Abstract

The polyoxin (POL) biosynthetic gene cluster (pol) was recently cloned from Streptomyces cacaoi subsp. asoensis. A 3.3 kb DNA fragment carrying an obvious open reading frame (polR), whose deduced product shows sequence similarity to SanG of Streptomyces ansochromogenes and PimR of Streptomyces natalensis, was revealed within the pol gene cluster. Disruption of polR abolished POL production, which could be complemented by the integration of a single copy of polR into the chromosome of the non-producing mutant. The introduction of an extra copy of polR in the wild-type strain resulted in increased production of POLs. The transcription start point (tsp) of polR was determined by S1 mapping. Reverse transcriptase PCR experiments showed that PolR is required for the transcription of 18 structural genes in the pol gene cluster. Furthermore, we showed that polC and polB, the respective first genes of two putative operons (polC-polQ2 and polA-polB) consisting of 16 and 2 of these 18 genes, have similar promoter structures. Gel retardation assays indicated that PolR has specific DNA-binding activity for the promoter regions of polC and polB. Our data suggest that PolR acts in a positive manner to regulate POL production by activating the transcription of at least two putative operons in the pol gene cluster.

Published

2009

28. Phosphate and carbon source regulation of two PhoP-dependent glycerophosphodiester phosphodiesterase genes of Streptomyces coelicolor

Author

Santos-Beneit, Fernando, Rodriguez-Garcia, Antonio, Apel, Alexander K., and Martin, Juan F.

Subjects

Genetic code -- Research, Phosphodiesterases -- Research, Phosphodiesterases -- Physiological aspects, Phosphodiesterases -- Genetic aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, Biological sciences

Abstract

Glycerophosphodiesters are formed by deacylation of phospholipids. Streptomyces coelicolor and other soil-dwelling actinomycetes utilize glycerophosphodiesters as phosphate and carbon sources by the action of glycerophosphodiester phosphodiesterases (GDPDs). Seven genes encoding putative GDPDs occur in the S. coelicolor genome. Two of these genes, glpQ1 and glpQ2, encoding extracellular GDPDs, showed a PhoP-dependent upregulated profile in response to phosphate shiftdown. Expression studies using the luxAB genes as reporter confirmed the PhoP dependence of both glpQ1 and glpQ2. Footprinting analyses with pure GST-PhoP of the glpQ1 promoter revealed four protected direct repeat units (DRu). PhoP binding affinity to the glpQ2 promoter was lower and revealed a protected region containing five DRu. As expected for pho regulon genes, inorganic phosphate, and also glycerol 3-phosphate, inhibited the expression from both glpQ1 and glpQ2. The expression of glpQ1 was also repressed by serine and inositol but expression of glpQ2 was not. In contrast, glucose, fructose and glycerol increased expression of glpQ2 but not that of glpQ1. In summary, our results suggest an interaction of phosphate control mediated by PhoP and carbon source regulation of the glpQ1 and glpQ2 genes involving complex operator structures.

Published

2009

29. Hierarchical control of virginiamycin production in Streptomyces virginiae by three pathway-specific regulators: VmsS, VmsT and VmsR

Author

Pulsawat, Nattika, Kitani, Shigeru, Fukushima, Eriko, and Nihira, Takuya

Subjects

Antibiotics -- Production processes, Antibiotics -- Genetic aspects, Antibiotics -- Research, Gene expression -- Research, Microbial metabolism -- Genetic aspects, Microbial metabolism -- Research, Streptomyces -- Physiological aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, Biological sciences

Abstract

Two regulatory genes encoding a Streptomyces antibiotic regulatory protein (vmsS) and a response regulator (vmsT) of a bacterial two-component signal transduction system are present in the left-hand region of the biosynthetic gene cluster of the antibiotic virginiamycin, which is composed of virginiamycin M (VM) and virginiamycin S (VS), in Streptomyces virginiae. Disruption of vmsS abolished both VM and VS biosynthesis, with drastic alteration of the transcriptional profile for virginiamycin biosynthetic genes, whereas disruption of vmsT resulted in only a loss of VM biosynthesis, suggesting that vmsS is a pathway-specific regulator for both VM and VS biosynthesis, and that vmsT is a pathway-specific regulator for VM biosynthesis alone. Gene expression profiles determined by semiquantitative RT-PCR on the virginiamycin biosynthetic gene cluster demonstrated that vmsS controls the biosynthetic genes for VM and VS, and vmsT controls unidentified gene(s) of VM biosynthesis located outside the biosynthetic gene cluster. In addition, transcriptional analysis of a deletion mutant of vmsR located in the clustered regulatory region in the virginiamycin cluster (and which also acts as a SARP-family activator for both VM and VS biosynthesis) indicated that the expression of vmsS and vmsT is under the control of vmsR, and vmsR also contributes to the expression of VM and VS biosynthetic genes, independent of vmsS and vmsT. Therefore, coordinated virginiamycin biosynthesis is controlled by three pathway-specific regulators which hierarchically control the expression of the biosynthetic gene cluster.

Published

2009

30. 2-Alkyl-4-hydroxymethylfuran-3-carboxylic acids, antibiotic production inducers discovered by Streptomyces coelicolor genome mining

Author

Corre, Christophe, Song, Lijiang, O'Rourke, Sean, Chater, Keith F., and Challis, Gregory L.

Subjects

Antibiotics -- Production processes, Antibiotics -- Research, Quorum sensing -- Health aspects, Quorum sensing -- Research, Streptomyces -- Usage, Streptomyces -- Genetic aspects, Streptomyces -- Research, Science and technology

Abstract

All of the genetic elements necessary for the production of the antibiotic methylenomycin (Mm) and its regulation are contained within the 22-kb mmy-mmf gene cluster, which is located on the 356-kb linear plasmid SCP1 of Streptomyces coelicolor A3(2). A putative operon of 3 genes within this gene cluster, mmfLHP, was proposed to direct the biosynthesis of an A-factor-like signaling molecule, which could play a role in the regulation of Mm biosynthesis. The mmfLHP operon was expressed under the control of its native promoter in S. coelicolor M512, a host lacking the SCP1 plasmid, and the ability to produce prodiginine and actinorhodin antibiotics. Comparative metabolic profiling led to the identification and structure elucidation of a family of 5 new 2-alkyl-4-hydroxymethylfuran-3-carboxylic acids (AHFCAs), collectively termed Mm furans (MMFs), as the products of the mmfLHP genes. MMFs specifically induce the production of the Mm antibiotics in S. coelicolor. Comparative genomics analyses and searches of the natural product chemistry literature indicated that other streptomycetes may produce AHFCAs, suggesting that they could form a general class of antibiotic biosynthesis inducers in Streptomyces species, with analogous functions to the better known [gamma]-butyrolactone regulatory molecules. methylenomycin | autoregulator | [gamma]-butyrolactone | biosynthesis | quorum sensing

Published

2008

31. The endonuclease activity of RNase III is required for the regulation of antibiotic production by Streptomyces coelicolor

Author

Gravenbeek, Marcha L. and Jones, George H.

Subjects

RNA polymerases -- Analysis, Streptomyces -- Research, Streptomyces -- Genetic aspects, Protein binding -- Analysis, Antibiotics -- Research, Genetic regulation -- Research, Biological sciences

Abstract

The double strand-specific endoRNase RNase III globally regulates the production of antibiotics by Streptomyces coeficolor. We have undertaken studies to determine whether the endoRNase activity of S. coeficolor RNase III or its RNA binding activity is responsible for its regulatory function. We show that an rnc null mutant of S. coelicolor M145 does not produce actinorhodin or undecylprodigiosin. Restoring a wild-type copy of rnc to that mutant also restored antibiotic production. We constructed an rnc point mutant, D70A, in which an aspartic acid residue which is essential for the catalytic activity of RNase III was changed to alanine. The D70A mutation abolished the catalytic activity of the protein but not its ability to bind to RNA substrates. Introduction of a copy of the DTOA gene into the rnc null mutant did not restore antibiotic production. This result suggests that the endoRNase activity of RNase III is required for the regulation of antibiotic production in S. coeficolor. We also reconstructed the C120 point mutation that was originally described in 1992. Although that mutation diminished antibiotic production by S. coeficolor, we confirm here that the C120 protein retains some RNase III activity.

Published

2008

32. The msiK gene, encoding the ATP-hydrolysing component of N,N'-diacetylchitobiose ABC transporters, is essential for induction of chitinase production in Streptomyces coelicolor A3(2)

Author

Saito, Akihiro, Fujii, Takeshi, Shinya, Tomonori, Shibuya, Naoto, Ando, Akikazu, and Miyashita, Kiyotaka

Subjects

Streptomyces -- Research, Streptomyces -- Genetic aspects, Gene mutations -- Research, Chitin -- Analysis, Biological sciences

Abstract

The dasABC genes encode an ATP-binding cassette (ABC) transporter, which is one of the uptake systems for N,N'-diacetylchitobiose [[(GIcNAc).sub.2]] in Streptomyces coelicolor A3(2), although the gene encoding the ABC subunit that provides ATP hydrolysis for DasABC has not been identified. In this study, we disrupted the sequence that is highly homologous to the msiK gene, the product of which is an ABC subunit assisting several ABC permeases in other Streptomyces species. Disruption of msiK severely affected the ability of S. coeficolor A3(2) to utilize maltose, cellobiose, starch, cellulose, chitin and chitosan, but not glucose. The msiK null mutant lacked [(GIcNAc).sub.2]-uptake activity, but GIcNAc transport activity was unaffected. The data indicated that msiK is essential for [(GIcNAc).sub.2] uptake, which in S. coelicolor A3(2) is governed by ABC transporters including the DasABC-MsiK system, in contrast to Escherichia coil and Serratia marcescens, in which [(GIcNAc).sub.2] uptake is mediated by the phosphotransferase system. Interestingly, the induction of chitinase production by [(GIcNAc).sub.2] or chitin was absent in the msiK null mutant, unlike in the parent strain M145. The defect in chitinase gene induction was rescued by expressing the His-tagged MsiK protein under the control of the putative native promoter on a multicopy plasmid. The data suggest that uptake of [(GIcNAc).sub.2] is necessary for induction of chitinase production. The msiK gene was constitutively transcribed, whereas the transcription of dasA [[(GIcNAc).sub.2]-binding protein gene], malE (putative maltose-binding protein gene), cebE1 (putative cellobiose-binding protein gene) and bxlE1 (putative xylobiose-binding protein gene) was induced by their corresponding sugar ligands. This is believed to be the first report to indicate that [(GIcNAc).sub.2] uptake mediated by ABC transporters is essential for chitinase production in streptomycetes, which are known to be the main degraders of chitin in soil.

Published

2008

33. Identification of TmcN as a pathway-specific positive regulator of tautomycetin biosynthesis in Streptomyces sp. CK4412

Author

Hur, Yoon-Ah, Choi, Si-Sun, Sherman, David H., and Kim, Eung-Soo

Subjects

Immunosuppressive agents -- Analysis, Streptomyces -- Genetic aspects, Streptomyces -- Research, Genetic research, Biological sciences

Abstract

Tautomycetin (TMC) is a novel activated T-cell-specific immunosuppressive compound with a unique structure, containing an ester bond linkage between a terminal cyclic anhydride moiety and a linear polyketide chain bearing an unusual terminal alkene. A 3 kb gene, tmcN, with a deduced product of 1029 amino acid residues, located on the 3'-terminus of an approximately 70 kb contiguous TMC biosynthetic gene cluster, was found to have amino acid sequence homology with bacterial regulatory proteins. In silico database comparisons revealed that TmcN belongs to the large ATP-binding regulators of the LuxR protein family. Gene disruption of tmcN from the Streptomyces sp. CK4412 chromosome resulted in significantly reduced antifungal activity against Aspergillus niger, as well as the absence of TMC. In addition, complementation by an integrative plasmid carrying tmcN restored TMC biosynthesis, strongly suggesting that TmcN is a positive regulator of TMC biosynthesis. Gene expression analysis by RT-PCR of the TMC biosynthetic genes revealed that a TmcN mutant strain exhibited reduced expression levels for most of the biosynthetic genes except for its own tmcN. It is thus suggested that TmcN is a pathway-specific positive regulator that activates transcription of the TMC biosynthetic pathway genes in Streptomyces sp. CK4412.

Published

2008

34. Characterization of an inducible, antibiotic-resistant aminoacyl-tRNA synthetase gene in Streptomyces coelicolor

Author

Vecchione, James J. and Sello, Jason K.

Subjects

Drug resistance in microorganisms -- Research, Drug resistance in microorganisms -- Genetic aspects, Streptomyces -- Research, Streptomyces -- Genetic aspects, Transfer RNA -- Research, Genetic research, Biological sciences

Abstract

Streptomyces coelicolor has two genes encoding tryptophanyl-tRNA synthetases, one of which (trpRS1) is resistant to and transcriptionally activated by indolmycin. We found that this gene also confers resistance to chuangxinmycin (another antibiotic that inhibits bacterial tryptophanyl-tRNA synthetases) and that its transcription is not absolutely dependent on either antibiotic.

Published

2008

35. Function and redundancy of the Chaplin cell surface proteins in aerial hypha formation, rodlet assembly, and viability in Streptomyces coelicolor

Author

Berardo, Christina Di, Capstick, David S., Bibb, Maureen J., Findlay, Kim C., Buttner, Mark J., and Elliot, Marie A.

Subjects

Cell surface antigens -- Physiological aspects, Cell surface antigens -- Structure, Cell surface antigens -- Research, Streptomyces -- Physiological aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, Biological sciences

Abstract

The chaplins are a family of eight secreted proteins that are critical for raising aerial hyphae in Streptomyces coelicolor. These eight chaplins can be separated into two main groups: the long chaplins (ChpA to -C) and the short chaplins (ChpD to -H). The short chaplins can be further subdivided on the basis of their abilities to form intramolecular disulfide bonds: ChpD, -F, -G, and -H contain two Cys residues, while ChpE has none. A 'minimal chaplin strain' containing only chpC, chpE, and chpH was constructed and was found to raise a substantial aerial mycelium. This strain was used to examine the roles of specific chaplins. Within this strain, the Cys-containing ChpH was identified as the major polymerization unit contributing to aerial hypha formation and assembly of an intricate rodlet ultrastructure on the aerial surfaces, and the two Cys residues were determined to be critical for its function. ChpC augmented aerial hypha formation and rodlet assembly, likely by anchoring the short chaplins to the cell surface, while ChpE was essential for the viability of wild-type S. coelicolor. Interestingly, the lethal effects of a chpE null mutation could be suppressed by the loss of the other chaplins, the inactivation of the twin arginine translocation (Tat) secretion pathway, or the loss of the rodlins.

Published

2008

36. Phosphate-dependent regulation of the low- and high-affinity transport systems in the model actinomycete Streptomyces coelicolor

Author

Santos-Beneit, Fernando, Rodriguez-Garcia, Antonio, Franco-Dominguez, Etelvina, and Martin, Juan F.

Subjects

Biological transport -- Physiological aspects, Biological transport -- Genetic aspects, Biological transport -- Research, Phosphates -- Physiological aspects, Phosphates -- Research, Streptomyces -- Physiological aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, Biological sciences

Abstract

The transport of inorganic phosphate ([P.sub.i]) is essential for the growth of all organisms. The metabolism of soil-dwelling Streptomyces species, and their ability to produce antibiotics and other secondary metabolites, are strongly influenced by the availability of phosphate. The transcriptional regulation of the SCO4138 and SCO1845 genes of Streptomyces coelicolor was studied. These genes encode the two putative low-affinity Pi transporters PitH1 and PitH2, respectively. Expression of these genes and that of the high-affinity transport system pstSCAB follows a sequential pattern in response to phosphate deprivation, as shown by coupling their promoters to a luciferase reporter gene. Expression of pitH2, but not that of pap-pitH1 (a bicistronic transcript), is dependent upon the response regulator PhoP. PhoP binds to specific sequences consisting of direct repeats of 11 nt in the promoter of pitH2, but does not bind to the pap-pitH1 promoter, which lacks these direct repeats for PhoP recognition. The transcription start point of the pitH2 promoter was identified by primer extension analyses, and the structure of the regulatory sequences in the PhoP-protected DNA region was established. It consists of four central direct repeats flanked by two other less conserved repeats. A model for PhoP regulation of this promoter is proposed based on the four promoter DNA-PhoP complexes detected by electrophoretic mobility shift assays and footprinting studies.

Published

2008

37. Spontaneous amplification of the actinorhodin gene cluster in Streptomyces coelicolor involving native insertion sequence IS466

Author

Widenbrant, E.M., Tsai, Hsiu-Hui, Chen, Carton W., and Kao, C.M.

Subjects

Streptomyces -- Genetic aspects, Streptomyces -- Research, Gene amplification -- Research, Antibiotics -- Research, Microbiological synthesis -- Research, Biological sciences

Abstract

We observed a spontaneous amplification of the Streptomyces coelicolor chromosome, including genes encoding biosynthetic enzymes of the antibiotic actinorhodin. A new junction of two tandem segments has, inserted within it, a third copy of a transposable element existing in two places elsewhere in the chromosome, suggesting its involvement in the amplification mechanism.

Published

2008

38. CabC, an EF-hand calcium-binding protein, is involved in [Ca.sup.2+]-mediated regulation of spore germination and aerial hypha formation in Streptomyces coelicolor

Author

Wang, Sheng-Lan, Fan, Ke-Qiang, Yang, Xu, Lin, Zeng-Xi, Xu, Xin-Ping, and Yang, Ke-Qian

Subjects

Calcium-binding proteins -- Physiological aspects, Calcium-binding proteins -- Genetic aspects, Calcium-binding proteins -- Research, Germination -- Physiological aspects, Germination -- Research, Streptomyces -- Physiological aspects, Streptomyces -- Research, Biological sciences

Abstract

[Ca.sup.2+] was reported to regulate spore germination and aerial hypha formation in streptomycetes; the underlying mechanism of this regulation is not known, cabC, a gene encoding an EF-hand calcium-binding protein, was disrupted or overexpressed in Streptomyces coelicolor M145. On R5- agar, the disruption of cabC resulted in denser aerial hyphae with more short branches, swollen hyphal tips, and early-germinating spores on the spore chain, while cabC overexpression significantly delayed development. Manipulation of the [Ca.sup.2+] concentration in R5- agar could reverse the phenotypes of cabC disruption or overexpression mutants and mimic mutant phenotypes with M145, suggesting that the mutant phenotypes were due to changes in the intracellular [Ca.sup.2+] concentration. CabC expression was strongly activated in aerial hyphae, as determined by Western blotting against CabC and confocal laser scanning microscopy detection of CabC::enhanced green fluorescent protein (EGFP). CabC::EGFP fusion proteins were evenly distributed in substrate mycelia, aerial mycelia, and spores. Taken together, these results demonstrate that CabC is involved in [Ca.sup.2+]-mediated regulation of spore germination and aerial hypha formation in S. coelicolor. CabC most likely acts as a [Ca.sup.2+] buffer and exerts its regulatory effects by controlling the intracellular [Ca.sup.2+] concentration.

Published

2008

39. Genome sequence of the streptomycin-producing microorganism Streptomyces griseus IFO 13350

Author

Ohnishi, Yasuo, Ishikawa, Jun, Hara, Hirofumi, Suzuki, Hirokazu, Ikenoya, Miwa, Ikeda, Haruo, Yamashita, Atsushi, Hattori, Masahira, and Horinouchi, Sueharu

Subjects

Nucleotide sequence -- Physiological aspects, Nucleotide sequence -- Research, DNA microarrays -- Usage, DNA microarrays -- Analysis, Streptomyces -- Genetic aspects, Streptomyces -- Research, Biological sciences

Abstract

We determined the complete genome sequence of Streptomyces griseus IFO 13350, a soil bacterium producing an antituberculosis agent, streptomycin, which is the first aminoglycoside antibiotic, discovered more than 60 years ago. The linear chromosome consists of 8,545,929 base pairs (bp), with an average G + C content of 72.2%, predicting 7,138 open reading frames, six rRNA operons (16S-23S-5S), and 66 tRNA genes. It contains extremely long terminal inverted repeats (TIRs) of 132,910 bp each. The telomere's nucleotide sequence and secondary structure, consisting of several palindromes with a loop sequence of 5'-GGA-3', are different from those of typical telomeres conserved among other Streptomyces species. In accordance with the difference, the chromosome has pseudogenes for a conserved terminal protein (Tpg) and a telomere-associated protein (Tap), and a novel pair of Tpg and Tap proteins is instead encoded by the TIRs. Comparisons with the genomes of two related species, Streptomyces coelicolor A3(2) and Streptomyces avermitilis, clarified not only the characteristics of the S. griseus genome but also the existence of 24 Streptomyces-specific proteins. The S. griseus genome contains 34 gene clusters or genes for the biosynthesis of known or unknown secondary metabolites. Transcriptome analysis using a DNA microarray showed that at least four of these clusters, in addition to the streptomycin biosynthesis gene cluster, were activated directly or indirectly by AdpA, which is a central transcriptional activator for secondary metabolism and morphogenesis in the A-factor (a [gamma]-butyrolactone signaling molecule) regulatory cascade in S. griseus.

Published

2008

40. DNA polymerase I is not required for replication of linear chromosomes in Streptomyces

Author

Huang, Tzu-Wen and Chen, Carton W.

Subjects

DNA polymerases -- Physiological aspects, DNA polymerases -- Research, DNA replication -- Research, Streptomyces -- Genetic aspects, Streptomyces -- Research, Gene mutations -- Research, Bacterial genetics -- Research, Biological sciences

Abstract

Both polA (encoding DNA polymerase I; Pol I) and a paralog were deleted from Streptomyces strains. Despite the UV sensitivity and slow growth caused by the [DELTA]polA mutation, the double mutant was viable. Thus, in contrast to a previous postulate, Pol I and its paralog are not essential for replication of Streptomyces chromosomes.

Published

2008

41. Dioctatin A is a strong inhibitor of aflatoxin production by Aspergillus parasiticus

Author

Yoshinari, Tomoya, Akiyama, Tetsuo, Nakamura, Keita, Kondo, Tatsuhiko, Takahashi, Yoshikazu, Muraoka, Yasuhiko, Nonomura, Yoshiaki, Nagasawa, Hiromichi, and Sakuda, Shohei

Subjects

Aflatoxins -- Production processes, Aflatoxins -- Research, Streptomyces -- Genetic aspects, Streptomyces -- Research, Aminopeptidases -- Research, Aspergillus -- Genetic aspects, Aspergillus -- Research, Biological sciences

Abstract

Dioctatin A (DotA), a metabolite of Streptomyces, is known to be an inhibitor of human dipeptidyl aminopeptidase II. Here, it was found that DotA strongly inhibited aflatoxin production by Aspergillus parasiticus, with an [IC.sub.50] value of 4.0 [micro]M. The mycelial growth of the fungus was not affected by the addition of DotA at a concentration of 50 [micro]M, but inhibition of conidiation was observed at the same concentration. DotA inhibited production of norsolorinic acid, an early biosynthetic intermediate of aflatoxin, and it strongly reduced the mRNA levels of genes encoding aflatoxin biosynthetic enzymes, and significantly decreased the mRNA level of aflR, which encodes a key regulatory protein for aflatoxin biosynthesis. In addition to these genes, the mRNA level of brlA, which encodes a conidiation-specific transcription factor, was also reduced by the addition of DotA. It was also found that DotA dramatically enhanced kojic acid production by the fungus. Furthermore, DotA inhibited production of sterigmatocystin, which is a toxic aflatoxin biosynthetic intermediate, and it also inhibited conidiation in Aspergillus nidulans. These results indicate that DotA has pleiotropic effects on regulatory mechanisms of fungal secondary metabolite production and differentiation, leading to inhibition of aflatoxin production.

Published

2007

42. pcd mutants of Streptomyces clavuligerus still produce cephamycin C

Author

Alexander, Dylan C., Anders, Cecilia L., Lee, Linda, and Jensen, Susan E.

Subjects

Streptomyces -- Genetic aspects, Streptomyces -- Research, Biosynthesis -- Research, Lysine -- Research, Gene mutations -- Research, Biological sciences

Abstract

Biosynthesis of cephamycin C in Streptomyces clavuligerus involves the initial conversion of lysine to [alpha]-aminoadipic acid. Lysine-6-aminotransferase and piperideine-6-carboxylate dehydrogenase carry out this two-step reaction, and genes encoding each of these enzymes are found within the cephamycin C gene cluster. However, while mutation of the lat gene causes complete loss of cephamycin production, pcd mutants still produce cephamycin at 30% to 70% of wild-type levels. Cephamycin production by pcd mutants could be restored to wild-type levels either by supplementation of the growth medium with [alpha]-aminoadipic acid or by complementation of the mutation with an intact copy of the pcd gene. Neither heteroiogous PCR nor Southern analyses showed any evidence for the presence of a second pcd gene. Furthermore, cell extracts from pcd mutants lack detectable PCD activity. Cephamycin production in the absence of detectable PCD activity suggests that S. clavuligerus must have some alternate means of producing the aminoadipyl-cysteinyl-valine needed for cephamycin biosynthesis.

Published

2007

43. Phosphorylated AbsA2 negatively regulates antibiotic production in streptomyces coelicolor through interactions with pathway-specific regulatory gene promoters

Author

McKenzie, Nancy L. and Nodwell, Justin R.

Subjects

Streptomyces -- Genetic aspects, Streptomyces -- Research, Gene expression -- Research, Biosynthesis -- Research, Phosphorylation -- Research, Biological sciences

Abstract

The AbsA two-component signal transduction system, comprised of the sensor kinase AbsA1 and the response regulator AbsA2, acts as a negative regulator of antibiotic production in Streptomyces coelicolor, for which the phosphorylated form of AbsA2 (AbsA2--P) is the agent of repression. In this study, we used chromatin immunoprecipitation to show that AbsA2 binds the promoter regions of actII-ORF4, cdaR, and redZ, which encode pathway-specific activators for actinorhodin, calcium-dependent antibiotic, and undecylprodigiosin, respectively. We confirm that these interactions also occur in vitro and that the binding of AbsA2 to each gene is enhanced by phosphorylation. Induced expression of actII-ORF4 and redZ in the hyperrepressive absA1 mutant (C542) brought about pathway-specific restoration of actinorhodin and undecylprodigiosin production, respectively. Our results suggest that AbsA2-P interacts with as many as four sites in the region that includes the actII-ORF4 promoter. These data suggest that AbsA2-P inhibits antibiotic production by directly interfering with the expression of pathway-specific regulators of antibiotic biosynthetic gene clusters.

Published

2007

44. Roles of rapH and rapG in positive regulation of rapamycin biosynthesis in Streptomyces hygroscopicus

Author

Kuscer, Enej, Coates, Nigel, Challis, Iain, Gregory, Matt, Wilkinson, Barrie, Sheridan, Rose, and Petkovic, Hrvoje

Subjects

Rapamycin -- Research, Biosynthesis -- Research, Streptomyces -- Genetic aspects, Streptomyces -- Research, Biological sciences

Abstract

Rapamycin is an important macrocyclic polyketide produced by Streptoyces hygroscopicus and showing immunosuppressive, antifungal, and antitumor activities as well as displaying anti-inflammatory and neuroregenerative properties. The immense pharmacological potential of rapamycin has led to the production of an array of analogues, including through genetic engineering of the rapamycin biosynthetic gene cluster. This cluster contains several putative regulatory, genes. Based on DNA sequence analysis, the products of genes rapH and rapG showed high similarities with two different families of transcriptional activators, LAL and AraC, respectively. Overexpression of either gene resulted in a substantial increase in rapamycin biosynthesis, confirming their positive regulator role, while deletion of both from the chromosome of S. hygroscopicus resulted in a complete loss of antibiotic production. Complementation studies indicated an essential role of the RapG regulator for rapamycin biosynthesis and a supportive role of RapH. A direct effect of rapH and rapG gene products on the promoter of the rapamycin polyketide synthase operon, rapA-rapB, was observed using the chalcone synthase gene rppA as a reporter system.

Published

2007

45. [gamma]-Butyrolactone autoregulator-receptor system involved in lankacidin and lankamycin production and morphological differentiation in Streptomyces rochei

Author

Arakawa, Kenji, Mochizuki, Susumu, Yamada, Kohei, Noma, Takenori, and Kinashi, Haruyasu

Subjects

Cell differentiation -- Research, Gene mutations -- Research, Streptomyces -- Genetic aspects, Streptomyces -- Research, Biological sciences

Abstract

An afsA homologue (srrX) and three [gamma]-butyrolactone receptor gene homologues (srrA, srrB and srrC) are coded on the giant linear plasmid pSLA2-L in Streptomyces rochei 7434AN4, a producer of two polyketide antibiotics, lankacidin and lankamycin. Construction of gene disruptants and their phenotypic study revealed that srrX and srrA make a [gamma]-butyrolactone receptor system in this strain. Addition of a [gamma]-butyrolactone fraction to an srrX-deficient mutant restored the production of lankacidin and lankamycin, indicating that the SrrX protein is not necessary for this event. In addition to a positive effect on antibiotic production, srrX showed a negative effect on morphological differentiation. The receptor gene srrA reversed both effects of srrX, while the second receptor gene homologue srrC had only a positive function in spore formation. Furthermore, disruption of the third homologue srrB greatly increased the production of lankacidin and lankamycin. Electron microscopic analysis showed that aerial mycelium formation stopped at a different stage in the srrA and srrC mutants. Overall, these results indicated that srrX, srrA, srrB and srrC constitute a complex regulatory system for antibiotic production and morphological differentiation in S. rochei.

Published

2007

46. Interspecies DNA microarray analysis identifies WblA as a pleiotropic down-regulator of antibiotic biosynthesis in Streptomyces

Author

Kang, Seung-Hoon, Huang, Jianqiang, Lee, Han-Na, Hur, Yoon-Ah, Cohen, Stanley N., and Kim, Eung-Soo

Subjects

DNA microarrays -- Usage, Gene expression -- Research, Biosynthesis -- Research, Streptomyces -- Genetic aspects, Streptomyces -- Research, Biological sciences

Abstract

Using Streptomyces coelicolor microarrays to discover regulators of gene expression in other Streptomyces species, we identified wbLA, a whiB-like gene encoding a putative transcription factor, as a down-regulator of doxorubicin biosynthesis in Streptomyces peucetius. Further analysis revealed that wblA functions pleiotropically to control antibiotic production and morphological differentiation in streptomycetes. Our results reveal a novel biological role for wblA and show the utility of interspecies microarray analysis for the investigation of streptomycete gene expression.

Published

2007

47. The zinc-responsive regulator zur controls a zinc uptake system and some ribosomal proteins in Streptomyces coelicolor A3(2)

Author

Shin, Jung-Ho, Oh, So-Young, Kim, Soon-Jong, and Roe, Jung-Hye

Subjects

Ribosomal proteins -- Research, Streptomyces -- Genetic aspects, Streptomyces -- Research, Zinc sulfate -- Research, Homeostasis -- Research, Biological sciences

Abstract

In various bacteria, Zur, a zin[C.sup.-]specific regulator of the Fur family, regulates genes for zinc transport systems to maintain zinc homeostasis. It has also been suggested that Zur controls zinc mobilization by regulating some ribosomal proteins. The antibioti[C.sup.-]producing soil bacterium Streptomyces coelicolor contains four genes for Fur family regulators, and one (named zur) is located downstream of the znuACB operon encoding a putative zinc uptake transporter. We found that zinc specifically repressed the level of znuA transcripts and that this level was derepressed in a [DELTA]zur mutant. Purified Zur existing as homodimers bound to the znuA promoter region in the presence of zinc, confirming the role of Zur as a zin[C.sup.-]responsive repressor. We analyzed transcripts for paralogous forms of ribosomal proteins L31 (RpmE1 and RpmE2) and L33 (RpmG2 and RpmG3) for their dependence on Zur and found that RpmE2 and RpmG2 with no zin[C.sup.-]binding motif of conserved cysteines (C's) were negatively regulated by Zur. [C.sup.-]negative RpmG3 and [C.sup.-]positive RpmE1 were not regulated by Zur. Instead, they were regulated by the sigma factor [[sigma].sup.R] as predicted from their promoter sequences. The rpmE1 and rpmG3 genes were partially induced by EDTA in a manner dependent on [[sigma].sup.R], suggesting that zinc depletion may stimulate the [[sigma].sup.R] regulatory system. This finding reflects a link between thiol-oxidizing stress and zinc depletion. We determined the Zur-binding sites within znuA and rpmG2 promoter regions by footprinting analyses and identified a consensus inverted repeat sequence ( TGaaAatgatTttCA, where uppercase letters represent the nucleotides common to all sites analyzed). This sequence closely matches that for mycobacterial Zur and allows the prediction of more genes in the Zur reguion.

Published

2007

48. Complete nucleotide sequence of the 113-kilobase linear catabolic plasmid pAL1 of Arthrobacter nitroguajacolicus Ru61a and transcriptional analysis of genes involved in quinaldine degradation

Author

Parschat, Katja, Overhage, Jorg, Strittmatter, Axel W., Henne, Anke, Gottschalk, Gerhard, and Fetzner, Susanne

Subjects

Plasmids -- Research, Cometabolism -- Research, Genetic transcription -- Research, Operons -- Research, Streptomyces -- Genetic aspects, Streptomyces -- Research, Biological sciences

Abstract

The nucleotide sequence of the linear catabolic plasmid pAL1 from the 2-methylquinoline (quinaldine)-degrading strain Arthrobacter nitroguajacolicus Ru61a comprises 112,992 bp. A total of 103 open reading frames (ORFs) were identified on pAL1, 49 of which had no annotatable function. The ORFs were assigned to the following functional groups: (i) catabolism of quinaldine and anthranilate, (ii) conjugation, and (iii) plasmid maintenance and DNA replication and repair. The genes for conversion of quinaldine to anthranilate are organized in two operons that include ORFs presumed to code for proteins involved in assembly of the quinaldine-4-oxidase holoenzyme, namely, a MobA-like putative molybdopterin cytosine dinucleotide synthase and an XdhC-like protein that could be required for insertion of the molybdenum cofactor. Genes possibly coding for enzymes involved in anthranilate degradation via 2-aminobenzoyl coenzyme A form another operon. These operons were expressed when cells were grown on quinaldine or on aromatic compounds downstream in the catabolic pathway. Single-stranded 3' overhangs of putative replication intermediates of pAL1 were predicted to form elaborate secondary structures due to palindromic and superpalindromic terminal sequences; however, the two telomeres appear to form different structures. Sequence analysis of ORFs 101 to 103 suggested that pAL1 codes for one or two putative terminal proteins, presumed to be covalently bound to the 5' termini, and a multidomain telomere-associated protein (Tap) comprising 1,707 amino acids. Even if the putative proteins encoded by ORFs 101 to 103 share motifs with the Tap and terminal proteins involved in telomere patching of Streptomyces linear replicons, their overall sequences and domain structures differ significantly. doi:10.1128/JB.00089-07

Published

2007

49. Elongation factor Tu3 (EF-Tu3) from the kirromycin producer Streptomyces ramocissimus is resistant to three classes of EF-Tu-specific inhibitors

Author

Olsthoorn-Tieleman, Lian N., Palstra, Robert-Jan T.S., van Wezel, Gilles P., Bibb, Mervyn J., and Pleij, Cornelis W.A.

Subjects

Streptomyces -- Genetic aspects, Streptomyces -- Research, Streptomyces -- Growth, Protein biosynthesis -- Research, Genetic transcription -- Research, Drug resistance in microorganisms -- Research, Company growth, Biological sciences

Abstract

The antibiotic kirromycin inhibits prokaryotic protein synthesis by immobilizing elongation factor Tu (EF-Tu) on the elongating ribosome. Streptomyces ramocissimus, the producer of kirromycin, contains three tuf genes. While tuf1 and tuf2 encode kirromycin-sensitive EF-Tu species, the function of tuf3 is unknown. Here we demonstrate that EF-Tu3, in contrast to EF-Tu1 and EF-Tu2, is resistant to three classes of EF-Tu-targeted antibiotics: kirromycin, pulvomycin, and GE2270A. A mixture of EF-Tu1 and EF-Tu3 was sensitive to kirromycin and resistant to GE2270A, in agreement with the described modes of action of these antibiotics. Transcription of tuf3 was observed during exponential growth and ceased upon entry into stationary phase and therefore did not correlate with the appearance of kirromycin in stationary phase; thus, it is unlikely that EF-Tu3 functions as a resistant alternative for EF-Tu1. EF-Tu3 from Streptomyces coelicolor A3(2) was also resistant to kirromycin and GE2270A, suggesting that multiple antibiotic resistance is an intrinsic feature of EF-Tu3 species. The GE2270A-resistant character of EF-Tu3 demonstrated that this divergent elongation factor is capable of substituting for EF-Tu1 in vivo. doi:10.1128/JB.01810-06

Published

2007

50. MbtH-like protein-mediated cross-talk between non-ribosomal peptide antibiotic and siderophore biosynthetic pathways in Streptomyces coelicolor M145

Author

Lautru, Sylvie, Oves-Costales, Daniel, Pernodet, Jean-Luc, and Challis, Gregory L.

Subjects

Streptomyces -- Research, Microbiological chemistry -- Research, Biological sciences

Abstract

MbtH-like proteins are a family of small proteins encoded by genes found in many, but not all, non-ribosomal peptide synthetase-encoding gene clusters that direct the biosynthesis of peptide antibiotics and siderophores. Studies published to date have not elucidated the function of MbtH-like proteins, nor have they clarified whether they are required for metabolite biosynthesis. Here it is shown that only one of two genes (cdaX or cchK) encoding MbtH-like proteins in Streptomyces coelicolor is required for biosynthesis of the peptide siderophore coelichelin and the calcium-dependent peptide antibiotic (CDA). The cdaX and cchK genes can functionally complement each other in trans, suggesting that CdaX and CchK can cross-talk with the coelichelin and CDA biosynthetic pathways, respectively. Transcriptional analyses of wild-type S. coelicolor and a double cchK/cdaX replacement mutant indicate that CchK and CdaX may not be involved in transcriptional regulation of coelichelin and CDA biosynthetic gene clusters.

Published

2007