Analysis of a genetically unstable region inStreptomyces lividans 66-TK64

Genetic and molecular analyses of an unstable region encompassing the gene loci cml arg and a 5.7 kb amplifiable unit of DNA were done. Spontaneous mutants from Cm1^R →Cml^S and the revertants from Cml^S →Cml^R were analysed for mutations at arg locus and amplification of amplifiable unit of DNA. Twenty-one revertants were analysed. Two of these had large-scale amplification and one of these was also Arg^-. Nine of the revertants which were Arg⁺ had low-level or intermediate-level amplification of the 5.7 kb DNA sequence but no deletions of the flanking sequences were detected. Five of the CmI^R’ revertants, which were also Arg⁺, had lost one of the two copies from the doublet of amplifiable unit of DNA. The remaining five revertants did not show any other change. The amplifiable unit of DNA, therefore, not only undergoes amplification but can also suffer specific deletion of one copy. Thus, this region as a whole is characterized by instability and the events appear to take place at more than one locus concomitantly with a high frequency.     

Effect of photoreactivating light on survival of ultraviolet-light-irradiatedStreptomyces lividans 66

Summary Biological systems can repair damage induced in their DNA by ultraviolet light (UV). Most cells contain at least three DNA repair pathways, each of which has a marked effect on UV survival. Excision repair and recombinational (postreplication) repair are light-independent whereas photoreactivation (PR), whether enzyzmatic or photochemical, is light-dependent. The specificity of photoreactivation for UV-induced DNA damage allows it to be used as a tool for examining whether premutational DNA lesions are preferred sites for photoreversal; it therefore plays an important role in mutagenesis studies. Evidence is presented here that PR occurs in a time-dependent fashion in three strains ofStreptomyces lividans 66. The effect appears to be independent of temperature and is observed only when PR treatment is given after UV irradiation. The present experiments do not discriminate between enzymatic and photochemical protection.     

Chitinolytic properties of Streptomyces lividans

Streptomyces lividans TK24, an established host for genetic and molecular studies in actinomycetes, is able to use chitin as sole carbon and nitrogen source. Extracellular chitinase and N-acetyl--d-glucosamidinase (chitobiase) activities were detected in liquid cultures. Chitinase production was inducible by chitin and its low molecular weight derivatives. Low levels of chitinase were also produced in the absence of chitin. Production of extracellular N-acetylglucosaminidase was correlated with the beginning of the stationary phase of growth and was independent of the presence of chitin. Beside highly N-acetylated chitin, supernatants of chitin-induced cultures were able to hydrolyse chitosans with a wide range of degrees of N-acetylation.Abbreviations MS minimal salts - GlcNAc N-acetyl--d-glucosamine - pNP-GlcNAc p-nitrophenyl-2-acetamido-2-deoxy--d-glucopyranoside - d.a. degree of N-acetylation - TLC thin-layer chromatography     

Evaluation of TatABC overproduction on Tat- and Sec-dependent protein secretion in Streptomyces lividans

The majority of bacterial proteins are exported across the cytoplasmic membrane via the Sec pathway, but also the more recently discovered twin-arginine translocation (Tat) route seems to play an important role for protein secretion in Streptomyces lividans in whose genome tatA, tatB and tatC have been identified. In the present work we showed that simultaneous overproduction of TatABC improved the Tat-dependent secretion capacity as could be concluded from the increased amount of secreted xylanase C, an exclusive Tat-dependent substrate. This result demonstrates that next to the availability of energy to drive secretion, also the number of translocases can be rate-limiting for Tat-dependent secretion. On the other hand, tatABC overexpression was found to diminish secretion of the Sec-dependent proteins xylanase B and subtilisin inhibitor in S. lividans. These results reveal cross-talk between both pathways in S. lividans.     

Heterologous production of daptomycin in Streptomyces lividans

Daptomycin and the A21978C antibiotic complex are lipopeptides produced by Streptomyces roseosporus and also in recombinant Streptomyces lividans TK23 and TK64 strains, when a 128 kbp region of cloned S. roseosporus DNA containing the daptomycin gene cluster is inserted site-specifically in the ϕC31 attB site. A21978C fermentation yields were initially much lower in S. lividans than in S. roseosporus, and detection was complicated by the production of host metabolites. However A21978C production in S. lividans was improved by deletion of genes encoding the production of actinorhodin and by medium optimization to control the chemical form of the calcium dependent antibiotic (CDA). This latter compound has not previously been chemically characterized as a S. lividans product. Adding phosphate to a defined fermentation medium resulted in formation of only the phosphorylated forms of CDA, which were well separated from A21978C on chromatographic analysis. Adjusting the level of phosphate in the medium led to an improvement in A21978C yield from 20 to 55 mg/l.     

Functional analysis of TatA and TatB in Streptomyces lividans

Recently, genes encoding TatA, TatB, and TatC homologues were identified in Streptomyces lividans and the functionality of the twin-arginine translocation (Tat) pathway was demonstrated. Previously, we have shown that TatC is indispensable for Tat-dependent secretion in S. lividans. In the present work, we demonstrate that as TatB, S. lividans TatA is important but not essential for efficient secretion of xylanase C and tyrosinase. The results presented here indicate that in the presence of TatC, still partially functional translocation systems composed of TatAC or TatBC can be formed, suggesting that TatA and TatB have at least partially overlapping activities. However, the dissimilar effect caused by a tatA deletion or a tatB deletion on Tat-dependent secretion together with the fact that TatA cannot fully functionally substitute TatB and vice versa indicates that in S. lividans TatA and TatB are not functionally equivalent. Interestingly, soluble GST-tagged TatA and TatB were able to specifically bind Tat-dependent preproteins. The ability to bind Tat-dependent preproteins together with their cytoplasmic localization in S. lividans strongly suggests that both TatA and TatB, independently or associated, serve to recruit Tat-dependent preproteins to the translocase.     

Intraplasmid recombination in Streptomyces lividans 66

Summary An Escherichia coli-Streptomyces shuttle plasmid pIF132 containing two direct mel repeats was constructed. While pIF132 replicated relatively stably in E. coli (Rec⁺ or recA), its structure was unstable in S. lividans: recombination between the mel repeats resulted in a smaller plasmid, pIF138. Furthermore, pIF132 formed oligomers extensively in E. coli but not in S. lividans.     

Comparison of extracellular Escherichia coli AppA phytases expressed in Streptomyces lividans and Pichia pastoris

A phytase gene (appA) from Escherichia coli was cloned into Streptomyces lividans and expressed as an extracellular protein which was then compared with the same enzyme expressed in Pichia pastoris. The phytase expressed in S. lividans was not glycosylated and had a molecular mass of 45 kDa. Compared with the glycosylated phytase expressed in P. pastoris, this non-glycosylated phytase was 25–50% less active (p<0.05) at pH 2 to 3.5 or at 45 and 55 °C, but 50% more active (p<0.05) at 75 °C. The thermo-tolerance of the non-glycosylated phytase was 26 and 48% higher (p<0.05) than that of the glycosylated phytase at 45 and 55 °C, but was 80 and 94% lower (p<0.05) at 65 ° and 75 °C, respectively.     

Unraveling the essential role in conjugation of the Tra protein of Streptomyces lividans plasmid pIJ101

Plasmid pIJ101 from Streptomyces lividans encodes a single gene, tra, that is essential for both plasmid transfer and mobilization of chromosomes during mating. The tra gene product (Tra) is a membrane protein, a portion of which shows similarity to transfer proteins of other streptomycete plasmids as well as additional bacterial chromosome partitioning proteins. This paper reviews past and present work that has focused on elucidating the precise role of the Tra protein of pIJ101 in conjugation in Streptomyces.     

Extracellular production of Streptomyces lividans acetyl xylan esterase A in Escherichia coli for rapid detection of activity

Acetyl xylan esterase A (AxeA) from Streptomyces lividans belongs to a large family of industrially relevant polysaccharide esterases. AxeA and its truncated form containing only the catalytically competent domain, AxeA(tr), catalyze both the deacetylation of xylan and the N-deacetylation of chitosan. This broad substrate specificity lends additional interest to their characterization and production. Here, we report three systems for extracellular production of AxeA(tr): secretion from the native host S. lividans with the native signal peptide, extracellular production in Escherichia coli with the native signal peptide, and in E. coli with the OmpA signal peptide. Over five to seven days of a shake flask culture, the native host S. lividans with the native signal peptide secreted AxeA(tr) into the extracellular medium in high yield (388 mg/L) with specific activity of 19 U/mg corresponding to a total of 7000 U/L. Over one day of shake flask culture, E. coli with the native secretion signal peptide produced 84-fold less in the extracellular medium (4.6 mg/L), but the specific activity was higher (100 U/mg) corresponding to a total of 460 U/L. A similar E. coli culture using the OmpA signal peptide, produced 10mg/L with a specific activity of 68 U/mg, corresponding to a total of 680 U/L. In 96-well microtiter plates, extracellular production with E. coli gave approximately 30 and approximately 86 microg/mL in S. lividans. Expression in S. lividans with the native signal peptide is best for high level production, while expression in E. coli using the OmpA secretion signal peptide is best for high-throughput expression and screening of variants in microtiter plate format.     

A DNA fragment fromStreptomyces fradiae increases the production of a metalloprotease inStreptomyces lividans

Streptomyces fradiae produces several extracellular proteases and many of these are inducible. An 8.8 kb DNA fragment of Streptomyces fradiae cloned on pIJ699 caused increased protease activity in Streptomyces lividans.Clones carrying this recombinant plasmid showed a significant delay in sporulation. A protein of 18 kDa was purified from the extracellular proteins secreted by the host carrying the recombinant plasmid. Further characterization showed that this protease is a metalloprotease.     

Protoplast fusion inStreptomyces avermitilis

Summary The power of protoplast fusion as a generally applicable method for obtaining genetic recombination is demonstrated by the recombination of genes involved in avermectin biosynthesis. A backcross ofStreptomyces avermitilis strain MA6202, an improved mutant that had lost the ability to carry out the methylation of the C-5 hydroxyl of the avermectin molecule, with the original soil isolate MA4680 resulted in the recovery of at least one unambiguous recombinant class despite the instability of rifampicin resistance, one of two markers initially used for recombinant selection. Such intrinsic instability is frequently encountered in streptomycete genetics, and this result delineates the utility of protoplast fusion as a genetic tool. Other difficulties addressed include recovery of complementary recombinant classes, differences in recombination frequency due to colony density on regeneration medium, and alteration in plating efficiency on diagnostic media following protoplasting and regeneration. The results of a cross between a nicotinamide auxotroph MRG1003 and a lysine auxotroph MRG 1004 are included to aid in the elucidation of these problems as well as to support the finding of homologous recombination inS. avermitilis.     

Proteomics-driven identification of putative AfsR2-target proteins stimulating antibiotic biosynthesis inStreptomyces lividans

AfsR2, originally identified fromStreptomyces lividans, is a global regulatory protein which stimulates antibiotic biosynthesis. Through its stable chromosomal integration, the high level of gene expression ofafsR2 significantly induced antibiotic production as well as the sporulation ofS. lividans, implying the presence of yet-uncharacterized AfsR2-target proteins. To identify and evaluate the putative AfsR2-target proteins involved in antibiotic regulation, the proteomics-driven approach was applied to the wild-typeS. lividans and theafsR2-integrated actinorhodin overproducing strain. The 2D gel-electrophoresis gave approximately 340 protein spots showing different protein expression patterns between these twoS. lividans strains. Further MALDI-TOF analysis revealed several AfsR2-target proteins, including glyceraldehyde-3-phosphate dehydrogenase, putative phosphate transport system regulator, guanosine pentaphosphate synthetase/polyribonucleotide nucleotidyltransferase, and superoxide dismutase, which suggests that the AfsR2 should be a pleiotropic regulatory protein which controls differential expressions of various kinds of genes inStreptomyces species.     

DNA amplifications and deletions in Streptomyces lividans 66 and the loss of one end of the linear chromosome

Thirty-two 2-deoxygalactose-resistant mutants with DNA amplifications were isolated from Streptomyces lividans 66 strains carrying plasmid pMT664, which carries an agarase gene (dagA) and IS466. Thirty-one of the mutants carried amplified DNA sequences from a 70 kb region about 300 kb from one end of the linear chromosome in this species. In 28 of the mutants, all the wild-type sequences between the amplified region and the start of the 30 kb inverted repeat that forms the chromosome end were deleted. Thus, there appeared to be loss of one chromosome end and its replacement by the DNA amplification. In some mutants there amplification of a previously characterised 5.7 kb sequence that lies about 600 kb from the other chromosome end was also noted.     

A-factor and streptomycin biosynthesis inStreptomyces griseus

Accumulating data have shown that the metabolites with a -butyrolactone ring functions as an autoregulatory factor or a microbial hormone for the expression of various phenotypes not only in a variety ofStreptomyces spp. but also in the distantly related bacteria. A-factor, as a representative of this type of autoregulators, triggers streptomycin biosynthesis and cellular differentiation inStreptomyces griseus. A model for the A-factor regulatory cascade on the basis of recent work is as follows. At an early step in the A-factor regulatory relay, the positive A-factor signal is first received by an A-factor receptor protein that is comparable in every aspect to eukaryotic hormone receptors, and then, via one or more regulatory steps, transmitted to an A-factor-responsive protein that binds to the upstream activation sequence of thestrR gene, a regulatory gene in the streptomycin biosynthetic gene cluster. The StrR protein thus induced appears to activate the other streptomycin biosynthetic genes. This review summarizes the characteristics of A-factor as a microbial hormone and the A-factor regulatory relay leading to streptomycin production.     

Organisation of the ribosomal RNA genes in Streptomyces coelicolor A3(2)

Summary Using Southern hybridisation of radiolabelled purified ribosomal RNAs to genomic DNA the ribosomal RNA genes of Streptomyces coelicolor A3(2) were shown to be present in six gene sets. Each gene set contains at least one copy of the 5 S, 16 S and 23 S sequences and in at least two cases these are arranged in the order 16 S-23S-5S. Three gene sets, rrnB, rrnD and rrnF, were isolated by screening a library of S. coelicolor A3(2) DNA. The restriction map of one of these, rrnD, was determined and the nucleotide sequences corresponding to the three rRNAs were localised by Southern hybridisation. The gene order in rrnD is 16S-23S-5S.     

Carbon source nutrition of rapamycin biosynthesis inStreptomyces hygroscopicus

Summary Chemically-defined media were developed for rapamycin production byStreptomyces hygroscopicus. Thirty-five carbon sources were tested for their effect on production. Eight failed to support growth and seven appeared to repress or inhibit rapamycin formation. The best combination of two carbon sources were 2% fructose and 0.5% mannose. Acetate and propionate, which are known to contribute most of the carbon atoms of the lactone ring, were unsatisfactory for growth and/or rapamycin production.This paper is dedicated to Professor Herman Jan Phaff in honor of his 50 years of active research which still continues.     

Efficient purification of transglutaminase from recombinant <Emphasis Type="Italic">Streptomyces platensis</Emphasis> at various scales

An efficient system for the fast and efficient purification of transglutaminase from recombinant Streptomyces platensis and expressed in Streptomyces lividans 25-2 is described. Because the purification procedure of this system is flexible, culture broth from laboratory (20 l) and pilot-plant (130 l) fermentations were used to purify the enzyme to electrophoretic homogeneity with high purity (90–95%) and yield (61–77%) within 1 or 2 days.