Correction to: Increased heterologous production of the antitumoral polyketide mithramycin a by engineered Streptomyces lividans TK24 strains

Applied Microbiology and Biotechnology - The original publication contains error error in the Materials and Methods section and in the acknowledgement section.     

Proteolytic enzymes from recombinant Streptomyces lividans TK24

Different proteases from the culture fluids of recombinant Streptomyces lividans strains were isolated. Several individual proteases were separated and characterized. A chymotrypsin-chylike activity (CLA) was identified that specifically degrades a fusion protein between the alpha-amylase inhibitor from S. tendae (Tendamistat, HOE467) and proinsulin from the monkey Macaca fascicularis. The effective chemical inhibition of the degrading enzyme is demonstrated.     

Heterologous mevalonate production in Streptomyces lividans TK23

Mevalonate is a ubiquitous biosynthetic intermediate of terpenoids and is used as a moisturizer in cosmetics and a chemical for biochemical research. In this study, we have achieved a heterologous production of this useful compound by expression in Streptomyces lividans TK23 of 3-hydroxy-3-methylglutaryl-CoA synthase and 3-hydroxy-3-methylglutaryl-CoA reductase genes, which were cloned from Streptomyces sp. strain CL190.     

Production of aminoglycosides in non-aminoglycoside producing Streptomyces lividans TK24

The pRBM4 cosmid, which harbors a putative cluster of genes spanning a 31.8-kb chromosomal region of the ribostamycin producer Streptomyces ribosidificus ATCC 21294, was heterologously expressed in Streptomyces lividans TK24. ESI-MS/MS, HPLC, and LC-ESI MS analyses showed that the transformation gave rise to ribostamycin production in various culture broths. This is the first report of heterologous aminoglycoside production.     

Improved production of heterologous protein from Streptomyces lividans

Summary Protein-secreting procaryotic host organisms are currently being sought as alternatives to Escherichia coli for recombinant processing. In this study we examined how manipulation of the cultivation conditions can enhance heterologous protein production by Streptomyces lividans. The recombinant S. lividans used in this study expressed and excreted a Flavobacterium enzyme capable of hydrolyzing organophosphates. Initial shake-flask studies demonstrated that supplementing Luria-Bertani medium with moderate amounts of glucose (30 g/l), led to improved enzyme production. In fermentor studies with controlled pH, a further twofold increase in production was observed when glucose was fed continuously as compared to batch cultivation. This improved production in the glucose-fed culture may be related to a reduced accumulation of acids. Continuous feeding of both glucose and tryptone led to a further sixfold increase in production. In addition to enhancing production 25-fold, the efficiency of enzyme production and the specific activity of the excreted enzyme were also improved by glucose and tryptone feeding. These results demonstrate that in addition to genetic manipulations, optimization of cultivation conditions can lead to significant improvements in the production of heterologous proteins from Streptomyces. Offprint requests to: G. F. Payne     

Streptomyces lividans as host for heterologous protein production

Abstract Streptomycetes are Gram-positive soil bacteria with a differentiated morphology. They are considered interesting candidates for the production of heterologous proteins for several reasons, including their efficient secretion mechanism by which the secreted proteins are localized into the culture supernatant. In view of this potential, this review article describes different aspects of gene expression and regulation in Streptomyces , and summarizes and discusses results obtained using Streptomyces lividans as host for secretion of heterologus proteins of prokaryotic and eukaryotic origin.     

Bioethanol production by heterologous expression of Pdc and AdhII in Streptomyces lividans

Two genes from Zymomonas mobilis that are responsible for ethanol production, pyruvate decarboxylase (pdc) and alcohol dehydrogenase II (adhII), were heterologously expressed in the Gram-positive bacterium Streptomyces lividans TK24. An examination of carbon distribution revealed that a significant portion of carbon metabolism was switched from biomass and organic acid biosynthesis to ethanol production upon the expression of pdc and adhII. The recombinant S. lividans TK24 produced ethanol from glucose with a yield of 23.7 % based on the carbohydrate consumed. The recombinant was able to produce ethanol from xylose, l-arabinose, mannose, l-rhamnose, galactose, ribose, and cellobiose with yields of 16.0, 25.6, 21.5, 33.6, 30.6, 14.6, and 33.3 %, respectively. Polymeric substances such as starch and xylan were directly converted to ethanol by the recombinant with ethanol yields of 18.9 and 8.8 %, respectively. The recombinant S. lividans TK24/Tpet developed in this study is potentially a useful microbial resource for ethanol production from various sources of biomasses, especially microalgae.     

Identification, isolation and sequencing of the recA gene of Streptomyces lividans TK24

Abstract An internal fragment of the recA gene of Streptomyces cattleya was amplified by the polymerase chain reaction (PCR) employing degenerate oligonucleotide primers. Using this fragment as a hybridization probe, a recA homologous gene could be shown in each tested Streptomyces strain. A 4.4 kb Bam HI fragment which carried the complete recA gene was isolated from Streptomyces lividans TK24. Sequence analysis suggested that the coding region of the recA gene consists of 1122 bp. The highest similarity (∼78%) could be detected to the recA genes of Mycobacterium tuberculosis and Mycobacterium leprae . After fusion with an E. coli promoter the S. lividans recA gene could partially complement an Escherichia coli recA mutant.     

硫霉素环化酶基因在变铅青链霉菌TK24中的表达及基因定位

将含有硫霉素环化酶基因的重组质粒p6BCl2转化变铅青链霉菌(Streptomyceslividans)TK24,含有p6BCl2的转化子细胞抽提液分别与琉霉素生物合成阻断变株Y,发酵液以及纯化的Y。中间产物经过体外共培养可产生活性物质．化学分析表明与Y,发酵液混合后产生的是硫霉素,与纯化的Y。中间产物混合产生的是一种不稳定的活性物质。说明硫霉素环化酶基因在S.lividans TK24中得到了表达,其产物以Y。中间产物为底物并弥补了Y,中的缺陷。对p6Bcl2中4．5kb外源片段进行了限制酶酶切分析,建立了酶切图谱．利用含硫霉素环化酶基因的S．Lividans TK24转化子体外转化Y,的应用体系,将硫霉素环化酶基因定位在0．9kb Hinc I—Pst I片段上,并证明了硫霉紊环化酶的活性与IPNS同源片段无关。以上实验为进一步研究琉霉素环化酶基因的结构打下了基础。     

Autonomous selection of differentiation mutants of Streptomyces lividans TK24 in continuous culture

Summary Streptomyces lividans TK24 strains transformed with different recombinat derivatives of the vector plasmid pIJ487 were continuously cultivated in a chemostat. The first plasmid derivative contained the determinant for human interferon-alpha-1 (IFN) and the expression-secretion-unit (ESU) for this protein. In the second one a nourseothricin resistance determinant (ntc) was inserted additionally. The chemostat operated mainly at glucose limitation and low dilution rates. The structural and functional stabilities of the plasmids were shown to depend on the selection pressure. The host mutants enriched in the chemostat differed from the parental strain with respect to the growth pattern of aerial and submerged mycelium, the spore formation, and the formation and secretion of pigments and enzymes. Some highly stable host-vector systems could be selected. The plasmids' genotype influenced the growth pattern of the host mutants enriched in the chemostat in dependence on the limitation conditions as well as the stability of plasmid inheritance, plasmid structure and pigment formation in these mutants.     

Streptavidin secretion by Streptomyces lividans strains

Recombinant strains of S. lividans capable of secreting streptavidin were isolated. Various constructions containing either streptavidin gene copies integrated within a chromosome or a streptavidin gene within the secretory vector were investigated. S. lividans SA2 containing a gene copy integrated within the chromosome had the maximum productivity amounting to 60-80 per cent of the S. avidinii productivity. New vectors for Streptomyces used in the study are described.     

Native and heterologous protein secretion by Streptomyces lividans

The secretion of the heterologous parathion phosphotriesterase in S. lividans using the Streptomyces -galactosidase signal sequence was further characterised using a pulse/chase system. Unsecreted cell-associated protein in both the precursor and signal-cleaved forms was observed when the protein was expressed from both low- and high-copy vectors. Fractionation of the cells followed by immunoprecipitation with phosphotriesterase antibody suggests that the precursor is membrane-bound while the signal cleaved form is present in the soluble fraction. Preliminary data on the processing of -amylase, a native Streptomyces protein, showed much more rapid processing and secretion, but nevertheless still revealed cell-associated, signal-cleaved protein.National Institutes of Health, Laboratory of Host Defence     

Stability of plasmid vector plJ303 in Streptomyces lividans TK24 during laboratory-scale fermentations

Plasmid plJ303 stability in Streptomyces lividans cultures has been studied by measuring plasmid copy number under various growth conditions. An increase in mean plasmid copy number was normally seen during early rapid growth in both shaken culture and stirred vessel fermentations at 28 degrees C. Maximum copy numbers were consistently attained in early stationary phase followed by a decline (of variable amount) upon further incubation. The imposition of environmental stress (high growth temperature, i.e., 37 degrees C, and low dissolved oxygen tension, i.e., <5% air saturation) led to a plasmid copy number of zero and a 50% reduction, respectively. Interestingly, the relative proportions of plasmid topoisomers changed with time since progressively more supercoiled forms were observed throughout the stationary phase. Plasmid dimers were also observed in some cultures, and no evidence of structural plasmid instability was found. In general, this host-vector system seemed remarkably stable under normal growth conditions. However, copious organic acid production by the host was observed and was thought to be undesirable for good heterologous gene expression of a secreted protein. (c) 1993 John Wiley & Sons, Inc.     

Comparison of the Sec and Tat secretion pathways for heterologous protein production by Streptomyces lividans

Streptomyces is an interesting host for the secretory production of recombinant proteins because of its natural ability to secrete high levels of active proteins into the culture broth and the availability of extensive fermentation knowledge. In bacterial expression systems, heterologous protein secretion has, so far, almost exclusively been investigated using signal peptides that direct the secretion to the Sec pathway. In this study, we assessed the possibility of the Streptomyces lividans twin-arginine translocation (Tat) pathway to secrete the human proteins tumor necrosis factor (TNF) alpha and interleukin (IL) 10 by fusing the coding sequences of mature hTNFalpha and hIL10 to the twin-arginine signal peptides of S. lividans xylanase C (XlnC) and Streptomyces antibioticus tyrosinase. Both proteins were secreted and this secretion was blocked in the DeltatatB and DeltatatC single mutants, indicating that the transport of hTNFalpha and hIL10 could be directed through the Tat pathway. Secretion levels of hTNFalpha and hIL10, however, were lower for Tat-dependent than for Sec-dependent transport using the Sec-dependent signal peptide of the Streptomyces venezuelae subtilisin inhibitor. Surprisingly, Sec-dependent transport was enhanced in the tatB deletion strain. This was especially interesting in the case of hIL10, where Sec-dependent transport of hIL10 was at least 15 times higher in the DeltatatB mutant than in the wild-type strain.     

Regulation of ppk expression and in vivo function of Ppk in Streptomyces lividans TK24

The ppk gene of Streptomyces lividans encodes an enzyme catalyzing, in vitro, the reversible polymerization of the gamma phosphate of ATP into polyphosphate and was previously shown to play a negative role in the control of antibiotic biosynthesis (H. Chouayekh and M. J. Virolle, Mol. Microbiol. 43:919-930, 2002). In the present work, some regulatory features of the expression of ppk were established and the polyphosphate content of S. lividans TK24 and the ppk mutant was determined. In Pi sufficiency, the expression of ppk was shown to be low but detectable. DNA gel shift experiments suggested that ppk expression might be controlled by a repressor using ATP as a corepressor. Under these conditions, short acid-soluble polyphosphates accumulated upon entry into the stationary phase in the wild-type strain but not in the ppk mutant strain. The expression of ppk under Pi-limiting conditions was shown to be much higher than that under Pi-sufficient conditions and was under positive control of the two-component system PhoR/PhoP. Under these conditions, the polyphosphate content of the cell was low and polyphosphates were reproducibly found to be longer and more abundant in the ppk mutant strain than in the wild-type strain, suggesting that Ppk might act as a nucleoside diphosphate kinase. In light of our results, a novel view of the role of this enzyme in the regulation of antibiotic biosynthesis in S. lividans TK24 is proposed.     

amlC,Another amylolytic gene maps close to the amlB locus in Streptomyces lividans TK24

The region located upstream of the α-amylase gene (amlB) of Streptomyces lividans TK24 (Yin et al., 1997) contains a 2978-bp-long ORF divergent from amlB, and designated amlC. amlC Encodes a 993 amino acid (aa) protein with a calculated molecular weight of 107.054 kDa. On the basis of sequence similarity as well as enzymatic activity, AmlC is likely to belong to the 1,4-α-d-glucan glucanohydrolase family. amlC is transcribed as a unique 3 kb leaderless monocistronic mRNA. Primer extension experiments allowed the identification of promoter sequences that do not resemble the typical eubacterial promoter sequences. amlC was successfully disrupted and was mapped at approx. 700 kb from a chromosomal end of S. lividans TK24, 100 kb on the right of the amplifiable unit AUD1 (Volff et al., 1996). Nevertheless, amlC disruption seemed to be accompanied by extensive rearrangements of the 2500-kb DraI–II fragment of the chromosome.     

Continuous production of a hybrid antibiotic by Streptomyces lividans TK21 pellets in a three-phase fluidized-bed bioreactor

The continuous production of a hybrid antibiotic by a transformed strain of Streptomyces lividans TK21 in a three-phase fluidized bed is studied. Cell aggregates, known as pellets, are used as immobilized cell particles in the bioreactor. A methodology to prepare pellets of a suitable size and morphology is developed. The continuous production of the antibiotic is studied on the basis of decoupling cell growth and antibiotic production, by means of phosphate limitation in the growth medium. The best results are achieved at D = 0.021 h(1), with alternate feeding of 0 and 0.05 m M phosphate media. Continuous production of the antibiotic can be maintained at satisfactory levels for periods of 60 days, and stable operation of the bioreactor is achieved during 85 days. Finally, the evolution of the internal structure of the pellets during continuous fermentation is studied. (c) 1997 John Wiley & Sons, Inc. Biotechnol Bioeng 53: 601-610, 1997.