Ratama Daduang scite author profile

Maklamicin, which is produced by the endophytic Micromonospora sp. NBRC 110955, is a spirotetronate-class antibiotic possessing anti-microbial activity against Gram-positive bacteria, and has several unique structural features different from other spirotetronates. Here we describe identification and characterization of the maklamicin biosynthetic (mak) gene cluster through draft genome sequencing, genomic library screening, and gene disruption. Sequence analysis revealed that a plausible maklamicin cluster resides in a 152 kb DNA region encoding 46 open reading frames, 24 of which can be assigned roles in the biosynthesis of polyketide backbone, spirotetronate or peripheral moieties, self-resistance and the regulation of maklamicin production. Disruption of the polyketide synthase (PKS) genes makA1 or makA4 resulted in a complete loss of maklamicin production, indicating that the type I modular PKS system is responsible for the biosynthesis of maklamicin. The mak gene cluster contained a set of biosynthetic genes for the formation of a tetronate moiety, which were found to be highly conserved in the gene clusters for spirotetronate antibiotics. Based on the estimated biosynthetic genes, we propose the biosynthetic pathway for maklamicin. Our findings provide not only insights on the biosynthetic mechanism of the unique structures in maklamicin, but also useful information to facilitate a comparative analysis of the spirotetronate biosynthetic pathways to expand the structural repertoire.

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Improvement of chloramphenicol production in Streptomyces venezuelae ATCC 10712 by overexpression of the aroB and aroK genes catalysing steps in the shikimate pathway

Vitayakritsirikul

Jaemsaeng

Lohmaneeratana

et al. 2015

Antonie van Leeuwenhoek

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Streptomyces venezuelae ATCC 10712 produces chloramphenicol in small amounts. To enhance chloramphenicol production, two genes, aroB and aroK, encoding rate-limiting enzymes of the shikimate pathway were overexpressed using the expression vector pIJ86 under the control of the strong constitutive ermE* promoter. The recombinant strains, S. venezuelae/pIJ86-aroB and S. venezuelae/pIJ86-aroK, produced 2.5- and 4.3-fold greater amounts respectively of chloramphenicol than wild type at early stationary phase of growth. High transcriptional levels of aroB and aroK genes were detected at the early exponential growth of both recombinant strains and consistent with the enhanced expression of pabB gene encoding an early enzyme in chloramphenicol biosynthesis. The results suggested that the increment of carbon flux was directed towards intermediates in the shikimate pathway required for the production of chorismic acid, and consequently resulted in the enhancement of chloramphenicol production. This work is the first report of a convenient genetic approach to manipulate primary metabolite genes in S. venezuelae in order to increase chloramphenicol production.

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Sarmentosamide, a novel hexadienamide from Thai soil actinomycetes

Kitani

Tomio

Srichaisupakit

et al. 2012

Natural Product Research

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Heterologous expression of polyhydroxyalkanoate depolymerase from Thermobifida sp. in Pichia pastoris and catalytic analysis by surface plasmon resonance

Phithakrotchanakoon

Daduang

Thamchaipenet

et al. 2009

Appl Microbiol Biotechnol

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A polyhydroxyalkanote depolymerase gene from Thermobifida sp. isolate BCC23166 was cloned and expressed as a C-terminal His(6)-tagged fusion in Pichia pastoris. Primary structure analysis revealed that the enzyme PhaZ-Th is a member of a proposed new subgroup of SCL-PHA depolymerase containing a proline-serine repeat linker. PhaZ-Th was expressed as two glycosylated forms with apparent molecular weights of 61 and 70 kDa, respectively. The enzyme showed esterase activity toward p-nitrophenyl alkanotes with V(max) and K(m) of 3.63 +/- 0.16 micromol min(-1) mg(-1) and 0.79 +/- 0.12 mM, respectively, on p-nitrophenyl butyrate with optimal activity at 50-55 degrees C and pH 7-8. Surface plasmon resonance (SPR) analysis demonstrated that PhaZ-Th catalyzed the degradation of poly-[(R)-3-hydroxybutyrate] (PHB) films, which was accelerated in (R)-3-hydroxyvalerate copolymers with a maximum degradation rate of 882 ng cm(-2) h(-1) for poly[(R)-3-hydroxybutyrate-co-3-hydroxyvalerate] (12 mol% V). Surface deterioration, especially on the amorphous regions of PHB films was observed after exposure to PhaZ-Th by atomic force microscopy. The use of P. pastoris as an alternative recombinant system for bioplastic degrading enzymes in secreted form and a sensitive SPR analytical technique will be of utility for further study of bioplastic degradation.

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Ratama Daduang

29-Deoxymaklamicin, a new maklamicin analogue produced by a genetically engineered strain of Micromonospora sp. NBRC 110955

Characterization of the biosynthetic gene cluster for maklamicin, a spirotetronate-class antibiotic of the endophytic Micromonospora sp. NBRC 110955

Improvement of chloramphenicol production in Streptomyces venezuelae ATCC 10712 by overexpression of the aroB and aroK genes catalysing steps in the shikimate pathway

Sarmentosamide, a novel hexadienamide from Thai soil actinomycetes

Heterologous expression of polyhydroxyalkanoate depolymerase from Thermobifida sp. in Pichia pastoris and catalytic analysis by surface plasmon resonance

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