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Background
Microbial lipid production represents a potential alternative feedstock for the biofuel and oleochemical industries. Since Escherichia coli exhibits many genetic, technical, and biotechnological advantages over native oleaginous bacteria, we aimed to construct a metabolically engineered E. coli strain capable of accumulating high levels of triacylglycerol (TAG) and evaluate its neutral lipid productivity during high cell density fed-batch fermentations.Results
The Streptomyces coelicolor TAG biosynthesis pathway, defined by the acyl-CoA:diacylglycerol acyltransferase (DGAT) Sco0958 and the phosphatidic acid phosphatase (PAP) Lppβ, was successfully reconstructed in an E. coli diacylglycerol kinase (dgkA) mutant strain. TAG production in this genetic background was optimized by increasing the levels of the TAG precursors, diacylglycerol and long-chain acyl-CoAs. For this we carried out a series of stepwise optimizations of the chassis by 1) fine-tuning the expression of the heterologous SCO0958 and lpp β genes, 2) overexpression of the S. coelicolor acetyl-CoA carboxylase complex, and 3) mutation of fadE, the gene encoding for the acyl-CoA dehydrogenase that catalyzes the first step of the β-oxidation cycle in E. coli. The best producing strain, MPS13/pET28-0958-ACC/pBAD-LPPβ rendered a cellular content of 4.85% cell dry weight (CDW) TAG in batch cultivation. Process optimization of fed-batch fermentation in a 1-L stirred-tank bioreactor resulted in cultures with an OD600nm of 80 and a product titer of 722.1 mg TAG L-1 at the end of the process.Conclusions
This study represents the highest reported fed-batch productivity of TAG reached by a model non-oleaginous bacterium. The organism used as a platform was an E. coli BL21 derivative strain containing a deletion in the dgkA gene and containing the TAG biosynthesis genes from S. coelicolor. The genetic studies carried out with this strain indicate that diacylglycerol (DAG) availability appears to be one of the main limiting factors to achieve higher yields of the storage compound. Therefore, in order to develop a competitive process for neutral lipid production in E. coli, it is still necessary to better understand the native regulation of the carbon flow metabolism of this organism, and in particular, to improve the levels of DAG biosynthesis.3.
The maT clade of transposons is a group of transposable elements intermediate in sequence and predicted protein structure to mariner and Tc transposons, with a distribution thus far limited to a few invertebrate species. We present evidence, based on searches of publicly available databases, that the nematode Caenorhabditis briggsae has several maT-like transposons, which we have designated as CbmaT elements, dispersed throughout its genome. We also describe two additional transposon sequences that probably share their evolutionary history with the CbmaT transposons. One resembles a fold back variant of a CbmaT element, with long (380-bp) inverted terminal repeats (ITRs) that show a high degree (71%) of identity to CbmaT1. The other, which shares only the 26-bp ITR sequences with one of the CbmaT variants, is present in eight nearly identical copies, but does not have a transposase gene and may therefore be cross mobilised by a CbmaT transposase. Using PCR-based mobility assays, we show that CbmaT1 transposons are capable of excising from the C. briggsae genome. CbmaT1 excised approximately 500 times less frequently than Tcb1 in the reference strain AF16, but both CbmaT1 and Tcb1 excised at extremely high frequencies in the HK105 strain. The HK105 strain also exhibited a high frequency of spontaneous induction of unc-22 mutants, suggesting that it may be a mutator strain of C. briggsae. 相似文献
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Plastoquinone plays critical roles in photosynthesis, chlororespiration and carotenoid biosynthesis. The previously isolated
pds2 mutant from Arabidopsis was deficient in tocopherol and plastoquinone accumulation, and the biochemical phenotype of this mutant could not be reversed
by externally applied homogentisate, suggesting a later step in tocopherol and/or plastoquinone biosynthesis had been disrupted.
Recently, the protein encoded by At3g11950 (AtHST) was shown to condense homogentisate with solanesyl diphosphate (SDP), the substrate for plastoquinone synthesis, but not
phytyl diphosphate (PDP), the substrate for tocopherol biosynthesis. We have sequenced the AtHST allele in the pds2 mutant background and identified an in-frame 6 bp (2 aa) deletion in the gene. The pds2 mutation could be functionally complemented by constitutive expression of AtHST, demonstrating that the molecular basis for the pds2 mutation is this 6 bp-lesion in the AtHST gene. Confocal microscopy of EGFP tagged AtHST suggested that AtHST is localized to the chloroplast envelope, supporting
the hypothesis that plastoquinone synthesis occurs in the plastid. 相似文献
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Harris LJ Saparno A Johnston A Prisic S Xu M Allard S Kathiresan A Ouellet T Peters RJ 《Plant molecular biology》2005,59(6):881-894
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Nuryastuti T van der Mei HC Busscher HJ Kuijer R Aman AT Krom BP 《Antonie van Leeuwenhoek》2008,94(2):317-328
Phenotypic variation of Staphylococcus epidermidis involving the slime related ica operon results in heterogeneity in surface characteristics of individual bacteria in axenic cultures. Five clinical S. epidermidis isolates demonstrated phenotypic variation, i.e. both black and red colonies on Congo Red agar. Black colonies displayed bi-modal electrophoretic mobility distributions at pH 2, but such phenotypic variation was absent in red colonies of the same strain as well as in control strains without phenotypic variation. All red colonies had lost ica and the ability to form biofilms, in contrast to black colonies of the same strain. Real time PCR targeting icaA indicated a reduction in gene copy number within cultures exhibiting phenotypic variation, which correlated with phenotypic variations in biofilm formation and electrophoretic mobility distribution of cells within a culture. Loss of ica was irreversible and independent of the mobile element IS256. Instead, in high frequency switching strains, spontaneous mutations in lexA were found which resulted in deregulation of recA expression, as shown by real time PCR. RecA is involved in genetic deletions and rearrangements and we postulate a model representing a new mechanism of phenotypic variation in clinical isolates of S. epidermidis. This is the first report of S. epidermidis strains irreversibly switching from biofilm-positive to biofilm-negative phenotype by spontaneous deletion of icaADBC. 相似文献
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Tetiana Gren Bohdan Ostash Volodymyr Babiy Ihor Rokytskyy Victor Fedorenko 《Folia microbiologica》2018,63(2):197-201
Streptomyces coelicolor genome carries two apparently paralogous genes, SCO4164 and SCO5854, that encode putative thiosulfate sulfurtransferases (rhodaneses). These genes (and their presumed translation products) are highly conserved and widely distributed across actinobacterial genomes. The SCO4164 knockout strain was unable to grow on minimal media with either sulfate or sulfite as the sole sulfur source. The SCO5854 mutant had no growth defects in the presence of various sulfur sources; however, it produced significantly less amounts of actinorhodin. Furthermore, we discuss possible links between basic interconversions of inorganic sulfur species and secondary metabolism in S. coelicolor. 相似文献
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Heparan sulfate proteoglycans play a vital role in signaling of various growth factors in both Drosophila and vertebrates. In Drosophila, mutations in the tout
velu (ttv) gene, a homolog of the mammalian EXT1 tumor suppressor gene, leads to abrogation of glycosaminoglycan (GAG) biosynthesis. This impairs distribution and signaling
activities of various morphogens such as Hedgehog (Hh), Wingless (Wg), and Decapentaplegic (Dpp). Mutations in members of
the exostosin (EXT) gene family lead to hereditary multiple exostosis in humans leading to bone outgrowths and tumors. In this study, we provide
genetic and biochemical evidence that the human EXT1 (hEXT1) gene is conserved through species and can functionally complement the ttv mutation in Drosophila. The hEXT1 gene was able to rescue a ttv null mutant to adulthood and restore GAG biosynthesis. 相似文献
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Summary An actinomycete strain (designated Ap1) isolated from the rhizosphere soil of Argania spinosa L. strongly inhibited the growth of two plant pathogens: Fusarium oxysporum f.sp. albedinis and Verticillium dahliae. The spore morphology suggested that the Ap1 strain belonged to the genus Streptomyces. The antifungal compound produced by
Ap1 was purified by HPLC and identified as the polyene macrolide, isochainin, by NMR and mass spectroscopy. Ap1 showed normal
biosynthesis of isochainin in comparison with S. cellulosae ATTC 12625, in which precursor-directed biosynthesis by feeding ethyl (Z)-16-phenylhexadec-9-enoate to the culture medium
is required. In addition, Streptomyces sp. strain Ap1 produces isochainin with a 6.5-fold higher concentration than Streptomyces cellulosae ATTC 12625. 相似文献
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DNA/DNA genome microarray analysis together with genome sequencing suggests that the genome of members of the genus Streptomyces would seem to have a common structure including a linear genomic structure, a core of common syntenous Actinomycete genes, the presence of species specific terminal regions and two intermediate group of syntenous genes that seem to be genus specific. We analyzed Streptomyces species using DNA/DNA microarray comparative genome analysis. Only Streptomyces rimosus failed to give a congruent genome pattern for the genes found in Streptomyces coelicolor. We expanded the analysis to include a number of strains related to the type strain of S. rimosus and obtained a similar divergence from the main body of Streptomyces species. These strains showed very close identity to the original strain with no gene deletion or duplication detected. The 16S rRNA sequences of these S. rimosus strains were confirmed as very similar to the S. rimosus sequences available from the Ribosomal Database Project. When the SSU ribosomal RNA phylogeny of S. rimosus is analyzed, the species is positioned at the edge of the Streptomyces clade. We conclude that S. rimosus represents a distinct evolutionary lineage making the species a worthy possibility for genome sequencing. 相似文献
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Sun QL Wang LY Shan JJ Jiang R Guo LH Zhang Y Zhang R Li Y 《Archives of microbiology》2007,188(4):333-340
Streptomyces sp. 139 produces a novel exopolysaccharide (EPS) designated Ebosin which has antagonistic activity for IL-1R in vitro and
remarkable anti-rheumatic arthritis activity in vivo. We previously identified a ste (Streptomyces eps) gene cluster consisting of 27 ORFs responsible for Ebosin biosynthesis. The gene product of ste15 shows high homology to known glycosyltransferases (GTFs). To elucidate its function in Ebosin biosynthesis, the ste15 gene was knocked out with a double crossover via homologous recombination. Our analysis of monosaccharide composition for
EPS-m produced by the mutant strain Streptomyces sp. 139 (ste15
−) showed that glucose was significantly diminished compared to its natural counterpart Ebosin. This derivative of Ebosin lost
the antagonistic activity for IL-1R in vitro and its molecular mass was smaller than Ebosin. These results have demonstrated
that the ste15 gene codes for a GTF for glucose, which is functionally involved in Ebosin biosynthesis. 相似文献
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Mobilization of two P element subfamilies (canonical and O-type) from Drosophila sturtevanti and D. saltans was evaluated for copy number and transposition activity using the transposon display (TD) technique. Pairwise distances
between strains regarding the insertion polymorphism profile were estimated. Amplification of the P element based on copy number estimates was highly variable among the strains (D. sturtevanti, canonical 20.11, O-type 9.00; D. saltans, canonical 16.4, O-type 12.60 insertions, on average). The larger values obtained by TD compared to our previous data by
Southern blotting support the higher sensitivity of TD over Southern analysis for estimating transposable element copy numbers.
The higher numbers of the canonical P element and the greater divergence in its distribution within the genome of D. sturtevanti (24.8%) compared to the O-type (16.7%), as well as the greater divergence in the distribution of the canonical P element, between the D. sturtevanti (24.8%) and the D. saltans (18.3%) strains, suggest that the canonical element occupies more sites within the D. sturtevanti genome, most probably due to recent transposition activity. These data corroborate the hypothesis that the O-type is the
oldest subfamily of P elements in the saltans group and suggest that the canonical P element is or has been transpositionally active until more recently in D. sturtevanti. 相似文献
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Hong-Guan Xie Yong-Gang Bao Li-ping Bai Jun-Jie Shan Rong Jiang Yang Zhang Lian-Hong Guo Ren Zhang Yuan Li 《Journal of microbiology (Seoul, Korea)》2009,47(2):193-200
Streptomyces sp. 139 generates a novel exopolysaccharide (EPS) designated as Ebosin, which exerts an antagonistic effect on IL-1R in vitro and anti-rheumatic arthritis activity in vivo. A ste gene cluster for Ebosin biosynthesis consisting of 27 ORFs was previously identified in our laboratory. In this paper, ste16 was expressed in Escherichia coli BL21 and the recombinant protein was purified, which has the ability to catalyze the transfer of the methyl group from S-adenosylmethionine
(AdoMet) to dTDP-4-keto-6-deoxy-D-glucos, which was thus identified as a methyltransferase. In order to determine the function
of ste16 in Ebosin biosynthesis, the gene was disrupted with a double crossover via homologous recombination. The monosaccharide composition
of EPS-m generated by the mutant strain Streptomyces sp. 139 (ste16) was found to differ from that of Ebosin. The IL-1R antagonist activity of EPS-m was markedly lower than that of Ebosin.
These experimental results have shown that the ste16 gene codes for a methyltransferase which is involved in Ebosin biosynthesis.
These authors contributed equally to this work. 相似文献
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E. I. Shagimardanova I. B. Chastukhina T. R. Shamsutdinov N. P. Balaban A. M. Mardanova S. V. Kostrov M. R. Sharipova 《Microbiology》2007,76(5):569-574
Expression of the gene of glutamyl endopeptidase from Bacillus intermedius (gseBi) cloned on the plasmid pV has been studied in Bacillus subtilis recombinant strains with mutations of the regulatory proteins involved in sporogenesis and spore germination. It has been established that inactivation of the regulatory protein Spo0A involved in sporulation initiation resulted in a decrease in the expression of the gseBi gene by 65% on average. A mutation in the gene of the sensor histidine kinase kinA had no effect on the biosynthesis of the enzyme. Inactivation of Ger proteins regulating bacterial spore germination resulted in a 1.5–5-fold decrease in glutamyl endopeptidase activity. It has been concluded that expression of the B. intermedius glutamyl endopeptidase gene from plasmid pV in recombinant cells of B. subtilis is under impaired control by the regulatory system of Spo0F/Spo0A phosphorelay, which participates in sporulation initiation. The regulatory Ger proteins responsible for spore germination also affect expression of the gene of this enzyme. 相似文献
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Guang-Rong Zhao Ting Luo Yong-Jin Zhou Xin Jiang Bin Qiao Feng-Ming Yu Ying-Jin Yuan 《Applied microbiology and biotechnology》2009,83(2):305-313
Streptolydigin, a secondary metabolite produced by Streptomyces lydicus, is a potent inhibitor of bacterial RNA polymerases. It has been suggested that streptolydigin biosynthesis is associated
with polyketide synthase (PKS) and nonribosomal peptide synthetase (NRPS). Thus, there is great interest in understanding
the role of fatty acid biosynthesis in the biosynthesis of streptolydigin. In this paper, we cloned a type II fatty acid synthase
(FAS II) gene cluster of fabDHCF from the genome of S. lydicus and constructed the SlyfabCF-disrupted mutant. Sequence analysis showed that SlyfabDHCF is 3.7 kb in length and encodes four separated proteins with conserved motifs and active residues, as shown in the FAS II
of other bacteria. The SlyfabCF disruption inhibited streptolydigin biosynthesis and retarded mycelial growth, which were likely caused by the inhibition
of fatty acid synthesis. Streptolydigin was not detected in the culture of the mutant strain by liquid chromatography–mass
spectrometry. Meanwhile, the streptolol moiety of streptolydigin accumulated in cultures. As encoded by fabCF, acyl carrier protein (ACP) and β-ketoacyl-ACP synthase II are required for streptolydigin biosynthesis and likely involved
in the step between PKS and NRPS. Our results provide the first genetic and metabolic evidence that SlyfabCF is shared by fatty acid synthesis and antibiotic streptolydigin synthesis. 相似文献