Ki Jun Jeong scite author profile

Corynebacterium glutamicum is an important industrial organism that is widely used in the production of amino acids, nucleotides and vitamins. To extend its product spectrum and improve productivity, C. glutamicum needs to undergo further engineering, including the development of applicable promoter system. Here, we isolated new promoters from the fully synthetic promoter library consisting of 70-bp random sequences in C. glutamicum. Using green fluorescent protein (GFP) as a reporter, highly fluorescent cells were screened from the library by fluorescent activated cell sorting (FACS). Twenty potential promoters of various strengths were isolated and characterized through extensive analysis of DNA sequences and mRNA transcripts. Among 20 promoters, 6 promoters which have different strengths were selected and their activities were successfully demonstrated using two model proteins (antibody fragment and endoxylanase). Finally, the strongest promoter (P(H36)) was employed for the secretory production of endoxylanase in fed-batch cultivation, achieving production levels of 746 mg/L in culture supernatant. This is the first report of synthetic promoters constructed in C. glutamicum, and our screening strategy together with the use of synthetic promoters of various strengths will contribute to the future engineering of C. glutamicum.

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Anchored periplasmic expression, a versatile technology for the isolation of high-affinity antibodies from Escherichia coli -expressed libraries

Harvey

Georgiou

Hayhurst

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

201

149

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Anchored periplasmic expression (APEx) is a technology for the isolation of ligand-binding proteins from combinatorial libraries anchored on the periplasmic face of the inner membrane of Escherichia coli. After disruption of the outer membrane by Tris-EDTA-lysozyme, the inner-membrane-anchored proteins readily bind fluorescently labeled ligands as large as 240 kDa. Fluorescently labeled cells are isolated by flow cytometry, and the DNA of isolated clones is rescued by PCR. By using two rounds of APEx, the affinity of a neutralizing antibody to the Bacillus anthracis protective antigen was improved >200-fold, exhibiting a final KD of 21 pM. This approach has several technical advantages compared with previous library screening technologies, including the unique ability to screen for ligand-binding proteins that bind endogenously expressed ligands fused to a short-lived GFP. Further, APEx is able to display proteins either as an N-terminal fusion to a six-residue sequence derived from the native E. coli lipoprotein NlpA, or as a C-terminal fusion to the phage gene three minor coat protein of M13. The latter fusions allow hybrid phage display͞APEx strategies without the need for further subcloning.

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Organizational and Mutational Analysis of a Complete FR-008/Candicidin Gene Cluster Encoding a Structurally Related Polyene Complex

Chen

Huang

Zhou

et al. 2003

Chemistry & Biology

117

124

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The complete gene cluster for biosynthesis of a polyene complex, FR-008, spans 137.2 kb of the genome of Streptomyces sp. FR-008 consisting of six genes for a modular PKS and 15 additional genes. The extensive similarity to the partially characterized candicidin gene cluster in Streptomyces griseus IMRU3570, especially for genes involved in mycosamine biosynthesis, prompted us to compare the compounds produced by Streptomyces sp. FR-008 and Streptomyces griseus IMRU3570, and we found that FR-008 and candicidin complex are identical. A model for biosynthesis of a set of four structurally related FR-008/candicidin compounds was proposed. Deletion of the putative regulatory genes abolished antibiotic production, while disruption of putative glycosyltransferase and GDP-ketosugar aminotransferase functionalities led to the productions of a set of nonmycosaminated aglycones and a novel polyene complex with attachment of altered sugar moiety, respectively.

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Combined transcriptome and proteome analysis of Escherichia coli during high cell density culture

Yoon

Han

Lee

et al. 2003

Biotech & Bioengineering

149

103

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Combined transcriptome and proteome analysis was carried out to understand metabolic and physiological changes of Escherichia coli during the high cell density cultivation (HCDC). The expression of genes of TCA cycle enzymes, NADH dehydrogenase and ATPase, was up-regulated during the exponential fed-batch period and was down-regulated afterward. However, expression of most of the genes involved in glycolysis and pentose phosphate pathway was up-regulated at the stationary phase. The expression of most of amino acid biosynthesis genes was down-regulated as cell density increased, which seems to be the major reason for the reduced specific productivity of recombinant proteins during HCDC. The expression of chaperone genes increased with cell density, suggesting that the high cell density condition itself can be stressful to the cells. Severe competition for oxygen at high cell density seemed to make cells use cytochrome bd, which is less efficient but has a high oxygen affinity than cytochrome bo 3 . Population cell density itself strongly affected the expression of porin protein genes, especially ompF, and hence the permeability of the outer membrane. Expression of phosphate starvation genes was most strongly upregulated toward the end of cultivation. It was also found that E (rpoE) plays a more important role than S (rpoS) at the stationary phase of HCDC. These findings should be invaluable in designing metabolic engineering and fermentation strategies for the production of recombinant proteins and metabolites by HCDC of E. coli.

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Ki Jun Jeong

Isolation of fully synthetic promoters for high‐level gene expression in Corynebacterium glutamicum

Anchored periplasmic expression, a versatile technology for the isolation of high-affinity antibodies from Escherichia coli -expressed libraries

Organizational and Mutational Analysis of a Complete FR-008/Candicidin Gene Cluster Encoding a Structurally Related Polyene Complex

Combined transcriptome and proteome analysis of Escherichia coli during high cell density culture

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