Inactivation of Corynebacterium glutamicum NCgl0452 and the Role of MgtA in the Biosynthesis of a Novel Mannosylated Glycolipid Involved in Lipomannan Biosynthesis
Mycobacterium tuberculosis PimB has been demonstrated to catalyze the addition of a mannose residue from GDP-mannose to a monoacylated phosphatidyl- myo -inositol mannoside (Ac 1 PIM 1 ) to generate Ac 1 PIM 2 . Herein, we describe the disruption of its probable orthologue Cg- pimB and the chemical...
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| Published in: | The Journal of biological chemistry Vol. 282; no. 7; pp. 4561 - 4572 |
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| Main Authors: | , , , , , , , , , , , |
| Format: | Journal Article |
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American Society for Biochemistry and Molecular Biology
16-02-2007
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| Abstract | Mycobacterium tuberculosis PimB has been demonstrated to catalyze the addition of a mannose residue from GDP-mannose to a monoacylated phosphatidyl- myo -inositol mannoside (Ac 1 PIM 1 ) to generate Ac 1 PIM 2 . Herein, we describe the disruption of its probable orthologue Cg- pimB and the chemical analysis of glycolipids and lipoglycans isolated from wild type Corynebacterium glutamicum and the C. glutamicum :: pimB mutant. Following a careful analysis, two related glycolipids, Gl-A and Gl-X, were found in the parent strain, but Gl-X was
absent from the mutant. The biosynthesis of Gl-X was restored in the mutant by complementation with either Cg- pimB or Mt- pimB . Subsequent chemical analyses established Gl-X as 1,2-di- O -C 16 /C 18:1 -(α- d -mannopyranosyl)-(1â4)-(α- d -glucopyranosyluronic acid)-(1â3)-glycerol (ManGlcAGroAc 2 ) and Gl-A as the precursor, GlcAGroAc 2 . In addition, C. glutamicum :: pimB was still able to produce Ac 1 PIM 2 , suggesting that Cg-PimB catalyzes the synthesis of ManGlcAGroAc 2 from GlcAGroAc 2 . Isolation of lipoglycans from C. glutamicum led to the identification of two related lipoglycans. The larger lipoglycan possessed a lipoarabinomannan-like structure,
whereas the smaller lipoglycan was similar to lipomannan (LM). The absence of ManGlcA-GroAc 2 in C. glutamicum :: pimB led to a severe reduction in LM. These results suggested that ManGlcAGroAc 2 was further extended to an LM-like molecule. Complementation of C. glutamicum :: pimB with Cg- pimB and Mt- pimB led to the restoration of LM biosynthesis. As a result, Cg-PimB, which we have assigned as MgtA, is now clearly defined as
a GDP-mannose-dependent α-mannosyltransferase from our in vitro analyses and is involved in the biosynthesis of ManGlcAGroAc 2 . |
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| AbstractList | Mycobacterium tuberculosis PimB has been demonstrated to catalyze the addition of a mannose residue from GDP-mannose to a monoacylated phosphatidyl-myo-inositol mannoside (Ac(1)PIM(1)) to generate Ac(1)PIM(2). Herein, we describe the disruption of its probable orthologue Cg-pimB and the chemical analysis of glycolipids and lipoglycans isolated from wild type Corynebacterium glutamicum and the C. glutamicum::pimB mutant. Following a careful analysis, two related glycolipids, Gl-A and Gl-X, were found in the parent strain, but Gl-X was absent from the mutant. The biosynthesis of Gl-X was restored in the mutant by complementation with either Cg-pimB or Mt-pimB. Subsequent chemical analyses established Gl-X as 1,2-di-O-C(16)/C(18:1)-(alpha-d-mannopyranosyl)-(1-->4)-(alpha-d-glucopyranosyluronic acid)-(1-->3)-glycerol (ManGlcAGroAc(2)) and Gl-A as the precursor, GlcAGroAc(2). In addition, C. glutamicum::pimB was still able to produce Ac(1)PIM(2), suggesting that Cg-PimB catalyzes the synthesis of ManGlcAGroAc(2) from GlcAGroAc(2). Isolation of lipoglycans from C. glutamicum led to the identification of two related lipoglycans. The larger lipoglycan possessed a lipoarabinomannan-like structure, whereas the smaller lipoglycan was similar to lipomannan (LM). The absence of ManGlcA-GroAc(2) in C. glutamicum::pimB led to a severe reduction in LM. These results suggested that ManGlcAGroAc(2) was further extended to an LM-like molecule. Complementation of C. glutamicum::pimB with Cg-pimB and Mt-pimB led to the restoration of LM biosynthesis. As a result, Cg-PimB, which we have assigned as MgtA, is now clearly defined as a GDP-mannose-dependent alpha-mannosyltransferase from our in vitro analyses and is involved in the biosynthesis of ManGlcAGroAc(2). Mycobacterium tuberculosis PimB has been demonstrated to catalyze the addition of a mannose residue from GDP-mannose to a monoacylated phosphatidyl-myo-inositol mannoside (Ac sub(1)PIM sub(1)) to generate Ac sub(1)PIM sub(2). Herein, we describe the disruption of its probable orthologue Cg-pimB and the chemical analysis of glycolipids and lipoglycans isolated from wild type Corynebacterium glutamicum and the C. glutamicum::pimB mutant. Following a careful analysis, two related glycolipids, Gl-A and Gl-X, were found in the parent strain, but Gl-X was absent from the mutant. The biosynthesis of Gl-X was restored in the mutant by complementation with either Cg-pimB or Mt-pimB. Subsequent chemical analyses established Gl-X as 1,2-di-O-C sub(16)/C sub(18:1)-( alpha -D-mannopyranosyl)-(1 arrow right 4)-( alpha -D-gluco pyranosyluronic acid)-(1 arrow right 3)-glycerol (ManGlcAGroAc sub(2)) and Gl-A as the precursor, GlcAGroAc sub(2). In addition, C. glutamicum::pimB was still able to produce Ac sub(1)PIM sub(2), suggesting that Cg-PimB catalyzes the synthesis of ManGlcAGroAc sub(2) from GlcAGroAc sub(2). Isolation of lipoglycans from C. glutamicum led to the identification of two related lipoglycans. The larger lipoglycan possessed a lipoarabinomannan-like structure, whereas the smaller lipoglycan was similar to lipomannan (LM). The absence of ManGlcA-GroAc sub(2) in C. glutamicum::pimB led to a severe reduction in LM. These results suggested that ManGlcAGroAc sub(2) was further extended to an LM-like molecule. Complementation of C. glutamicum::pimB with Cg-pimB and Mt-pimB led to the restoration of LM biosynthesis. As a result, Cg-PimB, which we have assigned as MgtA, is now clearly defined as a GDP-mannose-dependent alpha -mannosyltransferase from our in vitro analyses and is involved in the biosynthesis of ManGlcAGroAc sub(2). Mycobacterium tuberculosis PimB has been demonstrated to catalyze the addition of a mannose residue from GDP-mannose to a monoacylated phosphatidyl- myo -inositol mannoside (Ac 1 PIM 1 ) to generate Ac 1 PIM 2 . Herein, we describe the disruption of its probable orthologue Cg- pimB and the chemical analysis of glycolipids and lipoglycans isolated from wild type Corynebacterium glutamicum and the C. glutamicum :: pimB mutant. Following a careful analysis, two related glycolipids, Gl-A and Gl-X, were found in the parent strain, but Gl-X was absent from the mutant. The biosynthesis of Gl-X was restored in the mutant by complementation with either Cg- pimB or Mt- pimB . Subsequent chemical analyses established Gl-X as 1,2-di- O -C 16 /C 18:1 -(α- d -mannopyranosyl)-(1â4)-(α- d -glucopyranosyluronic acid)-(1â3)-glycerol (ManGlcAGroAc 2 ) and Gl-A as the precursor, GlcAGroAc 2 . In addition, C. glutamicum :: pimB was still able to produce Ac 1 PIM 2 , suggesting that Cg-PimB catalyzes the synthesis of ManGlcAGroAc 2 from GlcAGroAc 2 . Isolation of lipoglycans from C. glutamicum led to the identification of two related lipoglycans. The larger lipoglycan possessed a lipoarabinomannan-like structure, whereas the smaller lipoglycan was similar to lipomannan (LM). The absence of ManGlcA-GroAc 2 in C. glutamicum :: pimB led to a severe reduction in LM. These results suggested that ManGlcAGroAc 2 was further extended to an LM-like molecule. Complementation of C. glutamicum :: pimB with Cg- pimB and Mt- pimB led to the restoration of LM biosynthesis. As a result, Cg-PimB, which we have assigned as MgtA, is now clearly defined as a GDP-mannose-dependent α-mannosyltransferase from our in vitro analyses and is involved in the biosynthesis of ManGlcAGroAc 2 . |
| Author | Neil Spencer Petr A. Illarionov Jerome Nigou Howard R. Morris Lothar Eggeling Gurdyal S. Besra Paul Hitchen Anne Dell Martine Gilleron Karin Krumbach Raju V. V. Tatituri Lynn G. Dover |
| Author_xml | – sequence: 1 givenname: Raju V V surname: Tatituri fullname: Tatituri, Raju V V organization: School of Biosciences, University of Birmingham, Edgbaston, Birmingham B15 2TT, United Kingdom – sequence: 2 givenname: Petr A surname: Illarionov fullname: Illarionov, Petr A organization: School of Biosciences, University of Birmingham, Edgbaston, Birmingham B15 2TT, United Kingdom – sequence: 3 givenname: Lynn G surname: Dover fullname: Dover, Lynn G organization: School of Biosciences, University of Birmingham, Edgbaston, Birmingham B15 2TT, United Kingdom – sequence: 4 givenname: Jerome surname: Nigou fullname: Nigou, Jerome organization: Institut de Pharmacologie et de Biologie Structurale, UMR CNRS 5089, Toulouse, France – sequence: 5 givenname: Martine surname: Gilleron fullname: Gilleron, Martine organization: Institut de Pharmacologie et de Biologie Structurale, UMR CNRS 5089, Toulouse, France – sequence: 6 givenname: Paul surname: Hitchen fullname: Hitchen, Paul organization: Division of Molecular Biosciences, Faculty of Natural Sciences, Imperial College, London SW7 2AZ, United Kingdom – sequence: 7 givenname: Karin surname: Krumbach fullname: Krumbach, Karin organization: Institute for Biotechnology 1, Research Centre Juelich, D-52425 Juelich, Germany – sequence: 8 givenname: Howard R surname: Morris fullname: Morris, Howard R organization: Division of Molecular Biosciences, Faculty of Natural Sciences, Imperial College, London SW7 2AZ, United Kingdom; M-SCAN Mass Spectrometry Research and Training Centre, Wokingham, Berks RG41 2TZ, United Kingdom, and the – sequence: 9 givenname: Neil surname: Spencer fullname: Spencer, Neil organization: School of Chemistry, University of Birmingham, Edgbaston, Birmingham B15 2TT, United Kingdom – sequence: 10 givenname: Anne surname: Dell fullname: Dell, Anne organization: Institute for Biotechnology 1, Research Centre Juelich, D-52425 Juelich, Germany – sequence: 11 givenname: Lothar surname: Eggeling fullname: Eggeling, Lothar organization: Institute for Biotechnology 1, Research Centre Juelich, D-52425 Juelich, Germany – sequence: 12 givenname: Gurdyal S surname: Besra fullname: Besra, Gurdyal S email: g.besra@bham.ac.uk organization: School of Biosciences, University of Birmingham, Edgbaston, Birmingham B15 2TT, United Kingdom. Electronic address: g.besra@bham.ac.uk |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/17179146$$D View this record in MEDLINE/PubMed |
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| Snippet | Mycobacterium tuberculosis PimB has been demonstrated to catalyze the addition of a mannose residue from GDP-mannose to a monoacylated phosphatidyl- myo... Mycobacterium tuberculosis PimB has been demonstrated to catalyze the addition of a mannose residue from GDP-mannose to a monoacylated... |
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| SubjectTerms | Adenosine Triphosphatases - genetics Adenosine Triphosphatases - metabolism Bacterial Proteins - genetics Bacterial Proteins - metabolism Corynebacterium glutamicum Corynebacterium glutamicum - enzymology Corynebacterium glutamicum - genetics Gene Deletion Genetic Complementation Test Lipopolysaccharides - biosynthesis Mannosyltransferases - genetics Mannosyltransferases - metabolism Membrane Transport Proteins - genetics Membrane Transport Proteins - metabolism Mycobacterium tuberculosis Mycobacterium tuberculosis - enzymology Mycobacterium tuberculosis - genetics Phosphatidylinositols - biosynthesis Phosphatidylinositols - genetics |
| Title | Inactivation of Corynebacterium glutamicum NCgl0452 and the Role of MgtA in the Biosynthesis of a Novel Mannosylated Glycolipid Involved in Lipomannan Biosynthesis |
| URI | http://www.jbc.org/content/282/7/4561.abstract https://www.ncbi.nlm.nih.gov/pubmed/17179146 https://search.proquest.com/docview/19572614 |
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