Characterization of the mannan-degrading system of cellulomonas fimi

Characterization of the mannan-degrading system of cellulomonas fimi

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In this study the mannan-degrading system of the Gram positive bacterium Cellulomonas fimi was characterised. C. fimi can degrade different forms of mannan and can use the degradation products as carbon and energy source. This study focuses on the galactomannan-degrading system which was found to...

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Main Author: Stoll, Dominik
Format: Others
Language:English
Published: 2009
Online Access:http://hdl.handle.net/2429/9603
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spelling ndltd-UBC-oai-circle.library.ubc.ca-2429-96032018-01-05T17:34:49Z Characterization of the mannan-degrading system of cellulomonas fimi Stoll, Dominik In this study the mannan-degrading system of the Gram positive bacterium Cellulomonas fimi was characterised. C. fimi can degrade different forms of mannan and can use the degradation products as carbon and energy source. This study focuses on the galactomannan-degrading system which was found to be composed of one secreted endo- 1,4- β -mannanase (Man26A), one intracellular l,4-β-mannosidase (Man2A) and one intracellular 1,6-α-galactosidase. The genes encoding Man26A and Man2A have been isolated and sequenced, and the enzyme activities were investigated. The endo-l,4- β -mannanase (Man26A) has a multidomain structure and comprises a family 26 catalytic domain, a mannan-binding domain (MBD), a S-layer homology domain (SLH domain) and a domain of yet unknown function. Mannanase activity was detected on the cell surface and in the culture supernatant. It is believed that the SLH domain mediates transient binding of Man26A to the cell surface and the MBD mediates binding to the substrate. Strong binding of the MBD to soluble mannan was detected and its potential as an affinity tag for protein purification in aqueous 2-phase systems was tested. The 1,4- β -mannosidase (Man2A), cleaves β -1,4 mannosidic linkages with net retention of the anomeric configuration. Man2A was transformed into the glycosynthase Man2A E519A by mutating the catalytic nucleophile, E519 to alanine. Glycosynthases are retaining glycosidases without hydrolytic but with synthetic activity. Using α-mannosyl fluoride as donor and p-nitrophenyl sugars as acceptors, the glycosynthase Man2A E519A catalyzed the synthesis of β -1,4 and β -1,3 mannosidic linkages. In this study the biology of mannan-degradation by C. fimi was investigated and the biotechnological potential of its components was explored. Science, Faculty of Microbiology and Immunology, Department of Graduate 2009-06-25T18:29:54Z 2009-06-25T18:29:54Z 1998 1998-11 Text Thesis/Dissertation http://hdl.handle.net/2429/9603 eng For non-commercial purposes only, such as research, private study and education. Additional conditions apply, see Terms of Use https://open.library.ubc.ca/terms_of_use. 20669788 bytes application/pdf
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description In this study the mannan-degrading system of the Gram positive bacterium Cellulomonas fimi was characterised. C. fimi can degrade different forms of mannan and can use the degradation products as carbon and energy source. This study focuses on the galactomannan-degrading system which was found to be composed of one secreted endo- 1,4- β -mannanase (Man26A), one intracellular l,4-β-mannosidase (Man2A) and one intracellular 1,6-α-galactosidase. The genes encoding Man26A and Man2A have been isolated and sequenced, and the enzyme activities were investigated. The endo-l,4- β -mannanase (Man26A) has a multidomain structure and comprises a family 26 catalytic domain, a mannan-binding domain (MBD), a S-layer homology domain (SLH domain) and a domain of yet unknown function. Mannanase activity was detected on the cell surface and in the culture supernatant. It is believed that the SLH domain mediates transient binding of Man26A to the cell surface and the MBD mediates binding to the substrate. Strong binding of the MBD to soluble mannan was detected and its potential as an affinity tag for protein purification in aqueous 2-phase systems was tested. The 1,4- β -mannosidase (Man2A), cleaves β -1,4 mannosidic linkages with net retention of the anomeric configuration. Man2A was transformed into the glycosynthase Man2A E519A by mutating the catalytic nucleophile, E519 to alanine. Glycosynthases are retaining glycosidases without hydrolytic but with synthetic activity. Using α-mannosyl fluoride as donor and p-nitrophenyl sugars as acceptors, the glycosynthase Man2A E519A catalyzed the synthesis of β -1,4 and β -1,3 mannosidic linkages. In this study the biology of mannan-degradation by C. fimi was investigated and the biotechnological potential of its components was explored. === Science, Faculty of === Microbiology and Immunology, Department of === Graduate
author Stoll, Dominik
spellingShingle Stoll, Dominik
Characterization of the mannan-degrading system of cellulomonas fimi
author_facet Stoll, Dominik
author_sort Stoll, Dominik
title Characterization of the mannan-degrading system of cellulomonas fimi
title_short Characterization of the mannan-degrading system of cellulomonas fimi
title_full Characterization of the mannan-degrading system of cellulomonas fimi
title_fullStr Characterization of the mannan-degrading system of cellulomonas fimi
title_full_unstemmed Characterization of the mannan-degrading system of cellulomonas fimi
title_sort characterization of the mannan-degrading system of cellulomonas fimi
publishDate 2009
url http://hdl.handle.net/2429/9603
work_keys_str_mv AT stolldominik characterizationofthemannandegradingsystemofcellulomonasfimi
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