Literature DB >> 16349427

Carbon Source Requirements for Exopolysaccharide Production by Lactobacillus casei CG11 and Partial Structure Analysis of the Polymer.

J Cerning1, C M Renard, J F Thibault, C Bouillanne, M Landon, M Desmazeaud, L Topisirovic.   

Abstract

Exopolysaccharide production by Lactobacillus casei CG11 was studied in basal minimum medium containing various carbon sources (galactose, glucose, lactose, sucrose, maltose, melibiose) at concentrations of 2, 5, 10, and 20 g/liter. L. casei CG11 produced exopolysaccharides in basal minimum medium containing each of the sugars tested; lactose and galactose were the poorest carbon sources, and glucose was by far the most efficient carbon source. Sugar concentrations had a marked effect on polymer yield. Plasmid-cured Muc derivatives grew better in the presence of glucose and attained slightly higher populations than the wild-type strain. The values obtained with lactose were considerably lower for both growth and exopolysaccharide yield. The level of specific polymer production per cell obtained with glucose was distinctively lower for Muc derivatives than for the Muc strain. The polymer produced by L. casei CG11 in the presence of glucose was different from that formed in the presence of lactose. The polysaccharide produced by L. casei CG11 in basal minimum medium containing 20 g of glucose per liter had an intrinsic viscosity of 1.13 dl/g. It was rich in glucose (76%), which was present mostly as 2- or 3-linked residues along with some 2,3 doubly substituted glucose units, and in rhamnose (21%), which was present as 2-linked or terminal rhamnose; traces of mannose and galactose were also present.

Entities:  

Year:  1994        PMID: 16349427      PMCID: PMC201915          DOI: 10.1128/aem.60.11.3914-3919.1994

Source DB:  PubMed          Journal:  Appl Environ Microbiol        ISSN: 0099-2240            Impact factor:   4.792


  13 in total

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2.  Influence of the substituents of the carboxyl groups and of the rhamnose content on the solution properties and flexibility of pectins.

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Journal:  Carbohydr Res       Date:  1992-02-07       Impact factor: 2.104

Review 4.  Bacterial exopolysaccharides.

Authors:  I W Sutherland
Journal:  Adv Microb Physiol       Date:  1972       Impact factor: 3.517

5.  Structure of an exocellular polysaccharide produced by Streptococcus thermophilus.

Authors:  T Doco; J M Wieruszeski; B Fournet; D Carcano; P Ramos; A Loones
Journal:  Carbohydr Res       Date:  1990-05-01       Impact factor: 2.104

Review 6.  Exocellular polysaccharides produced by lactic acid bacteria.

Authors:  J Cerning
Journal:  FEMS Microbiol Rev       Date:  1990-09       Impact factor: 16.408

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Authors:  T Morishita; Y Deguchi; M Yajima; T Sakurai; T Yura
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Authors:  M Gruter; B R Leeflang; J Kuiper; J P Kamerling; J F Vliegenthart
Journal:  Carbohydr Res       Date:  1992-07-02       Impact factor: 2.104

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Authors:  M Gruter; B R Leeflang; J Kuiper; J P Kamerling; J F Vliegenthart
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Authors:  B A Bryan; R J Linhardt; L Daniels
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  25 in total

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3.  Enhancement of Exopolysaccharide Production by Lactobacillus delbrueckii subsp. bulgaricus NCFB 2772 with a Simplified Defined Medium.

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7.  Regulation of exopolysaccharide production by Lactococcus lactis subsp. cremoris By the sugar source.

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