Activation of Silent
 gal
 Genes in the
 lac-gal
 Regulon of
 Streptococcus thermophilus

Vaughan, Elaine E.; Bogaard, Patrick T. C. van den; Catzeddu, Pasquale; Kuipers, Oscar P.; Vos, Willem M. de

doi:10.1128/jb.183.4.1184-1194.2001

Cited by 89 publications

(121 citation statements)

References 60 publications

(49 reference statements)

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“…Mutations to a galactose-positive phenotype do not result in constitutive expression of the gal genes, which strongly suggests that S. thermophilus was Gal positive and became Gal negative in the recent past (30). Currently, the Gal-negative phenotype has been ascribed to a defect in the induction mechanism of GalK, which seems to be the rate-limiting enzyme of the Leloir pathway (2).…”

mentioning

confidence: 98%

“…However, under appropriate selective conditions, such as limited lactose and excess galactose concentrations, Gal-positive derivatives of S. thermophilus can be obtained which ferment galactose and possess Leloir enzyme activities (11,14,22). It has been shown that the Gal-negative S. thermophilus strain CNRZ 302 contains structurally intact genes for the Leloir pathway enzymes, but that they are weakly transcribed, while independently isolated Gal-positive mutants contain up mutations in the gal promoter (30). The function of GalR has been determined as a transcriptional activator of both the gal and lac operons, which negatively regulates its own expression (30).…”

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confidence: 99%

“…The galR gene is divergently transcribed and the gal operon consists of galK, galT, and galE. A polycistronic mRNA transcript galKTE has been reported in two S. thermophilus strains, namely CNRZ 302 and SMQ-301 (28,30). The galM gene has its own promoter (30).…”

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confidence: 99%

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Molecular and Biochemical Analysis of the Galactose Phenotype of Dairy Streptococcus thermophilus Strains Reveals Four Different Fermentation Profiles

Vin

Rådström

Herman³

et al. 2005

Appl Environ Microbiol

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Lactose-limited fermentations of 49 dairy Streptococcus thermophilus strains revealed four distinct fermentation profiles with respect to galactose consumption after lactose depletion. All the strains excreted galactose into the medium during growth on lactose, except for strain IMDOST40, which also displayed extremely high galactokinase (GalK) activity. Among this strain collection eight galactose-positive phenotypes sensu stricto were found and their fermentation characteristics and Leloir enzyme activities were measured. As the gal promoter seems to play an important role in the galactose phenotype, the galR-galK intergenic region was sequenced for all strains yielding eight different nucleotide sequences (NS1 to NS8). The gal promoter played an important role in the Gal-positive phenotype but did not determine it exclusively. Although GalT and GalE activities were detected for all Gal-positive strains, GalK activity could only be detected for two out of eight Gal-positive strains. This finding suggests that the other six S. thermophilus strains metabolize galactose via an alternative route. For each type of fermentation profile obtained, a representative strain was chosen and four complete Leloir gene clusters were sequenced. It turned out that Gal-positive strains contained more amino acid differences within their gal genes than Gal-negative strains. Finally, the biodiversity regarding lactosegalactose utilization among the different S. thermophilus strains used in this study was shown by RAPD-PCR. Five Gal-positive strains that contain nucleotide sequence NS2 in their galR-galK intergenic region were closely related.

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confidence: 99%

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Molecular and Biochemical Analysis of the Galactose Phenotype of Dairy Streptococcus thermophilus Strains Reveals Four Different Fermentation Profiles

Vin

Rådström

Herman³

et al. 2005

Appl Environ Microbiol

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“…Although a moderate thermophile, it is phylogenetically related to the more mesophilic lactococci and has a comparable low G+C ratio (40%). Genes coding for metabolic pathways involved in sugar catabolism (Poolman et al 1989;Vaughan et al 2001), protein and peptide utilization (Fernandez-Espla et al 2000;Garault et al 2002), polysaccharide production (Almirón-Roig et al 2000), the stress response system (Perrin et al 1999), and phage resistance mechanisms (Solow & Somkuti 2000;Burrus 2001) have been sequenced and characterized. Although most strains do not harbor plasmids, other mobile elements have been reported (Guedon et.…”

Section: Streptococcus Thermophilus Lmd-9 (Contributed By Robert Hutkmentioning

confidence: 99%

Discovering lactic acid bacteria by genomics

Klaenhammer

Altermann

Arigoni

et al. 2002

Lactic Acid Bacteria: Genetics, Metabolism and Applications

134

145

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This review summarizes a collection of lactic acid bacteria that are now undergoing genomic sequencing and analysis. Summaries are presented on twenty different species, with each overview discussing the organisms fundamental and practical significance, environmental habitat, and its role in fermentation, bioprocessing, or probiotics. For those projects where genome sequence data were available by March 2002, summaries include 30 a listing of key statistics and interesting genomic features. These efforts will revolutionize our molecular view of Gram-positive bacteria, as up to 15 genomes from the low GC content lactic acid bacteria are expected to be available in the public domain by the end of 2003. Our collective view of the lactic acid bacteria will be fundamentally changed as we rediscover the relationships and capabilities of these organisms through genomics.

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“…The glucose moiety is further metabolized via glycolysis, whereas the galactose moiety follows different pathways depending on the particular LAB. While some thermophilic strains of LAB (e.g., Lactobacillus bulgaricus and Streptococcus thermophilus) are known to release the galactose moiety of lactose into the medium, other LAB (e.g., Lactobacillus helveticus, Leuconostoc lactis and Streptococcus salivarius) metabolize this saccharide via the Leloir pathway (de Vos, 1996;Poolman, 1993;Vaughan et al, 2001). This pathway was one of the first central metabolic pathways to be discovered, by L. F. Leloir and coworkers in the early 1950s.…”

Section: Lactose Permease-β-galactosidase Systemsmentioning

confidence: 99%

Lactose and β-Glucosides Metabolism and Its Regulation in Lactococcus lactis: A Review

Aleksandrzak‐Piekarczyk¹

2013

Lactic Acid Bacteria - R &Amp; D for Food, Health and Livestock Purposes

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Activation of Silent gal Genes in the lac-gal Regulon of Streptococcus thermophilus

Cited by 89 publications

References 60 publications

Molecular and Biochemical Analysis of the Galactose Phenotype of Dairy Streptococcus thermophilus Strains Reveals Four Different Fermentation Profiles

Molecular and Biochemical Analysis of the Galactose Phenotype of Dairy Streptococcus thermophilus Strains Reveals Four Different Fermentation Profiles

Discovering lactic acid bacteria by genomics

Lactose and β-Glucosides Metabolism and Its Regulation in Lactococcus lactis: A Review

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