sigma54-Mediated control of the mannose phosphotransferase sytem in Lactobacillus plantarum impacts on carbohydrate metabolism

sigma54-Mediated control of the mannose phosphotransferase sytem in Lactobacillus plantarum impacts on carbohydrate metabolism

Sigma factors direct specific binding of the bacterial RNA polymerase to the promoter. Here we present the elucidation of the sigma(54 ) regulon in Lactobacillus plantarum. A sequence-based regulon prediction of sigma(54)-dependent promoters revealed an operon encoding a mannose phosphotransferase system (PTS) as the best candidate for sigma(54)-mediated control. A sigma (54) (rpoN) mutant derivative did not grow on mannose, confirming this prediction. Additional mutational analyses established the presence of one functional mannose PTS in L. plantarum, the expression of which is controlled by sigma(54) in concert with the sigma(54)-activator ManR. Genome-wide transcription comparison of the wild-type and the rpoN-deletion strain revealed nine upregulated genes in the wild-type, including the genes of the mannose PTS, and 21 upregulated genes in the rpoN mutant. The sigma(54)-controlled mannose PTS was shown also to transport glucose in L. plantarum wild-type cells, and its presence causes a lag phase when cultures are transferred from glucose- to galactose-containing media. The mannose PTS appeared to drain phosphoenolpyruvate (PEP) pools in resting cells, since no PEP could be detected in resting wild-type cells, while mannose PTS mutant derivatives contained 1-3 muM PEP (mg protein)(-1 ). Our data provide new insight into the role of sigma( 54) in L. plantarum and possibly other Gram-positive bacteria in the control of expression of an important glucose transporter that contributes to glucose-mediated catabolite control via modulation of the PEP pool

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Main Authors: Stevens, M.J.A., Molenaar, D., de Jong, A., de Vos, W.M., Kleerebezem, M.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:bacillus-subtilis, enterococcus-faecalis, escherichia-coli, klebsiella-pneumoniae, lactose transport-system, listeria-monocytogenes, mesentericin y105, sigma(54)-dependent genes, streptococcus-thermophilus, transcriptional activator,
Online Access:https://research.wur.nl/en/publications/sigma54-mediated-control-of-the-mannose-phosphotransferase-sytem-
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spelling dig-wur-nl-wurpubs-3989962024-12-04 Stevens, M.J.A. Molenaar, D. de Jong, A. de Vos, W.M. Kleerebezem, M. Article/Letter to editor Microbiology 156 (2010) 3 ISSN: 1350-0872 sigma54-Mediated control of the mannose phosphotransferase sytem in Lactobacillus plantarum impacts on carbohydrate metabolism 2010 Sigma factors direct specific binding of the bacterial RNA polymerase to the promoter. Here we present the elucidation of the sigma(54 ) regulon in Lactobacillus plantarum. A sequence-based regulon prediction of sigma(54)-dependent promoters revealed an operon encoding a mannose phosphotransferase system (PTS) as the best candidate for sigma(54)-mediated control. A sigma (54) (rpoN) mutant derivative did not grow on mannose, confirming this prediction. Additional mutational analyses established the presence of one functional mannose PTS in L. plantarum, the expression of which is controlled by sigma(54) in concert with the sigma(54)-activator ManR. Genome-wide transcription comparison of the wild-type and the rpoN-deletion strain revealed nine upregulated genes in the wild-type, including the genes of the mannose PTS, and 21 upregulated genes in the rpoN mutant. The sigma(54)-controlled mannose PTS was shown also to transport glucose in L. plantarum wild-type cells, and its presence causes a lag phase when cultures are transferred from glucose- to galactose-containing media. The mannose PTS appeared to drain phosphoenolpyruvate (PEP) pools in resting cells, since no PEP could be detected in resting wild-type cells, while mannose PTS mutant derivatives contained 1-3 muM PEP (mg protein)(-1 ). Our data provide new insight into the role of sigma( 54) in L. plantarum and possibly other Gram-positive bacteria in the control of expression of an important glucose transporter that contributes to glucose-mediated catabolite control via modulation of the PEP pool en application/pdf https://research.wur.nl/en/publications/sigma54-mediated-control-of-the-mannose-phosphotransferase-sytem- 10.1099/mic.0.034165-0 https://edepot.wur.nl/53958 bacillus-subtilis enterococcus-faecalis escherichia-coli klebsiella-pneumoniae lactose transport-system listeria-monocytogenes mesentericin y105 sigma(54)-dependent genes streptococcus-thermophilus transcriptional activator Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic bacillus-subtilis
enterococcus-faecalis
escherichia-coli
klebsiella-pneumoniae
lactose transport-system
listeria-monocytogenes
mesentericin y105
sigma(54)-dependent genes
streptococcus-thermophilus
transcriptional activator
bacillus-subtilis
enterococcus-faecalis
escherichia-coli
klebsiella-pneumoniae
lactose transport-system
listeria-monocytogenes
mesentericin y105
sigma(54)-dependent genes
streptococcus-thermophilus
transcriptional activator
spellingShingle bacillus-subtilis
enterococcus-faecalis
escherichia-coli
klebsiella-pneumoniae
lactose transport-system
listeria-monocytogenes
mesentericin y105
sigma(54)-dependent genes
streptococcus-thermophilus
transcriptional activator
bacillus-subtilis
enterococcus-faecalis
escherichia-coli
klebsiella-pneumoniae
lactose transport-system
listeria-monocytogenes
mesentericin y105
sigma(54)-dependent genes
streptococcus-thermophilus
transcriptional activator
Stevens, M.J.A.
Molenaar, D.
de Jong, A.
de Vos, W.M.
Kleerebezem, M.
sigma54-Mediated control of the mannose phosphotransferase sytem in Lactobacillus plantarum impacts on carbohydrate metabolism
description Sigma factors direct specific binding of the bacterial RNA polymerase to the promoter. Here we present the elucidation of the sigma(54 ) regulon in Lactobacillus plantarum. A sequence-based regulon prediction of sigma(54)-dependent promoters revealed an operon encoding a mannose phosphotransferase system (PTS) as the best candidate for sigma(54)-mediated control. A sigma (54) (rpoN) mutant derivative did not grow on mannose, confirming this prediction. Additional mutational analyses established the presence of one functional mannose PTS in L. plantarum, the expression of which is controlled by sigma(54) in concert with the sigma(54)-activator ManR. Genome-wide transcription comparison of the wild-type and the rpoN-deletion strain revealed nine upregulated genes in the wild-type, including the genes of the mannose PTS, and 21 upregulated genes in the rpoN mutant. The sigma(54)-controlled mannose PTS was shown also to transport glucose in L. plantarum wild-type cells, and its presence causes a lag phase when cultures are transferred from glucose- to galactose-containing media. The mannose PTS appeared to drain phosphoenolpyruvate (PEP) pools in resting cells, since no PEP could be detected in resting wild-type cells, while mannose PTS mutant derivatives contained 1-3 muM PEP (mg protein)(-1 ). Our data provide new insight into the role of sigma( 54) in L. plantarum and possibly other Gram-positive bacteria in the control of expression of an important glucose transporter that contributes to glucose-mediated catabolite control via modulation of the PEP pool
format Article/Letter to editor
topic_facet bacillus-subtilis
enterococcus-faecalis
escherichia-coli
klebsiella-pneumoniae
lactose transport-system
listeria-monocytogenes
mesentericin y105
sigma(54)-dependent genes
streptococcus-thermophilus
transcriptional activator
author Stevens, M.J.A.
Molenaar, D.
de Jong, A.
de Vos, W.M.
Kleerebezem, M.
author_facet Stevens, M.J.A.
Molenaar, D.
de Jong, A.
de Vos, W.M.
Kleerebezem, M.
author_sort Stevens, M.J.A.
title sigma54-Mediated control of the mannose phosphotransferase sytem in Lactobacillus plantarum impacts on carbohydrate metabolism
title_short sigma54-Mediated control of the mannose phosphotransferase sytem in Lactobacillus plantarum impacts on carbohydrate metabolism
title_full sigma54-Mediated control of the mannose phosphotransferase sytem in Lactobacillus plantarum impacts on carbohydrate metabolism
title_fullStr sigma54-Mediated control of the mannose phosphotransferase sytem in Lactobacillus plantarum impacts on carbohydrate metabolism
title_full_unstemmed sigma54-Mediated control of the mannose phosphotransferase sytem in Lactobacillus plantarum impacts on carbohydrate metabolism
title_sort sigma54-mediated control of the mannose phosphotransferase sytem in lactobacillus plantarum impacts on carbohydrate metabolism
url https://research.wur.nl/en/publications/sigma54-mediated-control-of-the-mannose-phosphotransferase-sytem-
work_keys_str_mv AT stevensmja sigma54mediatedcontrolofthemannosephosphotransferasesyteminlactobacillusplantarumimpactsoncarbohydratemetabolism
AT molenaard sigma54mediatedcontrolofthemannosephosphotransferasesyteminlactobacillusplantarumimpactsoncarbohydratemetabolism
AT dejonga sigma54mediatedcontrolofthemannosephosphotransferasesyteminlactobacillusplantarumimpactsoncarbohydratemetabolism
AT devoswm sigma54mediatedcontrolofthemannosephosphotransferasesyteminlactobacillusplantarumimpactsoncarbohydratemetabolism
AT kleerebezemm sigma54mediatedcontrolofthemannosephosphotransferasesyteminlactobacillusplantarumimpactsoncarbohydratemetabolism
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