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Titre : |
PTS-mediated cellobiose transport and its effect on virulence gene expression in Listeria monocytogenes
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Auteur(s) : |
Minh Thanh Nguyen Cao, Auteur (et co-auteur)
Josef Deutscher, Directeur de thèse (et co-directeur) |
Type de document : | Thèse |
Sujets : | Listeria monocytogenes -- Analyse -- Thèses et écrits académiques ; Cellobiose -- Croissance -- Thèses et écrits académiques ; Phosphorylation -- Thèses et écrits académiques ; Virulence (microbiologie) -- Tests -- Thèses et écrits académiques |
Résumé : |
Listeria monocytogenes transports cellobiose mainly via a PEP:carbohydrate phosphotranseferase system (PTS). Growth on cellobiose induces the expression of the celBCA1 and celBA2 operons as well as lmrG01989, which encode the soluble EIIA Cel1 and EIIB Cel1 components, the transporter EIIC Cel1 , the EIIA Cel2 and EIIB Cel2 proteins, and a second EIIC Cel , respectively. Growth on lucose strongly repressed the expression of these genes. Deletion of the EIIC Cel1 –encoding celC1 or of both, celA1 and celA2, significantly slowed cellobiose consumption. The bicistronic operon celBA2 is located downstream from celR, which codes for a LevR-like transcription activator. Expression of the three cellobiose-induced transcription units depends on CelR. The gene encoding CelR is located upstream[...]
Listeria monocytogenes transports cellobiose mainly via a PEP:carbohydrate phosphotranseferase system (PTS). Growth on cellobiose induces the expression of the celBCA1 and celBA2 operons as well as lmrG01989, which encode the soluble EIIA Cel1 and EIIB Cel1 components, the transporter EIIC Cel1 , the EIIA Cel2 and EIIB Cel2 proteins, and a second EIIC Cel , respectively. Growth on lucose strongly repressed the expression of these genes. Deletion of the EIIC Cel1 –encoding celC1 or of both, celA1 and celA2, significantly slowed cellobiose consumption. The bicistronic operon celBA2 is located downstream from celR, which codes for a LevR-like transcription activator. Expression of the three cellobiose-induced transcription units depends on CelR. The gene encoding CelR is located upstream from the bicistronic operon celBA2. CelR itself is activated via phosphorylation by EI and HPr at His550. In contrast, phosphorylation at His823, which is catalyzed by both, P~EIIB Cel1 and P~EIIB Cel2 , inhibits CelR activity. Preventing this phosphorylation by replacing His823 with Ala or deleting the two EIIA Cel – or EIIB Cel -encoding genes caused constitutive expression of all three CelR-controlled transcription units. Similar to glucose, cellobiose strongly inhibits the activity of the virulence gene activator PrfA. We therefore tested whether one of the PTS Cel components might be involved in virulence gene repression. Mutants, that exhibit slow cellobiose consumption, were relieved from cellobiose-mediated virulence gene repression, whereas glucose and other PTS-sugars still repressed them. Strikingly, deletion of the presumed monocistronic lmrg_00557, which codes for another EIIB Cel -like PTS component, caused a general relief from carbon source-mediated virulence gene repression, but had no effect on cellobiose or glucose consumption. The gene lmrg_00557 was named vgiB (virulence gene inhibitor B) and the encoded protein, which seems to play a major role in PrfA regulation, was called EIIB Vir . It becomes phosphorylated by PEP and the PTS components enzyme I, HPr and EIIA Cel2 at cysteine-8. Complementation of the ΔvgiB mutant with wild-type vgiB, but also with the Cys8Ala allele restored general virulence gene repression, thus suggesting that it is the unphosphorylated form of EIIB Vir , which inhibits the activity of PrfA.
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Editeur(s) : | Gif-sur-Yvette [France] : Université Paris-Saclay ; Ecole doctorale ABIES (Agriculture Alimentation BIologie Environnement Santé) |
Date de publication : | 2015 |
Format : | 1 vol. (149 p.) / ill. en coul., fig., tabl., graph. / 30 cm |
Note(s) : |
Bibliographie p. 131-148
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Langue(s) : | Anglais |
Lien vers la notice : | https://infodoc.agroparistech.fr/index.php?lvl=notice_display&id=197660 |
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