Bacterial exopolysaccharides (EPSs) are mono- or oligo-saccharide units linked by glycosidic bonds, forming homo- or hetero-polymers. In gut commensals, these macromolecules are claimed to protect bacterial cells against gastrointestinal challenges and to be involved in modulating the cross talk between the producing bacterium and its gut environment. The predicted EPS arsenal of theBifidobacteriumgenus, which we designate here as theeps-ome, consists of 9epsgene clusters conserved among different bifidobacterial species and a further 44 uniqueepsloci, together representing a large proportion of the inter(sub)species variability identified among bifidobacterial genomes. Co-cultivations of bifidobacterial species in media simulating adult and infant human gut environments resulted in an increased transcription of key genes for EPS biosynthesis, including glycosyltransferase-encoding genes, as well as genes specifying EPS transporter and polymerase functions, and saccharide biosynthesis and modification enzymes
Modulation of the eps-ome transcription of bifidobacteria through simulation of human intestinal environment / Ferrario, Chiara; Milani, Christian; Mancabelli, Leonardo; Lugli, Gabriele Andrea; Duranti, Sabrina; Mangifesta, Marta; Viappiani, A; Turroni, Francesca; Margolles, A; Ruas Madiedo, P; van Sinderen, D; Ventura, Marco. - In: FEMS MICROBIOLOGY ECOLOGY. - ISSN 0168-6496. - 92:4(2016), pp. 1-12. [10.1093/femsec/fiw056]
Modulation of the eps-ome transcription of bifidobacteria through simulation of human intestinal environment
FERRARIO, CHIARA;MILANI, CHRISTIAN;MANCABELLI, Leonardo;LUGLI, Gabriele Andrea;DURANTI, Sabrina;MANGIFESTA, MARTA;TURRONI, FRANCESCA;VENTURA, Marco
2016-01-01
Abstract
Bacterial exopolysaccharides (EPSs) are mono- or oligo-saccharide units linked by glycosidic bonds, forming homo- or hetero-polymers. In gut commensals, these macromolecules are claimed to protect bacterial cells against gastrointestinal challenges and to be involved in modulating the cross talk between the producing bacterium and its gut environment. The predicted EPS arsenal of theBifidobacteriumgenus, which we designate here as theeps-ome, consists of 9epsgene clusters conserved among different bifidobacterial species and a further 44 uniqueepsloci, together representing a large proportion of the inter(sub)species variability identified among bifidobacterial genomes. Co-cultivations of bifidobacterial species in media simulating adult and infant human gut environments resulted in an increased transcription of key genes for EPS biosynthesis, including glycosyltransferase-encoding genes, as well as genes specifying EPS transporter and polymerase functions, and saccharide biosynthesis and modification enzymesI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
