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A molecular sensor that allows a gut commensal to control its nutrient foundation in a competitive ecosystem
Hooper LV; Xu J; Falk PG; Midtvedt T; Gordon JI
1999
Source PublicationPNAS
Issue17
Abstract

Little is known about how members of the indigenous microflora interact with their mammalian hosts to establish mutually beneficial relationships. We have used a gnotobiotic mouse model to show that Bacteroides thetaiotaomicron, a component of the intestinal microflora of mice and humans, uses a repressor, FucR, as a molecular sensor of L-fucose availability. FucR coordinates expression of an operon encoding enzymes in the L-fucose metabolic pathway with expression of another locus that regulates production of fucosylated glycans in intestinal enterocytes. Genetic and biochemical studies indicate that FucR does this by using fucose as an inducer at one locus and as a corepressor at the other locus. Coordinating this commensal's immediate nutritional requirements with production of a host-derived energy source is consistent with its need to enter and persist within a competitive ecosystem.

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Little is known about how members of the indigenous microflora interact with their mammalian hosts to establish mutually beneficial relationships. We have used a gnotobiotic mouse model to show that Bacteroides thetaiotaomicron, a component of the intestinal microflora of mice and humans, uses a repressor, FucR, as a molecular sensor of L-fucose availability. FucR coordinates expression of an operon encoding enzymes in the L-fucose metabolic pathway with expression of another locus that regulates production of fucosylated glycans in intestinal enterocytes. Genetic and biochemical studies indicate that FucR does this by using fucose as an inducer at one locus and as a corepressor at the other locus. Coordinating this commensal's immediate nutritional requirements with production of a host-derived energy source is consistent with its need to enter and persist within a competitive ecosystem.

Language英语
Document Type期刊论文
Identifierhttp://ir.qibebt.ac.cn/handle/337004/1080
Collection单细胞中心组群
Recommended Citation
GB/T 7714
Hooper LV,Xu J,Falk PG,et al. A molecular sensor that allows a gut commensal to control its nutrient foundation in a competitive ecosystem[J]. PNAS,1999(17).
APA Hooper LV,Xu J,Falk PG,Midtvedt T,&Gordon JI.(1999).A molecular sensor that allows a gut commensal to control its nutrient foundation in a competitive ecosystem.PNAS(17).
MLA Hooper LV,et al."A molecular sensor that allows a gut commensal to control its nutrient foundation in a competitive ecosystem".PNAS .17(1999).
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