Bifidobacteria
Bifidobacteria Book Available
The new book on Bifidobacteria: Genomics and Molecular Aspects edited by Baltasar Mayo and Douwe van Sinderen has been published read more ...
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 | Edited by: Baltasar Mayo and Douwe van Sinderen ISBN: 978-1-904455-68-4 Publisher: Caister Academic Press Publication Date: August 2010 Cover: hardback |
Metabolism of bifidobacteria
Category: Bacteria
from David A. Sela, Neil P. J Price and David A. Mills in Bifidobacteria: Genomics and Molecular Aspects
The genus Bifidobacterium possesses a unique fructose-6-phosphate phosphoketolase pathway employed to ferment carbohydrates. Much metabolic research on bifidobacteria has focused on oligosaccharide metabolism as these carbohydrate polymers are available in their otherwise nutrient-limited habitats. Interestingly, infant-associated bifidobacterial phylotypes appear to have evolved the ability to ferment milk oligosaccharides, whereas adult-associated species utilize plant oligosaccharides, consistent with what they encounter in their respective environments. As breast-fed infants often harbor bifidobacteria dominated gut consortia, there have been numerous applications to mimic the bifidogenic properties of milk oligosaccharides. These are broadly classified as plant-derived fructo-oligosaccharides or dairy-derived galacto-oligosaccharides, which are differentially metabolized and distinct from milk oligosaccharide catabolism.
Further reading:
The genus Bifidobacterium possesses a unique fructose-6-phosphate phosphoketolase pathway employed to ferment carbohydrates. Much metabolic research on bifidobacteria has focused on oligosaccharide metabolism as these carbohydrate polymers are available in their otherwise nutrient-limited habitats. Interestingly, infant-associated bifidobacterial phylotypes appear to have evolved the ability to ferment milk oligosaccharides, whereas adult-associated species utilize plant oligosaccharides, consistent with what they encounter in their respective environments. As breast-fed infants often harbor bifidobacteria dominated gut consortia, there have been numerous applications to mimic the bifidogenic properties of milk oligosaccharides. These are broadly classified as plant-derived fructo-oligosaccharides or dairy-derived galacto-oligosaccharides, which are differentially metabolized and distinct from milk oligosaccharide catabolism.
Further reading:
Bifidobacteria
Category: Bacteria
from Bifidobacteria: Genomics and Molecular Aspects
Bifidobacteria are Gram-positive anaerobic bacteria, found naturally in the gut of humans and other mammals. They are widely used as probiotic organisms in a vast array of formulations for the prevention, alleviation and treatment of many intestinal disorders. However bifidobacteria are fastidious microorganisms and difficult to study in the laboratory, so until recently, understanding of their genetics lagged behind that of other high GC content Gram-positive bacteria. The application of modern whole genome approaches to bifidobacteria research has changed all of this, permitting the accumulation of an impressive amount of data, something that could not have been foreseen a few years ago.
Among the myriad of bacterial species that inhabit the human gut and the gut of many animals, bifidobacteria are almost certainly the microbial group that has the greatest effect on the health of the host. In most people, bifidobacteria are present in high numbers (108-109 cells/g of intestinal content) throughout their lives, although each individual permanently harbours only several species or specific biotypes. Apart from lactobacilli, bifidobacteria is the only intestinal microbial group that is generally recognized to possess such positive characteristics through its capacity to produce short chain fatty acids, vitamins, bacteriocins and antibiotic-like substances, and of exerting immunomodulating and immunostimulating activities. Moreover, the bifidobacterial species so far identified lack enzyme urease, azo- and nitro-reductase, beta-glucuronidase and alpha-dehydrolase that exert enzymatic and metabolic effects that are perceived to be toxic to the host. Consequently, bifidobacteria can be considered as valuable probiotics and today they are not only used in the food industry to relieve and treat many intestinal disorders, but they are increasingly attracting the scientific interest of clinicians and researchers.
Further reading:
Bifidobacteria are Gram-positive anaerobic bacteria, found naturally in the gut of humans and other mammals. They are widely used as probiotic organisms in a vast array of formulations for the prevention, alleviation and treatment of many intestinal disorders. However bifidobacteria are fastidious microorganisms and difficult to study in the laboratory, so until recently, understanding of their genetics lagged behind that of other high GC content Gram-positive bacteria. The application of modern whole genome approaches to bifidobacteria research has changed all of this, permitting the accumulation of an impressive amount of data, something that could not have been foreseen a few years ago.
Among the myriad of bacterial species that inhabit the human gut and the gut of many animals, bifidobacteria are almost certainly the microbial group that has the greatest effect on the health of the host. In most people, bifidobacteria are present in high numbers (108-109 cells/g of intestinal content) throughout their lives, although each individual permanently harbours only several species or specific biotypes. Apart from lactobacilli, bifidobacteria is the only intestinal microbial group that is generally recognized to possess such positive characteristics through its capacity to produce short chain fatty acids, vitamins, bacteriocins and antibiotic-like substances, and of exerting immunomodulating and immunostimulating activities. Moreover, the bifidobacterial species so far identified lack enzyme urease, azo- and nitro-reductase, beta-glucuronidase and alpha-dehydrolase that exert enzymatic and metabolic effects that are perceived to be toxic to the host. Consequently, bifidobacteria can be considered as valuable probiotics and today they are not only used in the food industry to relieve and treat many intestinal disorders, but they are increasingly attracting the scientific interest of clinicians and researchers.
Further reading:
Bifidobacteria book
Baltasar Mayo and Douwe van Sinderen (Asturias, Spain and Cork, Ireland; respectively) present a new publication Bifidobacteria: Genomics and Molecular Aspects
This book brings together the expertise and enthusiasm of leading bifidobacteria experts from around the world to provide a state-of-the art overview of the molecular biology and genomics of this important microbial genus. Topics include: ecology, genomics, comparative genomics, metabolism, acid and bile resistance, stress response, probiotic properties, antimicrobial activity, interaction with the intestinal mucosa, safety assessment of bifidobacteria, synthesis and utilization of exopolysaccharides and prebiotics, antibiotic resistance/susceptibility profiles, viability and stability in commercial preparations, mobile genetic elements, cloning vectors and genetic manipulation of bifidobacteria read more ...
This book brings together the expertise and enthusiasm of leading bifidobacteria experts from around the world to provide a state-of-the art overview of the molecular biology and genomics of this important microbial genus. Topics include: ecology, genomics, comparative genomics, metabolism, acid and bile resistance, stress response, probiotic properties, antimicrobial activity, interaction with the intestinal mucosa, safety assessment of bifidobacteria, synthesis and utilization of exopolysaccharides and prebiotics, antibiotic resistance/susceptibility profiles, viability and stability in commercial preparations, mobile genetic elements, cloning vectors and genetic manipulation of bifidobacteria read more ...
| Edited by: Baltasar Mayo and Douwe van Sinderen ISBN: 978-1-904455-68-4 Publisher: Caister Academic Press Publication Date: August 2010 Cover: Hardback |
New Book on Bifidobacteria
Category: Books
The following new book has been announced:
| Edited by: Baltasar Mayo and Douwe van Sinderen ISBN: 978-1-904455-68-4 Publisher: Caister Academic Press Publication Date: August 2010 Cover: Hardback read more ... |