Glycerol and cobalamin metabolism in lactobacilli: relevance of the propanediol dehydrogenase pdh30

Glycerol and cobalamin metabolism in lactobacilli: relevance of the propanediol dehydrogenase pdh30

The genes involved in the glycerol metabolism, glycerol dehydratase (gdh) and two propanediol dehydrogenases (pdh30 and pdh1734), were analyzed in different reuterin- and non-reuterin-producing lactobacilli of biotechnological interest. All the reuterin-producing lactobacilli expressed the gdh, pdh3...

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Published in:European food research & technology Vol. 241; no. 2; pp. 173 - 184
Main Authors: Langa, Susana, Arqués, Juan L, Gaya, Pilar, Medina, Margarita, Landete, Jose Mª
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-08-2015
Springer Nature B.V
Subjects:
Agriculture
Analytical Chemistry
Antimicrobial agents
Biosynthesis
Biotechnology
Chemistry
Chemistry and Materials Science
Dehydrogenases
Enzymes
Fermentation
Food
food research
Food Science
Forestry
gene targeting
Genes
Genomics
Glycerol
high performance liquid chromatography
Lactobacillus
Liquid chromatography
Metabolism
Metabolites
mutants
Original Paper
Probiotics
Salmonella
Studies
vitamin B12
Spain
Cobalamin
Propanediol dehydrogenases
Reuterin
3-Hydroxypropionic acid
Lactobacilli
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Summary:The genes involved in the glycerol metabolism, glycerol dehydratase (gdh) and two propanediol dehydrogenases (pdh30 and pdh1734), were analyzed in different reuterin- and non-reuterin-producing lactobacilli of biotechnological interest. All the reuterin-producing lactobacilli expressed the gdh, pdh30 and pdh1734, except Lb. coryniformis CECT 5711 which did not contain pdh30. Reuterin production levels in Lb. coryniformis CECT 5711 were much lower than those in reuterin-producing Lb. reuteri. A positive relationship between cobalamin production levels and reuterin production levels was observed in all reuterin-producing lactobacilli tested. Intriguingly, when Lb. coryniformis CECT 5711 was supplemented with cobalamin, a seven times increase in reuterin production was observed. On the other hand, Lb. brevis ESI38 that possess and express gdh, pdh30 and pdh1734, was unable to produce reuterin or cobalamin. To study the role of pdh30 during glycerol metabolism, the gene disruption mutant Lb. brevis INIA ESI38::pORI28-pdh30 was constructed. HPLC analysis of the glycerol fermentation products showed an involvement of the pdh30 in the 3-hydroxypropionic acid (3-HP) biosynthesis. However, Lb. coryniformis, that lack pdh30, showed the higher levels of 3-HP, indicating other catalytic mechanisms to produce 3-HP in this strain. The 1,3-propanediol peak was detected in the Lb. reuteri and Lb. coryniformis chromatograms, but not in Lb. brevis, which also confirm divergences in Lactobacillus glycerol metabolism.
Bibliography:http://dx.doi.org/10.1007/s00217-015-2443-9
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ISSN:1438-2377
1438-2385
DOI:10.1007/s00217-015-2443-9