Engineering Lactococcus lactis for production of mannitol: high yields from food-grade strains deficient in lactate dehydrogenase and the mannitol transport system.
about
Metabolic engineering of lactic acid bacteria for the production of industrially important compoundsPhysiological and Transcriptional Responses of Different Industrial Microbes at Near-Zero Specific Growth RatesChallenges in enzymatic route of mannitol productionTime-resolved determination of the CcpA regulon of Lactococcus lactis subsp. cremoris MG1363.System estimation from metabolic time-series data.Optimization strategies for metabolic networksGenome sequences of Lactococcus lactis MG1363 (revised) and NZ9000 and comparative physiological studies.Towards enhanced galactose utilization by Lactococcus lactisLactate dehydrogenase is the key enzyme for pneumococcal pyruvate metabolism and pneumococcal survival in blood.Effect of oxygen on glucose metabolism: utilization of lactate in Staphylococcus aureus as revealed by in vivo NMR studiesHigh yields of 2,3-butanediol and mannitol in Lactococcus lactis through engineering of NAD⁺ cofactor recycling.High-level production of the low-calorie sugar sorbitol by Lactobacillus plantarum through metabolic engineering.Highly Active and Specific Tyrosine Ammonia-Lyases from Diverse Origins Enable Enhanced Production of Aromatic Compounds in Bacteria and Saccharomyces cerevisiae.High efficiency recombineering in lactic acid bacteriaOverview on sugar metabolism and its control in Lactococcus lactis - the input from in vivo NMR.Availability of public goods shapes the evolution of competing metabolic strategiesBiotechnological production of mannitol and its applications.Biotechnological and in situ food production of polyols by lactic acid bacteria.Overproduction of heterologous mannitol 1-phosphatase: a key factor for engineering mannitol production by Lactococcus lactis.The pool of ADP and ATP regulates anaerobic product formation in resting cells of Lactococcus lactis.CRISPR-Cas9-assisted recombineering in Lactobacillus reuteri.The lactate dehydrogenases encoded by the ldh and ldhB genes in Lactococcus lactis exhibit distinct regulation and catalytic properties - comparative modeling to probe the molecular basis.An extended dynamic model of Lactococcus lactis metabolism for mannitol and 2,3-butanediol production.Production of Mannitol from a High Concentration of Glucose by Candida parapsilosis SK26.001.d-Alanyl-d-Alanine Ligase as a Broad-Host-Range Counterselection Marker in Vancomycin-Resistant Lactic Acid Bacteria.Sugar alcohols—their role in the modern world of sweeteners: a review
P2860
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P2860
Engineering Lactococcus lactis for production of mannitol: high yields from food-grade strains deficient in lactate dehydrogenase and the mannitol transport system.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
@zh
2004年论文
@zh-cn
name
Engineering Lactococcus lactis ...... the mannitol transport system.
@en
type
label
Engineering Lactococcus lactis ...... the mannitol transport system.
@en
prefLabel
Engineering Lactococcus lactis ...... the mannitol transport system.
@en
P2093
P2860
P1476
Engineering Lactococcus lactis ...... the mannitol transport system.
@en
P2093
Ana Rute Neves
Claire A Shearman
Michael J Gasson
Paula Gaspar
P2860
P304
P356
10.1128/AEM.70.3.1466-1474.2004
P407
P577
2004-03-01T00:00:00Z