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26 Hits
検索条件 : 絞込み (MeSH = Metabolic Engineering*)
生物種
リソース名
RRC ID
タイトル
ジャーナル
公開日
外部リンク
一般微生物
JCM1131
66787
Metabolically engineered Lactobacillus gasseri JCM 1131 as a novel producer of optically pure L- and D-lactate.
World J Microbiol Biotechnol
2020-7-13
Pubmed
Full text
一般微生物
JCM18229
66708
Isobutanol production in Corynebacterium glutamicum: Suppressed succinate by-production by pckA inactivation and enhanced productivity via the Entner-Doudoroff pathway.
Metab Eng
2020-5-1
Pubmed
Full text
一般微生物
JCM1112
60586
A metabolic reconstruction of Lactobacillus reuteri JCM 1112 and analysis of its potential as a cell factory.
Microb Cell Fact
2019-10-29
Pubmed
Full text
原核生物(大腸菌)
Keio collection
59081
Promoted performance of microbial fuel cells using Escherichia coli cells with multiple-knockout of central metabolism genes.
Bioprocess Biosyst Eng
2020-2-1
Pubmed
Full text
藻類
NIES-2100
,
NIES-2107
,
NIES-3585
58540
Augmenting Fremyella diplosiphon Cellular Lipid Content and Unsaturated Fatty Acid Methyl Esters Via Sterol Desaturase Gene Overexpression.
Appl Biochem Biotechnol
2019-12-1
Pubmed
Full text
原核生物(大腸菌)
JM109
55840
The combination of NAD+-dependent deacetylase gene deletion and the interruption of gluconeogenesis causes increased glucose metabolism in budding yeast.
PLoS One
2018-3-26
Pubmed
Full text
原核生物(大腸菌)
53670
Enhancement of 3-hydroxypropionic acid production from glycerol by using a metabolic toggle switch.
Microb Cell Fact
2015-10-5
Pubmed
Full text
原核生物(大腸菌)
53635
High crude violacein production from glucose by Escherichia coli engineered with interactive control of tryptophan pathway and violacein biosynthetic pathway.
Microb Cell Fact
2015-1-16
Pubmed
Full text
原核生物(大腸菌)
53632
Dual synthetic pathway for 3-hydroxypropionic acid production in engineered Escherichia coli.
J Biosci Bioeng
2015-8-1
Pubmed
Full text
原核生物(大腸菌)
53627
One-Pot Production of L-threo-3-Hydroxyaspartic Acid Using Asparaginase-Deficient Escherichia coli Expressing Asparagine Hydroxylase of Streptomyces coelicolor A3(2).
Appl Environ Microbiol
2015-6-1
Pubmed
Full text
原核生物(大腸菌)
53593
Metabolic engineering of carbon and redox flow in the production of small organic acids.
J Ind Microbiol Biotechnol
2015-3-1
Pubmed
Full text
原核生物(大腸菌)
53554
Production of optically pure d-lactate from glycerol by engineered Klebsiella pneumoniae strain.
Bioresour Technol
2014-11-1
Pubmed
Full text
一般微生物
JCM 16987
51156
Enhanced production of a diastereomer type of mannosylerythritol lipid-B by the basidiomycetous yeast Pseudozyma tsukubaensis expressing lipase genes from Pseudozyma antarctica.
Appl Microbiol Biotechnol
2017-12-1
Pubmed
Full text
酵母
BY20590(D587-4B)
50629
The combination of NAD+-dependent deacetylase gene deletion and the interruption of gluconeogenesis causes increased glucose metabolism in budding yeast.
PLoS One
2018-3-26
Pubmed
Full text
酵母
pGK425
48081
Inverse metabolic engineering based on transient acclimation of yeast improves acid-containing xylose fermentation and tolerance to formic and acetic acids.
Appl Microbiol Biotechnol
2016-1-1
Pubmed
Full text
酵母
pGK424
,
pGK425
,
pGK426
48079
Overexpressing enzymes of the Ehrlich pathway and deleting genes of the competing pathway in Saccharomyces cerevisiae for increasing 2-phenylethanol production from glucose.
J Biosci Bioeng
2016-7-1
Pubmed
Full text
一般微生物
JCM 12072
47559
Improvement of the redox balance increases L-valine production by Corynebacterium glutamicum under oxygen deprivation conditions.
Appl Environ Microbiol
2012-2-1
Pubmed
Full text
一般微生物
JCM 18229
40774
Metabolic engineering for improved production of ethanol by Corynebacterium glutamicum.
Appl Microbiol Biotechnol
2015-2-1
Pubmed
Full text
原核生物(大腸菌)
ME9062(BW25113)
,
Keio collection
,
ASKA
35661
Metabolic engineering of Escherichia coli to enhance hydrogen production from glycerol.
Appl Microbiol Biotechnol
2014-5-1
Pubmed
Full text
原核生物(大腸菌)
MGF-01W?
,
DGF-327WΔ234::SC ?
,
DGF-298WΔ100::revΔ234::SC?
35603
Genetic manipulations restored the growth fitness of reduced-genome Escherichia coli.
J Biosci Bioeng
2013-7-1
Pubmed
Full text