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1.2.1.20: glutarate-semialdehyde dehydrogenase

This is an abbreviated version!
For detailed information about glutarate-semialdehyde dehydrogenase, go to the full flat file.

Word Map on EC 1.2.1.20

Reaction

5-Oxopentanoate
+
NADP+
+
H2O
=
Glutarate
+
NADPH
+
H+

Synonyms

davD, davDT davDT, dehydrogenase, glutarate semialdehyde, glutarate dialdehyde dehydrogenase, glutarate semialdehyde dehydrogenase, GSA dehydrogenase

ECTree

     1 Oxidoreductases
         1.2 Acting on the aldehyde or oxo group of donors
             1.2.1 With NAD+ or NADP+ as acceptor
                1.2.1.20 glutarate-semialdehyde dehydrogenase

Reference

Reference on EC 1.2.1.20 - glutarate-semialdehyde dehydrogenase

Please use the Reference Search for a specific query.
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REF.
AUTHORS
TITLE
JOURNAL
VOL.
PAGES
YEAR
ORGANISM (UNIPROT)
PUBMED ID
SOURCE
Chang, Y.F.; Adams, E.
Factors influencing growth on L-lysine by Pseudomonas. Regulation of terminal enzymes in the delta-aminovalerate pathway and growth stimulation by alpha ketoglutarate
J. Biol. Chem.
252
7987-7991
1977
Pseudomonas putida
Manually annotated by BRENDA team
Chang, Y.F.; Adams, E.
Factors influencing growth on L-lysine by Pseudomonas
Methods Enzymol.
17B
166-171
1971
Pseudomonas putida
-
Manually annotated by BRENDA team
Chang, Y.F.; Adams, E.
Glutarate semialdehyde dehydrogenase of Pseudomonas. Purification, properties, and relation to L-lysine catabolism
J. Biol. Chem.
252
7979-7986
1977
Pseudomonas putida
Manually annotated by BRENDA team
Ichihara, A.; Ichihara, E.A.
Metabolism of L-lysine by bacterial enzymes
J. Biochem.
49
154-157
1961
Pseudomonas sp.
Manually annotated by BRENDA team
Rhee, S.K.; Lee, G.M.; Yoon, J.H.; Park, Y.H.; Bae, H.S.; Lee, S.T.
Anaerobic and aerobic degradation of pyridine by a newly isolated denitrifying bacterium
Appl. Environ. Microbiol.
63
2578-2585
1997
Bacteria
Manually annotated by BRENDA team
Yamanishi, Y.; Mihara, H.; Osaki, M.; Muramatsu, H.; Esaki, N.; Sato, T.; Hizukuri, Y.; Goto, S.; Kanehisa, M.
Prediction of missing enzyme genes in a bacterial metabolic network. Reconstruction of the lysine-degradation pathway of Pseudomonas aeruginosa
FEBS J.
274
2262-2273
2007
Pseudomonas aeruginosa PAO1
Manually annotated by BRENDA team
Adkins, J.; Jordan, J.; Nielsen, D.
Engineering Escherichia coli for renewable production of the 5-carbon polyamide building-blocks 5-aminovalerate and glutarate
Biotechnol. Bioeng.
110
1726-1734
2013
Pseudomonas putida, Pseudomonas putida KT 2240
Manually annotated by BRENDA team
Park, S.; Kim, E.; Noh, W.; Park, H.; Oh, Y.; Lee, S.; Song, B.; Jegal, J.; Lee, S.
Metabolic engineering of Escherichia coli for the production of 5-aminovalerate and glutarate as C5 platform chemicals
Metab. Eng.
16
42-47
2013
Pseudomonas putida (Q88RC0), Pseudomonas putida, Pseudomonas putida ATCC 47054 (Q88RC0)
Manually annotated by BRENDA team
Kim, H.T.; Khang, T.U.; Baritugo, K.A.; Hyun, S.M.; Kang, K.H.; Jung, S.H.; Song, B.K.; Park, K.; Oh, M.K.; Kim, G.B.; Kim, H.U.; Lee, S.Y.; Park, S.J.; Joo, J.C.
Metabolic engineering of Corynebacterium glutamicum for the production of glutaric acid, a C5 dicarboxylic acid platform chemical
Metab. Eng.
51
99-109
2019
Pseudomonas putida (Q88RC0), Pseudomonas putida, Pseudomonas putida DSM 6125 (Q88RC0), Pseudomonas putida NCIMB 11950 (Q88RC0), Pseudomonas putida ATCC 47054 (Q88RC0)
Manually annotated by BRENDA team