Reference on EC 2.8.3.6 - 3-oxoadipate CoA-transferase
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REF. 
AUTHORS
TITLE
JOURNAL
VOL.
PAGES
YEAR
ORGANISM (UNIPROT)
PUBMED ID
SOURCE
Shanley, M.S.; Neidle, E.L.; Parales, R.E.; Ornston, L.N.
Cloning and expression of Acinetobacter calcoaceticus catBCDE genes in Pseudomonas putida and Escherichia coli
J. Bacteriol.
165
557-563
1986
Pseudomonas putida, Acinetobacter calcoaceticus, Escherichia coli, Felis catus
Parke, D.; Ornston, L.N.
Enzymes of the beta-ketoadipate pathway are inducible in Rhizobium and Agrobacterium spp. and constitutive in Bradyrhizobium spp.
J. Bacteriol.
165
288-292
1986
Rhizobiaceae, Agrobacterium, Bradyrhizobium, Rhizobium, Bacteria, Agrobacterium tumefaciens, Agrobacterium rhizogenes, Bradyrhizobium japonicum, Sinorhizobium fredii, Sinorhizobium meliloti, Rhizobium leguminosarum, Vigna unguiculata
Yeh, W.K.; Ornston, L.N.
p-Chloromercuribenzoate specifically modifies thiols associated with the active sites of beta-ketoadipate enol-lactone hydrolase and succinyl CoA: beta-ketoadipate CoA transferase
Arch. Microbiol.
138
102-105
1984
BRENDA: Acinetobacter calcoaceticus, Pseudomonas putida
Textmining: Bacteria
Katagiri, M.; Hayaishi, O.
Enzymatic degradation of beta-ketoadipic acid
J. Biol. Chem.
226
439-448
1957
Pseudomonas fluorescens, Pseudomonas fluorescens 23
Yeh, W.K.; Ornston, L.N.
Evolutionarily homologous alpha 2 beta 2 oligomeric structures in beta-ketoadipate succinyl-CoA transferases from Acinetobacter calcoaceticus and Pseudomonas putida
J. Biol. Chem.
256
1565-1569
1981
Acinetobacter calcoaceticus, Pseudomonas putida
Yeh, W.K.; Ornston, L.N.
Similar structures in gamma-carboxymuconolactone decarboxylase and beta-ketoadipate succinyl coenzyme A transferase
J. Bacteriol.
149
374-377
1982
Pseudomonas putida
Parales, R.E.; Harwood, C.S.
Characterization of the genes encoding beta-ketoadipate: succinyl-coenzyme A transferase in Pseudomonas putida
J. Bacteriol.
174
4657-4666
1992
BRENDA: Pseudomonas putida, Pseudomonas putida (Q01103 and P0A102)
Textmining: Bacteria, Escherichia coli, Sus scrofa, Escherichia phage T7
Gobel, M.; Kassel-Cati, K.; Schmidt, E.; Reineke, W.
Degradation of aromatics and chloroaromatics by Pseudomonas sp. strain B13: cloning, characterization, and analysis of sequences encoding 3-oxoadipate:succinyl-coenzyme A (CoA) transferase and 3-oxoadipyl-CoA thiolase
J. Bacteriol.
184
216-223
2002
Pseudomonas knackmussii (Q8VPF3 and Q8VPF2)
Kaschabek, S.R.; Kuhn, B.; Muller, D.; Schmidt, E.; Reineke, W.
Degradation of aromatics and chloroaromatics by Pseudomonas sp. strain B13: purification and characterization of 3-oxoadipate:succinyl-coenzyme A (CoA) transferase and 3-oxoadipyl-CoA thiolase
J. Bacteriol.
184
207-215
2002
Pseudomonas knackmussii (Q8VPF3 and Q8VPF2)
MacLean, A.M.; MacPherson, G.; Aneja, P.; Finan, T.M.
Characterization of the beta-ketoadipate pathway in Sinorhizobium meliloti
Appl. Environ. Microbiol.
72
5403-5413
2006
BRENDA: Sinorhizobium meliloti
Textmining: Agrobacterium tumefaciens, bacterium
Marin, M.; Perez-Pantoja, D.; Donoso, R.; Wray, V.; Gonzalez, B.; Pieper, D.H.
Modified 3-oxoadipate pathway for the biodegradation of methylaromatics in Pseudomonas reinekei MT1
J. Bacteriol.
192
1543-1552
2010
Pseudomonas reinekei
Okamura-Abe, Y.; Abe, T.; Nishimura, K.; Kawata, Y.; Sato-Izawa, K.; Otsuka, Y.; Nakamura, M.; Kajita, S.; Masai, E.; Sonoki, T.; Katayama, Y.
Beta-ketoadipic acid and muconolactone production from a lignin-related aromatic compound through the protocatechuate 3,4-metabolic pathway
J. Biosci. Bioeng.
121
652-658
2016
Pseudomonas putida, Pseudomonas putida KT 2240
Wang, J.; Zhou, L.; Chen, B.; Sun, S.; Zhang, W.; Li, M.; Tang, H.; Jiang, B.; Tang, J.; He, Y.
A functional 4-hydroxybenzoate degradation pathway in the phytopathogen Xanthomonas campestris is required for full pathogenicity
Sci. Rep.
5
18456
2015
Xanthomonas campestris
Zeman, I.; Nebohacova, M.; Gerecova, G.; Katonova, K.; Janosikova, E.; Jakubkova, M.; Centarova, I.; Dunckova, I.; Tomaska, L.; Pryszcz, L.P.; Gabaldon, T.; Nosek, J.
Mitochondrial carriers link the catabolism of hydroxyaromatic compounds to the central metabolism in Candida parapsilosis
G3 (Bethesda)
6
4047-4058
2016
BRENDA: Candida parapsilosis, Candida parapsilosis CLIB214
Textmining: Mucorales, Saccharomyces cerevisiae
Chakraborty, J.; Rajput, V.; Sapkale, V.; Kamble, S.; Dharne, M.
Spatio-temporal resolution of taxonomic and functional microbiome of Lonar soda lake of India reveals metabolic potential for bioremediation
Chemosphere
264
128574
2020
uncultured bacterium
Schulman, M.; Wood, H.
Succinyl-CoA propionate CoA-transferase from Propionibacterium shermanii EC 2.8.3.6 succinyl-CoA propionate CoA-transferase
Methods Enzymol.
35
235-242
1975
Propionibacterium freudenreichii subsp. shermanii
Hoet, PP; Stanier, RY
Existence and functions of two enzymes with beta-ketoadipate: succinyl-CoA transferase activity in Pseudomonas florescens.
Eur J Biochem
13
71-6
1970
Pseudomonas
Parales, RE; Harwood, CS
Regulation of the pcaIJ genes for aromatic acid degradation in Pseudomonas putida.
J Bacteriol
175
5829-38
1993
Pseudomonas putida
Werner, AZ; Clare, R; Mand, TD; Pardo, I; Ramirez, KJ; Haugen, SJ; Bratti, F; Dexter, GN; Elmore, JR; Huenemann, JD; Peabody, GL; Johnson, CW; Rorrer, NA; Salvacha, D; Guss, AM; Beckham, GT
Tandem chemical deconstruction and biological upcycling of poly(ethylene terephthalate) to ?-ketoadipic acid by Pseudomonas putida KT2440.
Metab Eng
67
250-261
2021
Pseudomonas putida KT2440, Comamonas, Rhodococcus jostii, Ideonella sakaiensis
Parke, D
Supraoperonic clustering of pca genes for catabolism of the phenolic compound protocatechuate in Agrobacterium tumefaciens.
J Bacteriol
177
3808-17
1995
Agrobacterium tumefaciens, Rhizobium leguminosarum bv. trifolii, Transposon Tn5
Iwagami, SG; Yang, K; Davies, J
Characterization of the protocatechuic acid catabolic gene cluster from Streptomyces sp. strain 2065.
Appl Environ Microbiol
66
1499-508
2000
Firmicutes, eukaryota
Romero-Steiner, S; Parales, RE; Harwood, CS; Houghton, JE
Characterization of the pcaR regulatory gene from Pseudomonas putida, which is required for the complete degradation of p-hydroxybenzoate.
J Bacteriol
176
5771-9
1994
Bacteria, Escherichia coli
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