EC Number |
BRENDA No. |
Title |
Journal |
Volume |
Pages |
Year |
Organism |
PubMed ID |
---|
3.1.1.1 | 751614 |
A fungus-inducible pepper carboxylesterase exhibits antifungal activity by decomposing the outerlayer of fungal cell walls |
Mol. Plant Microbe Interact. |
31 |
505-515 |
2018 |
Capsicum annuum |
29189097 |
3.1.1.1 | 751800 |
An antenna-biased carboxylesterase is specifically active to plant volatiles in Spodoptera exigua |
Pestic. Biochem. Physiol. |
123 |
93-100 |
2015 |
Spodoptera exigua |
26267057 |
3.1.1.1 | 748423 |
An esterase from Thermus thermophilus HB27 with hyper-thermoalkalophilic properties Purification, characterisation and structural modelling |
J. Mol. Catal. B |
70 |
127-137 |
2011 |
Thermus thermophilus |
- |
3.1.1.1 | 752220 |
Autotransporter domain-dependent enzymatic analysis of a novel extremely thermostable carboxylesterase with high biodegradability towards pyrethroid pesticides |
Sci. Rep. |
7 |
3461 |
2017 |
Pseudomonas synxantha |
28615636 |
3.1.1.1 | 752220 |
Autotransporter domain-dependent enzymatic analysis of a novel extremely thermostable carboxylesterase with high biodegradability towards pyrethroid pesticides |
Sci. Rep. |
7 |
3461 |
2017 |
Pseudomonas synxantha PS1 |
28615636 |
3.1.1.1 | 750612 |
Carboxylesterase converts Amplex red to resorufin implications for mitochondrial H2O2 release assays |
Free Radic. Biol. Med. |
90 |
173-183 |
2016 |
Mus musculus |
26577176 |
3.1.1.1 | 750612 |
Carboxylesterase converts Amplex red to resorufin implications for mitochondrial H2O2 release assays |
Free Radic. Biol. Med. |
90 |
173-183 |
2016 |
Mus musculus C57BL/6 |
26577176 |
3.1.1.1 | 751606 |
Catalytic reaction mechanism for drug metabolism in human carboxylesterase-1 cocaine hydrolysis pathway |
Mol. Pharm. |
15 |
3871-3880 |
2018 |
Homo sapiens |
30095924 |
3.1.1.1 | 750021 |
Characterization and structure-activity relationship studies of flavonoids as inhibitors against human carboxylesterase 2 |
Bioorg. Chem. |
77 |
320-329 |
2018 |
Homo sapiens |
29421708 |
3.1.1.1 | 750061 |
Chemical synthesis of an indomethacin ester prodrug and its metabolic activation by human carboxylesterase 1 |
Bioorg. Med. Chem. Lett. |
28 |
997-1000 |
2018 |
Homo sapiens |
29503023 |