3.1.1.43: alpha-amino-acid esterase
This is an abbreviated version!
For detailed information about alpha-amino-acid esterase, go to the full flat file.
Word Map on EC 3.1.1.43
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3.1.1.43
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prodrugs
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synthesis
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acetobacter
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turbidans
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xanthomonas
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ampicillin
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valganciclovir
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cephalexin
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promoiety
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beta-lactam
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carrier-mediated
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cocaine
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citri
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alpha/beta-hydrolase
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acylases
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drug development
- 3.1.1.43
-
prodrugs
- synthesis
-
acetobacter
- turbidans
- xanthomonas
- ampicillin
- valganciclovir
- cephalexin
-
promoiety
- beta-lactam
-
carrier-mediated
- cocaine
- citri
-
alpha/beta-hydrolase
- acylases
- drug development
Reaction
Synonyms
AEH, alpha-amino acid ester esterase, alpha-amino acid ester hydrolase, biphenyl hydrolase-like protein, BPH, esterase, alpha-amino acid, VACVase, valacyclovirase
ECTree
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Organic Solvent Stability
Organic Solvent Stability on EC 3.1.1.43 - alpha-amino-acid esterase
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1,1,2-trichloroethane
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50% v/v solution: 80% of maximal activity in hydrolysis of cephalexin
2,3-butanediol
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50% v/v solution: 31% of maximal activity in hydrolysis of cephalexin, 44% of maximal activity in synthesis of cephalexin
2-heptanone
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50% v/v solution: 105% of maximal activity in hydrolysis of cephalexin, 37% of maximal activity in synthesis of cephalexin
2-octanone
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50% v/v solution: 101% of maximal activity in hydrolysis of cephalexin, 101% of maximal activity in synthesis of cephalexin
acetophenone
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50% v/v solution: 57% of maximal activity in hydrolysis of cephalexin
butyl acetate
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50% v/v solution: 106% of maximal activity in hydrolysis of cephalexin
chlorobenzene
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50% v/v solution: 71% of maximal activity in hydrolysis of cephalexin
chloroform
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50% v/v solution: 86% of maximal activity in hydrolysis of cephalexin
dibutyl ether
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50% v/v solution: 113% of maximal activity in hydrolysis of cephalexin, 111% of maximal activity in synthesis of cephalexin
Ethyl acetate
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50% v/v solution: 101% of maximal activity in hydrolysis of cephalexin, 82% of maximal activity in synthesis of cephalexin
heptane
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50% v/v solution: 102% of maximal activity in hydrolysis of cephalexin, 117% of maximal activity in synthesis of cephalexin
hexadecane
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50% v/v solution: 126% of maximal activity in hydrolysis of cephalexin
isopropanol
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50% v/v solution: 18% of maximal activity in hydrolysis of cephalexin, 28% of maximal activity in synthesis of cephalexin
isopropyl acetate
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50% v/v solution: 91% of maximal activity in hydrolysis of cephalexin, 100% of maximal activity in synthesis of cephalexin
Methanol
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50% v/v solution: 13% of maximal activity in hydrolysis of cephalexin, 29% of maximal activity in synthesis of cephalexin
n-Butanol
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50% v/v solution: 65% of maximal activity in hydrolysis of cephalexin, 47% of maximal activity in synthesis of cephalexin
n-decanol
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50% v/v solution: 99% of maximal activity in hydrolysis of cephalexin
n-heptanol
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50% v/v solution: 111% of maximal activity in hydrolysis of cephalexin, 115% of maximal activity in synthesis of cephalexin
n-nonanol
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50% v/v solution: 102% of maximal activity in hydrolysis of cephalexin, 102% of maximal activity in synthesis of cephalexin
n-octanol
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50% v/v solution: 110% of maximal activity in hydrolysis of cephalexin, 119% of maximal activity in synthesis of cephalexin
n-pentanol
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50% v/v solution: 84% of maximal activity in hydrolysis of cephalexin, 73% of maximal activity in synthesis of cephalexin
phenoxy ethanol
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50% v/v solution: 62% of maximal activity in hydrolysis of cephalexin