EC Number |
Title |
Organism |
---|
2.3.1.65 | Carboxy-terminal mutations of bile acid CoA N-acyltransferase alter activity and substrate specificity |
Homo sapiens |
2.3.1.65 | Effects of dietary pectin on the profile and transport of intestinal bile acids in young pigs |
Sus scrofa |
2.3.1.65 | Evolutionary analysis of bile acid-conjugating enzymes reveals a complex duplication and reciprocal loss history |
Bos taurus |
2.3.1.65 | Evolutionary analysis of bile acid-conjugating enzymes reveals a complex duplication and reciprocal loss history |
Felis catus |
2.3.1.65 | Evolutionary analysis of bile acid-conjugating enzymes reveals a complex duplication and reciprocal loss history |
Homo sapiens |
2.3.1.65 | Evolutionary analysis of bile acid-conjugating enzymes reveals a complex duplication and reciprocal loss history |
Mus musculus |
2.3.1.65 | Evolutionary analysis of bile acid-conjugating enzymes reveals a complex duplication and reciprocal loss history |
Loxodonta africana |
2.3.1.65 | Bile acid coenzyme A: amino acid N-acyltransferase in the amino acid conjugation of bile acids |
Rattus norvegicus |
2.3.1.65 | Bile acid coenzyme A: amino acid N-acyltransferase in the amino acid conjugation of bile acids |
Homo sapiens |
2.3.1.65 | Bile acids in infants and children |
Gallus gallus |