EC Number |
Substrates |
Organism |
Products |
Reversibility |
---|
2.4.1.122 | more |
no acceptor substrates: ovalbumin, beta-N-acetyl-D-glucosaminyl-benzyl |
Homo sapiens |
? |
- |
? |
2.4.1.122 | more |
poor substrates are low-molecular weight acceptors, e.g. N-acetylgalactosamine |
Gallus gallus |
? |
- |
? |
2.4.1.122 | more |
poor substrates are low-molecular weight acceptors, e.g. N-acetylgalactosamine |
Sus scrofa |
? |
- |
? |
2.4.1.122 | more |
no acceptor substrates: type A and type 0 blood group glycoprotein, ovomucoid, ovalbumin, and fetuin devoid of sialic acid and galactose |
Sus scrofa |
? |
- |
? |
2.4.1.122 | more |
terminal alpha-2,6-linked sialic acid residues inhibit the enzyme |
Sus scrofa |
? |
- |
? |
2.4.1.122 | more |
the presence of multiple core-1 beta3GalT genes in Drosophila melanogaster suggests an increased complexity of core-1 O-glycan expression, which is possibly related to multiple developmental and physiological functions attributable to this class of glycans |
Drosophila melanogaster |
? |
- |
? |
2.4.1.122 | more |
elevated preferences for Gly at the +1 position with moderately high preferences for Phe and Tyr in the +3 position relative to the acceptor Thr-O-GalNAc |
Homo sapiens |
? |
- |
? |
2.4.1.122 | more |
enzyme elongates O-GalNAc by adding galactose in a beta1,3 linkage |
Drosophila melanogaster |
? |
- |
? |
2.4.1.122 | more |
core 1 synthase specific molecular chaperone is essential for the expression of functional enzyme |
Homo sapiens |
? |
- |
? |
2.4.1.122 | more |
analysis of glycan structure by mass spectrometry |
Drosophila melanogaster |
? |
- |
- |