EC Number |
General Information |
Reference |
---|
2.4.1.4 | evolution |
amylosucrase belongs to the glycoside hydrolase family 13, GH 13 |
-, 720211 |
2.4.1.4 | evolution |
amylosucrase from Neisseria polysaccharea is a transglucosidase from the GH13 family of glycoside-hydrolases. Natural molecular evolution has modeled a dense hydrogen bond network at subsite 21 responsible for the specific recognition of sucrose and conversely, it has loosened interactions at the subsite 11 creating a highly promiscuous subsite 11. The residues forming these subsites are considered to be likely involved in the activity as well as the overall stability of the enzyme |
737204 |
2.4.1.4 | evolution |
amylosucrase is a kind of glucosyltransferases belonging to the glycoside hydrolase family 13 |
720870 |
2.4.1.4 | evolution |
the enzyme belongs to the aglycoside-hydrolase family 13. Genes spsA,sppA, frkA and amsA are grouped in a transcriptional unit that is named Suc cluster |
737043 |
2.4.1.4 | evolution |
the enzyme belongs to the GH13 family. Amylosucrases adopt a deep pocket topology of about 15 A with the catalytic triad located at the bottom |
735805 |
2.4.1.4 | evolution |
the enzyme belongs to the glycohydrolase family 13, GH13 |
720052 |
2.4.1.4 | evolution |
the enzyme belongs to the glycoside hydrolase family GH13 |
737182 |
2.4.1.4 | evolution |
the enzyme is a glucosyltransferase of the glycoside hydrolase 13 family, that does not require a nucleotide-activated sugar as a glucosyl-donor |
-, 736140 |
2.4.1.4 | evolution |
the putative MFAS protein shares not only catalytic residues, but also five consensus regions (CR I-V), with other ASases, although the overall protein shows a low level of amino acid sequence homology when compared with known ASases (ACAS, AMAS, DGAS, DRAS, and NPAS), overview |
-, 735462 |
2.4.1.4 | more |
active site topology and structure coparisons, overview |
735805 |