EC Number |
General Information |
Reference |
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2.4.1.170 | evolution |
nine different GmUGT cDNAs that are related to GmUGT1 are obtained, some of which are classified into two phylogenetically different subgroups, phylogenetic analysis, overview. The enzymes of subgroup A, GmUGT3, GmUGT4, and GmUGT9, all are highly specific for isoflavones. Gene GmUGT4, a representative of subgroup A, encodes a UGT that is highly specific for isoflavones and is mainly expressed in the lateral roots and seeds, while gene GmUGT1, a representative of subgroup B, encodes an enzyme displaying a broad glucosyl-acceptor specificity and is expressed in the aerial parts, i.e. cotyledons, hypocotyls and pods |
736973 |
2.4.1.170 | evolution |
nine different GmUGT cDNAs that are related to GmUGT1, UniProt ID A6BM07, are obtained, some of which are classified into two phylogenetically different subgroups, phylogenetic analysis, overview |
736973 |
2.4.1.170 | evolution |
nine different GmUGT cDNAs that are related to GmUGT1, UniProt ID A6BM07, are obtained, some of which are classified into two phylogenetically different subgroups, phylogenetic analysis, overview. The enzymes of subgroup A, GmUGT3, GmUGT4, and GmUGT9, all are highly specific for isoflavones |
736973 |
2.4.1.170 | evolution |
nine different GmUGT cDNAs that are related to GmUGT1, UniProt ID A6BM07, are obtained, some of which are classified into two phylogenetically different subgroups, phylogenetic analysis, overview. The enzymes of subgroup A, GmUGT3, GmUGT4, and GmUGT9, all are highly specific for isoflavones. Gene GmUGT4, a representative of subgroup A, encodes a UGT that is highly specific for isoflavones and is mainly expressed in the lateral roots and seeds, while gene GmUGT1, a representative of subgroup B, encodes an enzyme displaying a broad glucosyl-acceptor specificity and is expressed in the aerial parts, i.e. cotyledons, hypocotyls and pods |
736973 |
2.4.1.170 | metabolism |
the enzyme is involved in the isoflavone biosynthesis, pathway overview. The expressions of UGT4, an isoflavone-specific 7-O-glucosyltransferase, and of ICHG (isoflavone conjugates hydrolyzing beta-glucosidase) are decreased during the reproductive stages. Isoflavone contents are higher in rhizosphere soil than in bulk soil during both vegetative and reproductive stages, and are comparable in the rhizosphere soil between these two stages |
759934 |
2.4.1.170 | metabolism |
the enzyme take part in the isoflavonoid pathway, in silico expression profiles of genes involved in the pathway, isoflavonoid pathway overview |
721961 |
2.4.1.170 | metabolism |
the isoflavone 7-O-glucosyltransferase is involved in isoflavone conjugate biosynthesis |
736973 |
2.4.1.170 | more |
modeling of daidzein content in the rhizosphere |
759934 |
2.4.1.170 | physiological function |
the enzyme is involved in the synthesis and secretion of isoflavones, e.g. daidzein and genistein, by field-grown soybean. Isoflavone glucosides are secreted into the apoplast. Isoflavones in the rhizosphere soil were shown to induce the expression of rhizobial Nod genes, which initiate the formation of the nodules that fix nitrogen. In addition, isoflavones act as antimicrobial phytoalexins and modulate rhizosphere microbial communities |
759934 |
2.4.1.170 | physiological function |
the isoflavone 7-O-glucosyltransferase is involved in isoflavone conjugate biosynthesis. Isoflavone conjugates, 7-O-beta-D-glucosides and 7-O-(6''-malonyl-beta-D-glucosides) of daidzein and genistein, accumulate in soybean roots and serve as the stored precursors of isoflavones (aglycons), which play very important roles in the rhizobia-mediated nodulation of this plant |
736973 |