EC Number |
Natural Substrates |
---|
2.4.1.13 | ADP + sucrose |
sucrose synthase catalyzes the de novo production of ADPglucose linked to starch biosynthesis in heterotrophic tissues of plants |
2.4.1.13 | ADP + sucrose |
ADP-glucose produced by SuSy is linked to starch biosynthesis. SuSy exerts a strong control on the starch biosynthetic process and controls the production of ADP-glucose accumulating in source leaves |
2.4.1.13 | ADP-glucose + D-fructose |
- |
2.4.1.13 | more |
it is possible that sucrose synthase provides monosaccharide precursors for mucilage synthesis |
2.4.1.13 | more |
it is supposed that the sucrose synthase activity in sugar-beet roots is controlled by sucrose synthesized in leaves rather than by phytohormones |
2.4.1.13 | more |
mtSUS plays a non-sucrolytic role |
2.4.1.13 | more |
sucrose synthase appears to be largely responsible for feeding assimilated carbon into sink metabolism |
2.4.1.13 | more |
sucrose synthase appears to be largely responsible for feeding assimilated carbon into sink metabolism. SH1 isozyme preferentially provides the substrate for cellulose biosynthesis, whereas SUS1 generates precursors for starch biosynthesis |
2.4.1.13 | more |
SUS2 may function to regulate SUS1 membrane association by formation of SUS1SUS2 hetero-oligomers |
2.4.1.13 | more |
nitrogen fixation can occur in Lotus japonicus nodules even in the absence of LjSUS3 (the major nodule-induced isoform of SUS), so LjSUS1 must also contribute to the maintenance of nitrogen assimilation |