EC Number |
General Information |
Reference |
---|
3.2.1.80 | evolution |
phylogenetic analysis of deduced amino acid sequences of plant fructan metabolism genes |
753837 |
3.2.1.80 | evolution |
the enzyme belongs to group I of glycosyl hydrolase famiyl 32, GH32, phylogenetic analysis, overview |
-, 732665 |
3.2.1.80 | evolution |
the enzyme belongs to the glycosyl hydrolase family 32, GH32 |
754296 |
3.2.1.80 | evolution |
Wfh-sm3 is an enzyme that is able to hydrolyze almost all components of fructan that has accumulated in hardened wheat tissues |
754482 |
3.2.1.80 | metabolism |
regulation during development of fructan exohydrolases, overview |
-, 732665 |
3.2.1.80 | metabolism |
regulation of the expression of FEH genes is a crucial factor for overwintering ability of fructan-accumulating cereals andgrasses. The coordinated expression of FEH genes in wheat is related to the regulation of water-soluble carbohydrate accumulation from autumn to early winter and fructan consumption under snow cover as well as energy supply. Wheat FEHs also play an important role in the varietal difference in freezing tolerance and snow mold resistance |
754482 |
3.2.1.80 | metabolism |
the coordinated expression of FEH genes in wheat is related to the regulation of water-soluble carbohydrate accumulation from autumn to early winter and fructan consumption under snow cover as well as energy supply. Wheat FEHs also play an important role in the varietal difference in freezing tolerance and snow mold resistance. Regulation of the expression of FEH genes is a crucial factor for overwintering ability of fructan-accumulating cereals and grasses |
754482 |
3.2.1.80 | more |
AoEH4b contains three important amino acid residues, Asp57, Asp182, and Glu236 that are essential for enzymatic reaction catalysis and are conserved in the GH32 family |
754296 |
3.2.1.80 | more |
the Ht1-FEH III sequence harbors three conserved amino acid motifs (S/NDPNG, FRDP, and ECPD) and four potential N-glycosylation sites |
753837 |
3.2.1.80 | physiological function |
fructan exohydrolase, FEH, gene plays a key role in fructan metabolism associated with wintering ability, especially for snow mold resistance. Enzyme Wfh-sm3 is able to hydrolyze almost all components of fructan that has accumulated in hardened wheat tissues. The expression of wfh-sm3 may regulate fructan metabolism associated with tolerance for wintering stresses |
754482 |