EC Number |
Expression |
Reference |
---|
1.1.1.49 | down |
enzyme activity decreases in the presence of 80 mM NaCl on day 2 |
741168 |
1.1.1.49 | down |
gene expressions is significantly repressed in the presence of nontoxic (0.87 and 3 ppm) and toxic iron concentrations (30 and 300 ppm) |
761408 |
1.1.1.49 | down |
high glucose level inhibits G6PD expression |
711960 |
1.1.1.49 | down |
immediately following application of hypoosmotic stress, the activity of the enzyme in leaves decreases compared to plants grown in soil. After 3 days, a defense response appears in the form of substantially (7.4fold) increased specific activities in hypoosmotically stressed leaves |
761196 |
1.1.1.49 | down |
the AMPK signaling pathway as well as the inhibitory p38 MAPK pathway are cooperating to inhibit G6PD expression. Arachidonic acid activates AMP-activated protein kinase in primary rat hepatocytes, and this effect is p38 MAPK-dependent. Activation of AMP-activated protein kinase mimics the inhibition by arachidonic acid of the insulin-mediated induction of G6PD. Overexpression of dominant-negative AMP-activated protein kinase abolishes the effect of arachidonic acid on G6PD expression |
711071 |
1.1.1.49 | down |
when highland barley is exposed to UV-B radiation, the enzyme activity decreases |
740905 |
1.1.1.49 | more |
no significant upregulation of expression in presence of artemisinin, chloroquine or methylene blue |
750517 |
1.1.1.49 | up |
enzyme expression is slightly induced by D-glucose |
741168 |
1.1.1.49 | up |
immediately following application of hypoosmotic stress, the activity of the enzyme in leaves decreases compared to plants grown in soil. After 3 days, a defense response appears in the form of substantially (7.4fold) increased specific activities in hypoosmotically stressed leaves |
761196 |
1.1.1.49 | up |
plants exposed to salt stress for three days exhibit significantly (3.5fold) increased specific activity in leaves compared to non-stressed controls grown in soil |
761196 |