Project description:rs11-08_nad2 - down regulation of qptgene in arabidopsis - Study of the biosynthesis of NAD in Arabidopsis. Involvment of QPTgene using the knock out Salk mutant N575260. - Study of the biosynthesis of NAD in Arabidopsis. Involvment of QPTgene using the knock out Salk mutant N575260.
Project description:rs13_01_lao - down/up regulation of nad biosynthesis in arabidopsis and role of l-aspartate oxidase - Study of the biosynthesis of NAD in Arabidopsis. Involvment of L-Aspartate oxidase gene using T-DNA mutant (SAIL1145_B10) and overexpressor lines (promotor 35S, vector PCW162) at the same developmental stage (12 leaves) - Study of the biosynthesis of NAD in Arabidopsis. Involvment of L-Aspartate oxidase gene using T-DNA mutant (SAIL1145_B10) and overexpressor lines (promotor 35S, vector PCW162) at the same developmental stage (12 leaves)
Project description:down/up regulation of nad biosynthesis in arabidopsis and role of l-aspartate oxidase-Down/up regulation of NAD biosynthesis in Arabidopsis : role of L-Aspartate oxidase
Project description:rs11-08_nad2 - down regulation of qptgene in arabidopsis - Study of the biosynthesis of NAD in Arabidopsis. Involvment of QPTgene using the knock out Salk mutant N575260. - Study of the biosynthesis of NAD in Arabidopsis. Involvment of QPTgene using the knock out Salk mutant N575260. 2 dye-swap - normal vs transgenic comparison
Project description:rs11-01_nad - knock out mutant n575260 - Study of the impact of a deregulation in the NAD concentration in arabidopsis - Study of the biosynthesis of NAD in Arabidopsis. Involvment of QPRTgene using the knock out mutant N575260 from Salk.
Project description:rs11-01_nad - knock out mutant n575260 - Study of the impact of a deregulation in the NAD concentration in arabidopsis - Study of the biosynthesis of NAD in Arabidopsis. Involvment of QPRTgene using the knock out mutant N575260 from Salk. 2 dye-swap - gene knock out
Project description:The goal of the microarray was to investigate the transcriptome changes induced by exogenous NAD+ in the wild-type Col-0 plants. Results showed that exogenous NAD+-induced dramatic transcriptional changes in Arabidopsis. Particularly, a large group of salicylic acid pathway genes including NPR1 and its traget genes were induced by NAD+, whereas the jasmonic acid/ethylene pathway defense marker gene PDF1.2 was inhibited by NAD+ treatment. In addition, a group of the pathogen-associated molecular pattern pathway genes were also induced by exogenous NAD+. These results indicate that exogenous NAD+ induces defense pathways against (hemi)biotrophic pathogens but suppresses defense against necrotrophs.