Project description:Transcriptional profiling of an Fd-GOGAT1/GLU1 mutant in Arabidopsis thaliana reveals a multiple stress response and extensive reprogramming of the transcriptome Glutamate plays a central position in the synthesis of a variety of organic molecules in plants and is synthesised from nitrate through a series of enzymatic reactions. Glutamate synthases catalyse the last step in this pathway and two types are present in plants: NADH- or ferredoxin-dependent. Here we report a genome wide microarray analysis of the transcriptional reprogramming that occurs in leaves and roots of the A. thaliana mutant glu1-2 knocked-down in the expression of Fd-GOGAT1 (GLU1; At5g04140), one of the two genes of A. thaliana encoding ferredoxin-dependent glutamate synthase.

Project description:Differentially regulated genes in rosette leaves and roots of hydroponically grown Arabidopsis thaliana Col-0 and nrt1.5-5 mutant plants were identified by microarray analyses.

Project description:The mechanism by which plants regulate channeling of photosynthetically derived electrons into different areas of chloroplast metabolism remains obscure. In higher plants, these electrons are made accessible to stromal enzymes, or cyclic electron flow, as reduced ferredoxin (Fd), or NADPH. We investigated how the specific loss of an Arabidopsis (Arabidopsis thaliana) ferredoxin:NADPH reductase (FNR) isoprotein affected channeling of photosynthetic electrons into NADPH and Fd dependent metabolism. Affymetrix gene chip comparison of transcript changes in these mutants against two different ecotype backgrounds indicates that stress signaling is perturbed, and experiments revealed that the mutants are more susceptible to oxidative stress. Keywords: mutant wild type transcript profile comparison

Project description:The mechanism by which plants regulate channeling of photosynthetically derived electrons into different areas of chloroplast metabolism remains obscure. In higher plants, these electrons are made accessible to stromal enzymes, or cyclic electron flow, as reduced ferredoxin (Fd), or NADPH. We investigated how the specific loss of an Arabidopsis (Arabidopsis thaliana) ferredoxin:NADPH reductase (FNR) isoprotein affected channeling of photosynthetic electrons into NADPH and Fd dependent metabolism. Affymetrix gene chip comparison of transcript changes in these mutants against two different ecotype backgrounds indicates that stress signaling is perturbed, and experiments revealed that the mutants are more susceptible to oxidative stress. Experiment Overall Design: We isolated arabidopsis mutants of the FNR1 gene in different ecotypes, extracted RNA from these and respective wild type plants and hybridised it to Affymetrix microarrays

Project description:To screen the genes related to nitrogen use efficiency, a Chinese fir clone named X6 was subjected to low nitrogen (LN) stress and was used along with control (CK) plants for de novo RNA sequencing of root transcriptomes. The differences in the expression of genes under both conditions were determined. A total of 4,300 significant differentially expressed genes (SDEGs) were obtained by comparing the transcriptomes of the plants in the LN and CK groups. Among these genes, 2,970 were upregulated, and 1,330 were downregulated. All the SDEGs obtained from the LN and CK samples were subjected to KEGG annotation and classification. Using classification and statistical analysis with WEGO software, KEGG pathway annotations were obtained for 980 SDEGs, which were related to 222 metabolic pathways, and the pathway for nitrogen metabolism was determined. Twenty-four unigenes related to nitrogen metabolism in the Chinese fir were screened. They were found to encode seven enzymes: nitrate reductase (NADH, NR1), ferredoxin-nitrite reductase (NIR1), glutamine synthetase (GS), glutamate synthase (ferredoxin; Fd-GOGAT), glutamate synthase (NADPH/NADH, NADH-GOGAT), glutamate dehydrogenase (NADP+, GDH1), and glutamate dehydrogenase (NAD(P)+,GDH2), as well as two transporters, namely, ammonium transporter (AMT) and nitrate transporter (NRT). Under nitrogen-deficient conditions, AMT, NRT, NR1, and GS were significantly upregulated, whereas NIR1, NADH-GOGAT, and GDH2 were significantly downregulated; the other genes showed no significant changes. This is the first report on the global transcriptome response of the Chinese fir to nitrogen deficiency. Our results might help illustrate the preference of the Chinese fir for NH4+ rather than for NO3−. Our data provide insights into the coordinated system of nitrogen metabolism in this valuable tree species.

Project description:AU13_15_sup62 - 4 mutants - Transcriptome analysis of the mutant sup62, cpsf30, two suppressors of programmed cell death in A. thaliana - Plants Col-0, mips1, sup62 and sup62 mips1 were grown for 3 weeks in Short-Day condition and subsequently transfered in Long-Day condition. Rosette leaves were sampled after 4 days in Long-Day condition.

Project description:au14-03_bigun - bigun transcriptomics - What are the gene networks associated with BIGUN function during Hyaloperonospora arabidopsidis infection? - 5 weeks after germination of 12 seedlings of Arabidopsis thaliana Col-0,bigun 1 mutant and bigun 2 mutant genotypes(growth condition n°1),6 plants are infected by spraying a solution of Hyaloperonospora arabidopsidis spores,and 6 plants are left untreated,and all plants were cultivated under growth condition n°2.For each condition,leaves were sampled and pooled one week after infection.The experiment was repeated three times.

Project description:ngs2020_14_pi4kb1b2-differential gene expression in seedlings of pi4kb1b2-Differential gene expression in roots and leaves of seedlings, pi4kb1b2 mutant vs WT-Comparison of gene expression profile between roots and leaves of A.thaliana Col-0 as WT and pi4kb1b2 mutant, 7 days old (developmental stage 1.02), cultivated on MS/2 media supplemented with 0.8% agar and 1% sucrose, 22°C, 16h/8h light)

Project description:The wild type Col-0 plants and the Sku-6 mutant plants of the Col-0 background were germinated on ISS or on the ground and the gene expression profiles in roots at 4 days or 8 days were established. The Sku6 gene (At2g03680) codes for a protein that localizes to microtubule within the cortical array and putatively acting as an intramolecular linker. The development of Col-0 and Sku-6 plants on orbit differs from that on the ground as demonstrated by the comparison of the gene expression profiles between 4 days old to 8 days old plant in the two environments. However the development of Sku-6 mutant plants also differs from Col-0 at either age and in either environment, suggesting the role of the genetic background in these developmental decisions. The 4 days old Sku-6 roots in orbit engaged more genes than the 4 days old Col-0 roots in orbit but also more than the 4 days old Sku-6 roots on the ground. Overall the 4 days old roots differentially expressed more genes in spaceflight relative to ground than the 8 days old roots of either genotype.

Project description:RNASeq of roots from two genotypes of Arabidopsis thaliana plants, Col-0 and myb36-2 grown axenically or with a 41 member bacterial Synthetic Community (SynCom) to explore the interaction between the root diffusion barriers and the root microbiome.