Project description:We performed a microarray experiment to assess the global changes in transcription occurring in leaves and roots of the vitamin B6 deficient pdx1.3 knockout mutant in comparison to WT. Vitamin B6 (pyridoxal 5′-phosphate) is an essential cofactor of many metabolic enzymes. Plants biosynthesize the vitamin de novo employing two enzymes, pyridoxine synthase1 (PDX1) and PDX2. In Arabidopsis (Arabidopsis thaliana), there are two catalytically active paralogs of PDX1 (PDX1.1 and PDX1.3) producing the vitamin at comparable rates. Since single mutants are viable but the pdx1.1 pdx1.3 double mutant is lethal, the corresponding enzymes seem redundant. However, the single mutants exhibit substantial phenotypic differences, particularly at the level of root development, with pdx1.3 being more impaired than pdx1.1. Here, we investigate the impact of possible global changes in gene expression in the pdx1.3 mutant compared to WT on the phenotype.

Project description:Trancript profiling in arabidopsis gdh mutant. Identification of the function and regulation of the GDH enzyme in plants. Comparison of transcriptome in leaves, stems and roots in wild type versus triple GDH (1, 2, 3)-defficient mutant and in wild type versus GDH3- defficient mutant. Keywords: wt vs mutant comparison

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: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:Trancript profiling in arabidopsis gdh mutant. Identification of the function and regulation of the GDH enzyme in plants. Comparison of transcriptome in leaves, stems and roots in wild type versus triple GDH (1, 2, 3)-defficient mutant and in wild type versus GDH3- defficient mutant. Keywords: wt vs mutant comparison 12 dye-swap - CATMA arrays

Project description:We obtained the transcriptional profiles from Arabidopsis WT and hb13 mutant roots

Project description:We systematically identified long noncoding natural antisense transcripts (lncNATs), defined as lncRNAs transcribed from the opposite DNA strand of coding or noncoding genes. We identified in total 37,238 sense-antisense transcript pairs and found 70% mRNAs are associated with antisense transcripts in Arabidopsis. To detect the expression levels of these NAT pairs, we designed an Agilent custom array, ATH NAT array, and analyzed RNA samples from Arabidopsis inflorescences, leaves and roots, with 3 biological replicates each. Expression levels of cis-NAT pairs were investigated in WT inflorescences, leaves and roots with 3 biological replicates.

Project description:Targeting T cell metabolism is an established method of immunomodulation. Following activation, T cells engage distinct metabolic programs leading to the uptake and processing of nutrients that determine cell proliferation and differentiation. Redirection of T cell fate by modulation of these metabolic programs has been shown to boost or suppress immune responses in vitro and in vivo. Using publicly available T cell transcriptomic and proteomic datasets we identified vitamin B6-dependent transaminases as key metabolic enzymes driving T cell activation and differentiation. Inhibition of vitamin B6 metabolism using the pyridoxal 5’-phosphate (PLP) inhibitor, aminoxyacetic acid (AOA), suppresses CD8+ T cell proliferation and effector differentiation in a dose-dependent manner. We show that pyridoxal phosphate phosphatase (PDXP), a negative regulator of intracellular vitamin B6 levels, is under the control of the hypoxia-inducible transcription factor (HIF1), a central driver of T cell metabolism. Furthermore, by adoptive transfer of CD8 T cells into a C57BL/6 mouse melanoma model, we demonstrate the requirement for vitamin B6-dependent enzyme activity in mediating effective anti-tumor responses. Our findings show that vitamin B6 metabolism is required for CD8+ T cell proliferation and effector differentiation in vitro and in vivo. Targeting vitamin B6 metabolism may therefore serve as an immunodulatory strategy to improve anti-tumor immunotherapy.

Project description:Brassica oleraceae plants were treated with jasmonic acid either at the roots or two leaves. An acidic (HCl) water sollution with the same pH as the jasmonic acid sollution was also applied to two leaves of the root jasmonic acid treated plants, and to the roots of leaf jasmonic acid treated plants. Control plants received a mock treatment on roots and leaves with acidic water of the same pH as the jasmonic acid sollution. The whole root system and two systemic leaves were harvested separately at 6, 18 and 30 h after treatment. For each time point, tissue and treatment, three biological replicates (except two replicates for 'Root-Cont-18h' sample) were made consisting of pooled tissue samples from 10 plants. Gene expression was analyzed in both tissues using the 29,000 element Arabidopsis Oligonucleotide Microarrays (Qiagen-Operon Arabidopsis Genome Array Ready Oligo Set version 3.0).

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. Rosette leaves and roots from the glu1-2 mutant, which is a T-DNA knockout of a ferredoxin dependent glutamate synthase in Arabidopsis (locus ID: At5g04140), were analyzed on Affymetrix microarrays. As a reference control, leaves and roots from Col(0) plants were used. The glu1-2 mutant is derived from a Col(0) accession. Four independent biological replicas from leaves and roots were used in the analysis (from both glu1-2 and Col(0) reference). In total 16 hybridizations were done.