Project description:Transcript profiling analysis of AtFBP7 mutant seedlings compared to wild type using Arabidopsis ATH1 GeneChip array. Keywords: 5 day old light grown seedlings, wild type and mutant
Project description:Transcript profiling analysis of csn4-1 light grown mutant seedlings compared to wild type using Arabidopsis ATH1 GeneChip array Keywords: 7 day old light grown seedlings, wild type and mutant
Project description:Transcript profiling analysis of vfb (Vier F-Box) mutant seedlings compared to wild type using Arabidopsis ATH1 GeneChip array. Keywords: 10 day old light grown seedlings, wild type and mutant
Project description:We have analyzed the poly(A) usage between Arabidopsis control and fip1-2 mutant seedlings grown in normal medium. FIP1 is a subunit of the polyadenalation machinary and loss of function of FIP1 affects plant development and response to salt, ABA and cadmium.
Project description:Transcript profiling analysis of Hydraulic conductivity of Root 1 (HCR1) mutant compared to wild type (Col-0) using ARABIDOPSIS GENE1.1ST ARRAY STRIP (901793, Affymetrix, Santa Clara, USA).
Project description:Transcript profiling analysis of csn3-1, csn4-1 and csn5 (csn5a-2 csn5b) light grown and dark grown mutant seedlings compared to light grown and dark grown wild type using Arabidopsis ATH1 GeneChip array Keywords: mutant analysis, growth condition analysis
Project description:Transcription profiling by array of Arabidopsis MKK9DD (constitutively active MKK9 kinase mutant) overexpressing seedlings and Pi-starved wild type seedlings to identify the same regulated genes
Project description:Repetitive CdCl2 exposure resulted in cadmium accumulation and remarkable renal injuries in the animals. In the present study, we established an animal model to mimic chronic cadmium exposure-induced renal injury and performed whole transcriptome profiling studies. RNA-Seq data analysis showed that cadmium treatment induced dramatic gene expression changes in kidneys in a dose-dependent manner and higher severity of injury in ob/ob mice.