Project description:Sesame seeds is an important traditional crop with high oil content and other abundant nutrients which are very beneficial for diet and health of human being. However, the molecular mechanism for metabolite accumulation, especially for oil and phenylpropanoid biosynthesis, is still not very clear in sesame. In this study, the transcriptome profiles of black and white sesame seeds were compared by RNA-sequencing. Transcriptome analysis showed that the expression patterns of genes encoding phenylpropanoid pathway enzymes were different between the two sesame cultivars. Compared with white sesame, most of genes involved in oil biosynthesis were significantly down-regulated in black sesame.
2024-06-30 | GSE223079 | GEO
Project description:Transcriptome analysis of sesame
Project description:Transcriptome analysis was performed on young leaves from 17-day old sesame seedling. The experiment aimed to shed light on the polar regulatory gene network in sesame under KANADI1 loss of function and identify candidate genes underlie the hyponastic leaf phenotype. We compaired between homozygous lines for either SiCD-A allele contains KAN1 (WT) or SiCD-B allele contains kan1 (mutant) on S.indicum LG8.
Project description:We report the genome-wide localization of SESAME and found that three SESAME subunits localized in the gene body. Examining the genome-wide localization of SESAME subunits (Sam1, Ser33, Pyk1) and Set1
Project description:Females were ovariectomized and injected with sesame oil, estradiol in sesame oil, BPA in sesame oil or HPTE in sesame oil. Uterine tissue was collected after 2 or 24 hours. RNA was analyzed by microarray compare ealry and late responses to a potent and a weak estrogen agaonist.
