Project description:The goal of this study is to investigate differential transcription profiles of leaf material/cells accumulating different levels of alkaloids in the anticancer plant Catharanthus roseus.

Project description:This dataset belongs to a set of three RNA-Seq experiments that were carried out to study the regulation of monoterpenoid indole alkaloid production in the medicinal plant Catharanthus roseus. For this dataset, C. roseus stems were dissected to separate the epidermis from the lower tissues. Leaves were dissected to obtain veins and veinless leaves. As controls, undissected leaves and stems were used. Three biological replicates were analyzed per sample.

Project description:Catharanthus roseus produces a variety of indole alkaloids with significant biological activities. The indole alkaloids including catharanthine, vindolinine, ajmalicine and the precursor strictosidine were dramatically induced in the leaves following binary stress. To profile the modification of indole alkaloids in C. roseus seedlings under the binary stress of ultraviolet-B irradiation and dark incubation, gel-free proteomic analysis was carried out to uncover the underlying molecular mechanism.

Project description:Catharanthus roseus Variation

Project description:catharanthus roseus Transcriptome

Project description:Catharanthus roseus Assembly

Project description:Catharanthus roseus Organism overview

Project description:This dataset belongs to a set of three RNA-Seq experiments that were carried out to study the regulation of monoterpenoid indole alkaloid production in the medicinal plant Catharanthus roseus. For this dataset, C. roseus hairy roots overexpressing the well-known MIA biosynthesis regulator ORCA3 were analyzed by RNA-Seq. As control, C. roseus hairy roots expressing GUS were used. Each analyzed sample consisted of an independent hairy root line; three hairy root lines per construct were analyzed.

Project description:This dataset belongs to a set of three RNA-Seq experiments that were carried out to study the regulation of monoterpenoid indole alkaloid production in the medicinal plant Catharanthus roseus. For this dataset, C. roseus flower petals were infiltrated with Agrobacterium tumefaciens C58C1 or infiltration buffer as control. For each sample, flower petals from four to five flowers, each from a different individual plant were infiltrated.

Project description:Catharanthus roseus Raw sequence reads