Project description:barcodingPTplants - Aromatic, medicinal, and condiment plant genome sequencing and assembly using short reads

Project description:barcodingPTplants - Aromatic, medicinal, and condiment plant genome sequencing and assembly using short reads - Other

Project description:barcodingPTplants - Aromatic, medicinal, and condiment plant genome sequencing and assembly using short reads - General

Project description:barcodingPTplants - Aromatic, medicinal, and condiment plant genome sequencing and assembly using short reads - ITS containing regions

Project description:barcodingPTplants - Aromatic, medicinal, and condiment plant genome sequencing and assembly using short reads - matK, rbcL, and trnL DNA barcodes

Project description:barcodingPTplants - DNA barcoding aromatic, medicinal, and condiment plants from Portugal

Project description:DNA barcoding, aromatic, medicinal, and condiment plants from Portugal

Project description:In this study, we aim to present a global transcriptome analysis of medicinal plant, Catharanthus roseus. We generated about 343 million high-quality reads from three tissues (leaf, root and flower) using Illumina platform. We performed an optimized de novo assembly of the reads and estimated transcript abundance in different tissue samples. The transcriptome dynamics was studied by differential gene expression analyses among tissue samples.

Project description:In this study, we aim to present a global transcriptome analysis of medicinal plant, Catharanthus roseus. We generated about 343 million high-quality reads from three tissues (leaf, root and flower) using Illumina platform. We performed an optimized de novo assembly of the reads and estimated transcript abundance in different tissue samples. The transcriptome dynamics was studied by differential gene expression analyses among tissue samples. We collected different tissue samples from the mature plants. Total RNA isolated from these tissue samples was subjected to Illumina sequencing. The sequence data was further filtered using NGS QC Toolkit to obtain high-quality reads. The filtered reads were used for de novo assembly optimization. The reads were further mapped to the Catharanthus transcripts via CLC Genomics Workbench and differential gene expression analysis was performed using DESeq software.

Project description:In this study, we aim to present a global transcriptome analysis of medicinal/spice plant, Crocus sativus. We generated about 206 million high-quality reads from five tissues (corm, leaf, Tepal, stamen and stigma) using Illumina platform. We performed an optimized de novo assembly of the reads and estimated transcript abundance in different tissue samples. The transcriptome dynamics was studied by differential gene expression analyses among tissue samples.