Project description:Finger millet genome assembly

Project description:Finger millet bioavailability

Project description:In present study we compared transcriptional response to salinity stress between susceptible CO 12 and tolerant genotype trichy 1 of finger millet. We found out that several functional group of genes like transporters, transcription factors, genes involved in cell signalling, osmotic homeostasis, compatible solutes biosynthesis were upregulated more in tolerant genotype as compared to susceptible genotype in response to salinity stress. Salnity inhibited photosynthetic capacity and photosynthesis related genes more in susceptible genotype as compared to tolerant genotype. Identified genes are excellent targets for further functional studies in order to understand more specific molecular mechanisms of salt tolerance in two genotypes of finger millet and can be further used for developing salinity tolerant crops through genetic engineering.

Project description:Metagenome sequencing of blast disease susceptible and resistant finger millet varieties-Raw reads

Project description:E.coracana Synthetic A genome sequence reads

Project description:Complete chloroplast genome of Eleusine coracana (Gramineae)

Project description:Eleusine coracana Organism overview

Project description:Eleusine coracana Raw sequence reads

Project description:Eleusine coracana Transcriptome or Gene expression

Project description:Eleusine coracana Map