Project description:Corynactis viridis (jewel anenome), genomic and transcriptomic data

Project description:Seasonal changes in microbial communities associated with the jewel anemone Corynactis viridis

Project description:Corynactis californica overview

Project description:Characterization of the venom proteome of the emerald jewel wasp, Ampulex compressa

Project description:Corynactis californica Genome sequencing

Project description:Setaria viridis, the wild ancestor of millet, exhibits strong repression of crown root growth in drought. We compare in gene expression in the S. viridis crown between drought vs watered treatments.

Project description:Parallel Analysis of RNA Ends (PARE) sequencing reads were generated to validate putative microRNAs and identify cleavage sites in Sorghum bicolor and Setaria viridis.

Project description:Setaria viridis, the wild ancestor of millet, exhibits strong repression of crown root growth in drought. We compare in gene expression in the S. viridis crown between drought vs watered treatments. RNA from Lower region (crown) or Upper region (stem) of watered (W) or drought (D) treated Setaria plants were harvested at 6 or 9 days after sowing; there are 8 samples per biological repeat, 3 biological repeats.

Project description:Setaria viridis is a small, rapidly growing grass species in the subfamily Panicoideae, a group that includes economically important cereal crops such as maize and sorghum. The S. viridis inflorescence displays complex branching patterns, but its early development is similar to that of other panicoid grasses, and thus is an ideal model for studying inflorescence architecture. Here we report detailed transcriptional resource that captures dynamic transitions across six sequential stages of S. viridis inflorescence development, from reproductive onset to floral organ differentiation. Co-expression analyses identified stage-specific signatures of development, which include homologs of previously known developmental genes from maize and rice, suites of transcription factors and gene family members, and genes of unknown function. This spatiotemporal co-expression map and associated analyses provide a foundation for gene discovery in S. viridis inflorescence development, and a comparative model for exploring related architectural features in agronomically important cereals.

Project description:Setaria viridis (A10.1) circadian expression after light or temperature entrainment