Project description:To examine the mechanisms that control flower development, we sequenced the flower bud transcriptomes of ‘High Noon’, a reblooming cultivar of P. suffruticosa × P. lutea. Both full-length isoforms and RNA-seq were sequenced in 3 floral developmental stages. A total of 15.94 Gb raw data and 457.0 million reads were generated in full-length transcript sequencing and RNA-seq.
Project description:This dataset contains the transcriptome sequence of Zostera marina as produced by Illumina sequencing. Four tissues were sequenced, female flower in late and early stages of development, the male flower, the root and leaf tissue. Full transcriptome sequencing of four tissues, including female flower at two time points in development
Project description:OsMADS1 in rice is an important transcription factor in controlling flower development, not only in flower organs development, but also in floral meristem determinacy. Early flower panicle we used is a high expression stage for OsMADS1. We used microarrays to detail the global gene expression underlying functions of OsMADS1 in rice flower development. Rice panicles in length of 2 mm and 5-7 mm were collectecd for RNA extraction and hybridization on Affymetrix microarrays.Rice panicles in length of 2 mm is the stage for the initiation of inner floral organ development and in length of 5-7 mm is the late stages for floral organ development.Though comparing the microarray data of osmads1 and wild-type (control) at these two stages, we can find the functions of OsMADS1 in the early and late flower development stages. Three biological repeats were used. And totally 12 samples were analyzed.
