Project description:In this study, we aim to present a global view of transcriptome dynamics in different tissues/organs/developmental stage in chickpea. We generated about ~31-95 million reads from each of 94 libraries representing 32 different tissues/organs using Illumina platform. We generated a hybrid assembly of these data along with PacBio data to produce full-length transcriptome assembly. We mapped the reads to the transcriptome assembly for estimation of the abundance of coding and long non-coding transcripts in different tissue samples. The transcriptome dynamics was studied by differential and tissue-specific expression analyses, and co-expression network and transcriptional regulatory network analyses.
2022-10-26 | GSE147831 | GEO
Project description:Transcriptome data of Curcuma alismatifolia organs
| PRJNA826271 | ENA
Project description:Original miRNA data of 8 different organs of Branchiostoma belcheri
| PRJNA559222 | ENA
Project description:Different Organs of Sophora tonkinensis
Project description:We carried out genome wide transcriptome analyses in different organs and developmental stages of the olive tree using the NimbleGen Array oligonucleotide probe sets. Cluster analyses of the genes showed that samples collected from different organs could be sorted into separate groups. The nutritional control had a particularly remarkable impact on the alternate bearing for O. europaea, as shown by the differential expressions of transcripts under different developmental phases and organs
2012-12-17 | GSE42950 | GEO
Project description:Transcriptome profiling of different organs of Bletilla striata--RNA-seq
Project description:We adopted a combinatorial hybridization based single-cell RNA-seq method to generate tissue based transcriptome atlas of adult axolotl and whole organism transcriptome atlas of larva axolotl. Gene expression profiling of over 1million single cells across 19 organs constructed the first adult axolotl cell atlas. Comparison between neoteny and metamorphosis organs revealed transcriptome heterogeneity of structural cells in different tissues and a sophisticated regulatory network. Furthermore, we described dynamic gene expression pattern during neotenic larva axolotl limb development. These data serve as a rich resource to explore molecular identity of axolotl as well as its metamorphosis.
