Project description:Here We revealed the complex mechanism of viviparity in water lily. The transcriptomic signatures identified in this pathway are important basis for future breeding and research of viviparity in water lily and other plant species.
2021-12-31 | GSE164888 | GEO
Project description:Transcriptomic analysis of lily via RNA-seq
Project description:This model was reconstructed from single-nucleus RNA-seq (snRNA-seq) data of human postmortem brain and curated using published metabolomics data from human iPSC-derived neurons and cerebrospinal fluid (CSF), together with gene expression data from the Human Protein Atlas. It more accurately simulates human neuronal metabolic flux in neurodegenerative conditions such as Alzheimer's disease (AD).
Project description:In order to decipher the transcriptome heterogeneity of the the flower meristem, we perfomed single-nuclei RNA-seq in flower mersitems
2022-04-09 | GSE174599 | GEO
Project description:RNA-seq for flower development
Project description:A pilot experiment for an RNA-seq dataset (SRP003234). This experiment compares AP1 domain-specific translating RNA with total flower translating mRNA. Two-condition experiment, AP1 flower domains vs. whole flower at flower stage 4.