Project description:We treated breast cancer MCF7 cell line with different Gardenia Jasminoides and found that they can induce paraptosis of cMCF7 cells.
Project description:Hepatocellular carcinoma (HCC) poses a formidable challenge within the spectrum of digestive system cancers due to its poor prognosis. Geniposide, an iridoid glucoside extracted from the fruits of Gardenia jasminoides Ellis, exhibits a diverse array of biological activities. The objective of this study is to delineate the specific roles and underlying mechanisms of geniposide on the progression of HCC.
Project description:The complete assembly of vast and complex plant genomes, like the hexaploid wheat genome, remains challenging. Here, we present CS-IAAS, a comprehensive telomere-to-telomere (T2T) gap-free Triticum aestivum L. reference genome, encompassing 14.51 billion base pairs and featuring all 21 centromeres and 42 telomeres. Annotation revealed 90.8 Mb additional centromeric satellite arrays and 5,611 ribosomal DNA(rDNA) units. Genome-wide rearrangements, centromeric elements, TE expansion, and segmental duplications were deciphered during tetraploidization and hexaploidization, providing a comprehensive understanding of wheat subgenome evolution. Among them, TE insertions during hexaploidization greatly influenced gene expression balances, thus increasing the genome plasticity of transcriptional levels. Additionally, we generated 163,329 full-length cDNA sequences and proteomic data that helped annotate 141,035 high-confidence (HC) protein-coding genes. However, in such a hexaploidy genome, 20.05%, 33.43%, and 42.76% of gene transcript levels, alternative splicing events, and protein levels were detected unbalancing among subgenomes. The complete T2T reference genome (CS-IAAS), along with its transcriptome and proteome, represents a significant step in our understanding of wheat genome complexity, and provides insights for future wheat research and breeding.
