Project description:YTHDF3 play important role in regulation of trophoblast activity, we examined the downstream genes of YTHDF3 via transcriptome sequencing

Project description:Transcriptome analyses of trophoblast upon ALKBH5 knockdown

Project description:m1A-Seq analyses of trophoblast upon hypoxia or normoxia

Project description:ALKBH5 play important role in regulation of trophoblast invasion, we examined the downstream genes of ALKBH5 via transcriptome sequencing

Project description:iCLIP-Seq analyses of YTHDF3-bound RNAs

Project description:N1-methyladenosine (m1A) is one of messenger RNA modification in eukaryotes, but the potential roles of m1A methylated mRNA in trophoblast upon hypoxia remain elusive.

Project description:N6-methyladenosine (m6A) is the most prevalent messenger RNA modification in eukaryotes, but the potential roles of m6A methylated mRNA in trophoblast upon hypoxia remain elusive.

Project description:We found that YTHDF3 work as m1A reader,but the potential substrate RNA remain elusive.

Project description:Oxaliplatin as a first-line drug frequently causes the chemo-resistance on colorectal cancer (CRC). N6-methyladenosine (m6A) methylation has been largely acknowledged in multiple biological functions. However, the molecular mechanisms underlying the m6A methylation in modulating anticancer drug resistance in CRC are still obscure. In present study, RIP-seq was conducted to investigate the occupancy of N6-methyladenosine RNA binding protein 3 (YTHDF3) served as “readers” that can recognize m6A modification site in HCT116 cells with oxaliplatin resistance (HCT116R). Then, YTHDF3 was knockdown by siRNA in HCT116 cells with oxaliplatin resistance, and RIP-seq was further conducted to investigate m6A methylation of HCT116, HCT116R and HCT116R cells with YTHDF3 knockdown.

Project description:The hypoxia inducible molecules are proposed to be one of many key regulators of first trimester trophoblast behavior, but the key mechanism mediating invasion of trophoblast cells is not very clear.