Project description:Hydrogenobaculum sp. SN genome sequencing

Project description:Clostridium beijerinckii NRRL B-593

Project description:Stegastes partitus isolate:25-593 Genome sequencing and assembly

Project description:Limosilactobacillus fermentum strain:SN-1 Genome sequencing

Project description:Thlaspi arvense 2020-M2-593 Resequencing

Project description:Idiomarina aquatica SN-14 Genome sequencing and assembly

Project description:Whole genome sequence of the novel Streptococcus species strain SN-1

Project description:The helicase activity of UPF1 remodels miRNPs so as to render miRNAs susceptible to Tudor-SN (TSN)-mediated miRNA decay

Project description:The biosynthetic potential of soil-dwelling actinomycetes to produce diverse bioactive molecules that are useful as drug seeds has been achieved in the laboratory by modifying culture conditions. Availability of a small molecule that can induce secondary metabolism in these microbes can greatly facilitate the exploration of bioactive natural products. In this manuscript, through the screening of natural products and chemical modification, we demonstrated that the presence of the β-carboline compound, BR-1, enhanced reveromycin A production in Streptomyces sp. SN-593. BR-1 induced reveromycins production at the wide range of concentrations without affecting cell growth. Our study indicates that BR-1 might serve as an alternative to activate specialized metabolite biosynthesis without genetic engineering.

Project description:We selected NSN and SN GV oocytes based on FBL-GFP localization, and performed transcriptome profiling of single NSN and SN GV oocytes, and MII oocytes in vitro matured from NSN and SN GV oocytes.