Project description:Sulfur metabolism in the deep-sea cold seep has been mentioned to have an important contribution to the biogeochemical cycle of sulfur in previous studies. And sulfate reducing bacteria have also been considered to be a dominant microbial population in the deep-sea cold seep and play a crucial role in this process. However, most of sulfate reducing bacteria from cold seep still cannot be purely cultured under laboratory conditions, therefore the actual sulfur metabolism pathways in sulfate reducing bacteria from the deep-sea cold seep have remained unclear. Here, we isolate and pure culture a typical sulfate reducing bacterium Desulfovibrio marinus CS1 from the sediment sample of the deep-sea cold seep in the South China Sea, which provides a probability to understand the sulfur metabolism in the cold seep.
Project description:In the present study, we studied microbial composition and metabolic activity in the bathypelagic zone of the South China Sea. 12 samples were collected and subjected to metaproteomic analysis. Our data provide a novel view of the roles of two lifestyle prokaryotes and their link in substrate utilization in dark ocean.
2024-06-16 | PXD026838 | Pride
Project description:Amazonia gen. Nov. Sp. Nov. Isolated from human gut
Project description:Analysis of U251 glioblastoma multiforme (GBM) cells treated with a new culcita novaeguineae asterosaponion, CN-3. A new asterosaponin was isolated from culcita novaeguineae, an abundant marine resource in the south China sea. The asterosaponin induced significant growth inhibition with a 50% inhibitory concentration at 48 h of 2.013 μg/mL in U251MG cells. 1.8μg/mL of the asterosaponin reduced U251 MG cells viability from 100 % to 42.5% (24 h), 37.4% (48 h) and 52.1% (72 h). In this study, a microarray analysis was performed using RNA prepared from U251MG GBM cells treated with the asterosaponion. These data revealed that 661 genes had significant differential expressions.
