Project description:Metagenomic sequencing in macroalgae ecosystem from Weizhou island

Project description:Bacterial community in macroalgae ecosystem from Nanao and Weizhou island

Project description:eDNA sequencing of Weizhou island

Project description:Cyanobacterial diversity of Weizhou Island coral reefs

Project description:Macrotranscriptome sequencing

Project description:Symbiodiniaceae ITS2 diversity of Porites lutea on Weizhou Island

Project description:The seasonal investigation of Symbiodiniaceae of Acropora pruinosa in Weizhou island

Project description:Using Molecular Biotechnology to Study the Impact of Environmental Conditions on Micro-ecosystem of Coral Reef in Weizhou Island Water No. 2020002

Project description:The seasonal investigation of Symbiodiniaceae and Bacteria of Pavona decussata in Weizhou island

Project description:We cultivated the flavobacterium Zobellia galactanivorans DsijT with fresh brown macroalgae with distinct chemical compositions. Its capacity to use macroalgae as the sole carbon source via the secretion of extracellular enzymes, leading to extensive tissue damages, highlights a sharing pioneer degrader behavior. RNA-seq transcriptome analysis revealed a metabolic shift toward the utilization of brown algal polysaccharides during tissue degradation. A subset of genes was specifically induced in cells grown with intact algae compared to purified polysaccharides. It notably includes genes involved in protection against oxidative burst, type IX secretion system proteins and novel uncharacterized Polysaccharides Utilization Loci (PULs). Comparative growth experiments and genomics between Zobellia members brought out putative genetic determinants of the pioneer behavior of Z. galactanivorans, whose in vitro role could be further characterized. This work constitutes the first investigation of the metabolic mechanisms of bacteria mediating fresh macroalgae breakdown, and will help unravel the role of marine microbes in the fate of macroalgal biomass.