AUTHOR=Xie Meili , Ren Minglei , Yang Chen , Yi Haisi , Li Zhe , Li Tao , Zhao Jindong 

TITLE=Metagenomic Analysis Reveals Symbiotic Relationship among Bacteria in Microcystis-Dominated Community

JOURNAL=Frontiers in Microbiology

VOLUME=7

YEAR=2016

URL=https://www.frontiersin.org/journals/microbiology/articles/10.3389/fmicb.2016.00056

DOI=10.3389/fmicb.2016.00056

ISSN=1664-302X

ABSTRACT=<p><italic>Microcystis</italic> bloom, a cyanobacterial mass occurrence often found in eutrophicated water bodies, is one of the most serious threats to freshwater ecosystems worldwide. In nature, <italic>Microcystis</italic> forms aggregates or colonies that contain heterotrophic bacteria. The <italic>Microcystis</italic>-bacteria colonies were persistent even when they were maintained in lab culture for a long period. The relationship between <italic>Microcystis</italic> and the associated bacteria was investigated by a metagenomic approach in this study. We developed a visualization-guided method of binning for genome assembly after total colony DNA sequencing. We found that the method was effective in grouping sequences and it did not require reference genome sequence. Individual genomes of the colony bacteria were obtained and they provided valuable insights into microbial community structures. Analysis of metabolic pathways based on these genomes revealed that while all heterotrophic bacteria were dependent upon <italic>Microcystis</italic> for carbon and energy, Vitamin B12 biosynthesis, which is required for growth by <italic>Microcystis</italic>, was accomplished in a cooperative fashion among the bacteria. Our analysis also suggests that individual bacteria in the colony community contributed a complete pathway for degradation of benzoate, which is inhibitory to the cyanobacterial growth, and its ecological implication for <italic>Microcystis</italic> bloom is discussed.</p>