Metagenomic prediction analysis of microbial aggregation in anammox‐dominated community

厌氧氨氧化菌 生物膜 胞外聚合物 细菌 微生物种群生物学 化学 微生物 群体感应 生物 微生物学 反硝化 氮气 有机化学 遗传学 反硝化细菌
作者
Fangxu Jia,Yongzhen Peng,Jianwei Li,Xiyao Li,Hong Yao
出处
期刊:Water Environment Research [Wiley]
卷期号:93 (11): 2549-2558 被引量:46
标识
DOI:10.1002/wer.1529
摘要

Abstract Aggregation of anammox bacteria is essential to maintain high biomass concentrations and prevent the loss of biomass in anammox processes. PICRUSt (Phylogenetic Investigation of Communities by Reconstruction of Unobserved States) was used in this study to predict the metagenomic potentials and characterize the microbial community structure and functional features in anammox aggregates (e.g., sludge flocs, biofilms, and granules). The results showed that Candidatus Brocadia was the most dominant anammox genera in all aggregates (38.0% in flocs, 69.4% in biofilm, and 52.0% in granules) and the functional gene involved in the anammox process was detected in the highest amount in biofilms, followed by granules and flocs. Furthermore, the anammox microbial aggregation pathway was explored that anammox bacteria have strong motility and high capability for early attachment. Anammox bacteria could produce large amounts of EPS (extracellular polymeric substances) regulated by quinolone and transport to extracellular environment through type II secretion system. The strong ability of c‐di‐GMP (bis‐(3′‐5′)‐cyclic dimeric guanosine monophosphate) synthesis enabled a stable architectural structure of aggregation. This study elucidated the aggregation mechanism of anammox microorganisms at the genetic level to enhance the stability of anammox processes. Practitioner points Candidatus Brocadia was the most dominant anammox genera in aggregates. Anammox bacteria have strong motility and high attachment capability. Anammox bacteria possess strong EPS synthesis regulated by quinolone. c‐di‐GMP synthesis enables a stable structure of aggregation.
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