Responses of exogenous bacteria to soluble extracellular polymeric substances in wastewater : a mechanistic study and implications on bioaugmentation
Compared with the chemically defined synthetic wastewater (SynWW), real wastewater has been reported to exhibit distinct effects on microbial community development. Whether and how soluble microbial products in real wastewater contribute to different effects of synthetic and real wastewater on the f...
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sg-ntu-dr.10356-1546332021-12-30T02:37:28Z Responses of exogenous bacteria to soluble extracellular polymeric substances in wastewater : a mechanistic study and implications on bioaugmentation Wu, Yichao Zaiden, Norazean Liu, Xin Mukherjee, Manisha Cao, Bin School of Civil and Environmental Engineering Singapore Centre for Environmental Life Sciences and Engineering Engineering::Environmental engineering Antibiotic-Resistant Bacteriabiofilm Life-Style Compared with the chemically defined synthetic wastewater (SynWW), real wastewater has been reported to exhibit distinct effects on microbial community development. Whether and how soluble microbial products in real wastewater contribute to different effects of synthetic and real wastewater on the fate of exogenous bacteria remains elusive. In this study, using a model wastewater bacterium Comamonas testosteroni, we first examined the influences of microfiltration filter-sterilized real wastewater (MF-WW) and SynWW on the retention of C. testosteroni in established wastewater flocs during bioaugmentation. In bioreactors fed with MF-WW, augmentation of C. testosteroni to wastewater flocs resulted in a substantially higher abundance of the augmented bacterial cells than those fed with SynWW. To identify the soluble microbial products in MF-WW contributing to the observed differences between bioaugmentation reactors fed with MF-WW and SynWW, we examined the effect of MF-WW and SynWW on the growth, floc formation, and biofilm development of C. testosteroni. When C. testosteroni grew in MF-WW, visible flocs formed within 2 h, which is in contrast to cell growth in SynWW where floc formation was not observed. We further demonstrated that the observed differences were mainly attributed to the high molecular weight fraction of the soluble extracellular polymeric substances (EPS) in MF-WW, in particular, proteins and extracellular DNA. The DLVO analysis suggested that, in the presence of soluble EPS, the bacterial cell surface exhibits an increased hydrophobicity and a diminished energy barrier, leading to irreversible attachment of planktonic cells and floc formation. The RNA-seq based transcriptional analysis revealed that, in the presence of soluble EPS, genes involved in nonessential metabolisms were downregulated while genes coding for Cco (cbb3-type) and Cox (aa3-type) oxidases with different oxygen affinities were upregulated, facilitating bacterial survival in flocs. Taken together, this study reveals the mechanisms underlying the contribution of soluble EPS in real wastewater to the recruitment of exogenous bacteria by microbial aggregates and provides implications to bioaugmentation. Ministry of Education (MOE) National Research Foundation (NRF) We thank Professor Nico Boon for providing strain I2::rfp. We also thank Chee Wai Liew for wastewater sampling, Dr. Daphne Ng for critically reading the manuscript, and Wu Siang Chia for assistance in some experiments. Dr. Yichao Wu thanks the National Natural Science Foundation of China (41807024). Dr. Xin Liu is grateful for the support of the Program for Guangdong Introducing Innovative and Entrepreneurial Teams (2017ZT07Z479). This research was supported by the National Research Foundation and MOE Singapore under its Research Centre of Excellence Programme, Singapore Centre for Environmental Life Sciences Engineering (SCELSE) (M4330005.C70), Nanyang Technological University, Singapore. 2021-12-30T02:37:28Z 2021-12-30T02:37:28Z 2020 Journal Article Wu, Y., Zaiden, N., Liu, X., Mukherjee, M. & Cao, B. (2020). Responses of exogenous bacteria to soluble extracellular polymeric substances in wastewater : a mechanistic study and implications on bioaugmentation. Environmental Science and Technology, 54(11), 6919-6928. https://dx.doi.org/10.1021/acs.est.0c00015 0013-936X https://hdl.handle.net/10356/154633 10.1021/acs.est.0c00015 32348125 2-s2.0-85085905199 11 54 6919 6928 en M4330005.C70 Environmental Science and Technology © 2020 American Chemical Society. All rights reserved. |
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Engineering::Environmental engineering Antibiotic-Resistant Bacteriabiofilm Life-Style Wu, Yichao Zaiden, Norazean Liu, Xin Mukherjee, Manisha Cao, Bin Responses of exogenous bacteria to soluble extracellular polymeric substances in wastewater : a mechanistic study and implications on bioaugmentation |
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Compared with the chemically defined synthetic wastewater (SynWW), real wastewater has been reported to exhibit distinct effects on microbial community development. Whether and how soluble microbial products in real wastewater contribute to different effects of synthetic and real wastewater on the fate of exogenous bacteria remains elusive. In this study, using a model wastewater bacterium Comamonas testosteroni, we first examined the influences of microfiltration filter-sterilized real wastewater (MF-WW) and SynWW on the retention of C. testosteroni in established wastewater flocs during bioaugmentation. In bioreactors fed with MF-WW, augmentation of C. testosteroni to wastewater flocs resulted in a substantially higher abundance of the augmented bacterial cells than those fed with SynWW. To identify the soluble microbial products in MF-WW contributing to the observed differences between bioaugmentation reactors fed with MF-WW and SynWW, we examined the effect of MF-WW and SynWW on the growth, floc formation, and biofilm development of C. testosteroni. When C. testosteroni grew in MF-WW, visible flocs formed within 2 h, which is in contrast to cell growth in SynWW where floc formation was not observed. We further demonstrated that the observed differences were mainly attributed to the high molecular weight fraction of the soluble extracellular polymeric substances (EPS) in MF-WW, in particular, proteins and extracellular DNA. The DLVO analysis suggested that, in the presence of soluble EPS, the bacterial cell surface exhibits an increased hydrophobicity and a diminished energy barrier, leading to irreversible attachment of planktonic cells and floc formation. The RNA-seq based transcriptional analysis revealed that, in the presence of soluble EPS, genes involved in nonessential metabolisms were downregulated while genes coding for Cco (cbb3-type) and Cox (aa3-type) oxidases with different oxygen affinities were upregulated, facilitating bacterial survival in flocs. Taken together, this study reveals the mechanisms underlying the contribution of soluble EPS in real wastewater to the recruitment of exogenous bacteria by microbial aggregates and provides implications to bioaugmentation. |
author2 |
School of Civil and Environmental Engineering |
author_facet |
School of Civil and Environmental Engineering Wu, Yichao Zaiden, Norazean Liu, Xin Mukherjee, Manisha Cao, Bin |
format |
Article |
author |
Wu, Yichao Zaiden, Norazean Liu, Xin Mukherjee, Manisha Cao, Bin |
author_sort |
Wu, Yichao |
title |
Responses of exogenous bacteria to soluble extracellular polymeric substances in wastewater : a mechanistic study and implications on bioaugmentation |
title_short |
Responses of exogenous bacteria to soluble extracellular polymeric substances in wastewater : a mechanistic study and implications on bioaugmentation |
title_full |
Responses of exogenous bacteria to soluble extracellular polymeric substances in wastewater : a mechanistic study and implications on bioaugmentation |
title_fullStr |
Responses of exogenous bacteria to soluble extracellular polymeric substances in wastewater : a mechanistic study and implications on bioaugmentation |
title_full_unstemmed |
Responses of exogenous bacteria to soluble extracellular polymeric substances in wastewater : a mechanistic study and implications on bioaugmentation |
title_sort |
responses of exogenous bacteria to soluble extracellular polymeric substances in wastewater : a mechanistic study and implications on bioaugmentation |
publishDate |
2021 |
url |
https://hdl.handle.net/10356/154633 |
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1722355304885125120 |