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Main Authors: Sang, Yuxuan, Hao, Qinqin, Zhang, Yuechao, Wang, Oumei, Zheng, Shiling, Liu, Fanghua
Format: Artículo científico
Language:en
Published: Bioresource technology 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/39667626/
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author Sang, Yuxuan
Hao, Qinqin
Zhang, Yuechao
Wang, Oumei
Zheng, Shiling
Liu, Fanghua
author_facet Sang, Yuxuan
Hao, Qinqin
Zhang, Yuechao
Wang, Oumei
Zheng, Shiling
Liu, Fanghua
Sang, Yuxuan
Hao, Qinqin
Zhang, Yuechao
Wang, Oumei
Zheng, Shiling
Liu, Fanghua
collection PubMed - marine biology
contents Simultaneous removal of methane and high nitrite from the wastewater by Methylomonas sp. with soluble methane monooxygenase. Sang, Yuxuan Hao, Qinqin Zhang, Yuechao Wang, Oumei Zheng, Shiling Liu, Fanghua Methane Wastewater Nitrites Oxygenases Methylomonas Oxidation-Reduction Denitrification Solubility Water Purification Biodegradation, Environmental Aerobic methanotrophs play a crucial role in controlling methane emission in wastewater treatment. However, the high nitrite produced during ammonium oxidation, nitrate assimilation, and denitrification hinders methane oxidation and nitrogen removal. In this study, Methylomonas sp. HYX-M1, possessing two methane monooxygenase and multiple nitrite reductase genes, demonstrated efficient methane oxidation, coupled with nitrite removal abilities up to 6 mM. Strain HYX-M1 presented methane oxidation rate of 0.05 mmol/d and nitrite removal rate of 0.53 mM/d under low-oxygen conditions. Assimilation and denitrification mainly accounted for 94.6-96.06 % and 3.10-5.03 % of nitrite removal. Methane monooxygenase genes, pmoA and mmoX expressed in different nitrite concentrations. Meanwhile, the nirB and nirD of strain HYX-M1 upregulated by 2.7- and 8.5-fold in 6 mM, respectively. The sod and ahpC genes upregulated, contributing to the survival of strain HYX-M1 in high nitrite. These findings provide a new strategy for the application of aerobic methanotrophs in regulating methane emission of wastewater with high nitrite.
format Artículo científico
id pubmed_39667626
institution PubMed
language en
publishDate 2025
publisher Bioresource technology
record_format pubmed
spellingShingle Simultaneous removal of methane and high nitrite from the wastewater by Methylomonas sp. with soluble methane monooxygenase.
Sang, Yuxuan
Hao, Qinqin
Zhang, Yuechao
Wang, Oumei
Zheng, Shiling
Liu, Fanghua
Methane
Wastewater
Nitrites
Oxygenases
Methylomonas
Oxidation-Reduction
Denitrification
Solubility
Water Purification
Biodegradation, Environmental
Simultaneous removal of methane and high nitrite from the wastewater by Methylomonas sp. with soluble methane monooxygenase. Sang, Yuxuan Hao, Qinqin Zhang, Yuechao Wang, Oumei Zheng, Shiling Liu, Fanghua Methane Wastewater Nitrites Oxygenases Methylomonas Oxidation-Reduction Denitrification Solubility Water Purification Biodegradation, Environmental Aerobic methanotrophs play a crucial role in controlling methane emission in wastewater treatment. However, the high nitrite produced during ammonium oxidation, nitrate assimilation, and denitrification hinders methane oxidation and nitrogen removal. In this study, Methylomonas sp. HYX-M1, possessing two methane monooxygenase and multiple nitrite reductase genes, demonstrated efficient methane oxidation, coupled with nitrite removal abilities up to 6 mM. Strain HYX-M1 presented methane oxidation rate of 0.05 mmol/d and nitrite removal rate of 0.53 mM/d under low-oxygen conditions. Assimilation and denitrification mainly accounted for 94.6-96.06 % and 3.10-5.03 % of nitrite removal. Methane monooxygenase genes, pmoA and mmoX expressed in different nitrite concentrations. Meanwhile, the nirB and nirD of strain HYX-M1 upregulated by 2.7- and 8.5-fold in 6 mM, respectively. The sod and ahpC genes upregulated, contributing to the survival of strain HYX-M1 in high nitrite. These findings provide a new strategy for the application of aerobic methanotrophs in regulating methane emission of wastewater with high nitrite.
title Simultaneous removal of methane and high nitrite from the wastewater by Methylomonas sp. with soluble methane monooxygenase.
topic Methane
Wastewater
Nitrites
Oxygenases
Methylomonas
Oxidation-Reduction
Denitrification
Solubility
Water Purification
Biodegradation, Environmental
url https://pubmed.ncbi.nlm.nih.gov/39667626/