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Construction of Recombinant Magnetospirillum Strains for Nitrate Removal from Wastewater Based on Magnetic Adsorption

Haolan Zheng, Bo Pang, Shuli Li, Shijiao Ma, Junjie Xu, Ying Wen, Jiesheng Tian

2022Processes12 citationsDOIOpen Access PDF

Abstract

Nitrate ion (NO3−) in wastewater is a major cause of pollution in aquatic environments worldwide. Magnetospirillum gryphiswaldense (MSR-1) has a complete dissimilatory denitrification pathway, converts NO3− in water into nitrogen (N2) and simultaneously removes ammonium ions (NH4+). We investigated and confirmed direct effects of regulatory protein factors Mg2046 and MgFnr on MSR-1 denitrification pathway by EMSAs and ChIP-qPCR assays. Corresponding mutant strains were constructed. Denitrification efficiency in synthetic wastewater medium during a 12-h cell growth period was significantly higher for mutant strain Δmgfnr (0.456 mmol·L−1·h−1) than for wild-type (0.362 mmol·L−1·h−1). Presence of magnetic particles (magnetosomes) in MSR-1 greatly facilitates collection and isolation of bacterial cells (and activated sludge) by addition of a magnetic field. The easy separation of magnetotactic bacteria, such as MSR-1 and Δmgfnr, from wastewater using magnetic fields is a unique feature that makes them promising candidates for practical application in wastewater treatment and sludge pretreatment.

Topics & Concepts

WastewaterMagnetotactic bacteriaMagnetosomeDenitrificationNitrateAdsorptionActivated sludgeAmmoniumChemistryBacteriaSewage treatmentNitrogenEnvironmental chemistryEnvironmental engineeringBiologyEnvironmental scienceOrganic chemistryGeneticsGeomagnetism and Paleomagnetism StudiesGeochemistry and Elemental AnalysisMagnetic and Electromagnetic Effects