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Genome Streamlining, Proteorhodopsin, and Organic Nitrogen Metabolism in Freshwater Nitrifiers

Justin C. Podowski, Sara F. Paver, Ryan J. Newton, Maureen L. Coleman

2022mBio21 citationsDOIOpen Access PDF

Abstract

Microorganisms play critical roles in Earth's nitrogen cycle. In lakes, microorganisms called nitrifiers derive energy from reduced nitrogen compounds. In doing so, they transform nitrogen into a form that can ultimately be lost to the atmosphere by a process called denitrification, which helps mitigate nitrogen pollution from fertilizer runoff and sewage. Despite their importance, freshwater nitrifiers are virtually unexplored. To understand their diversity and function, we reconstructed genomes of freshwater nitrifiers across some of Earth's largest freshwater lakes, the Laurentian Great Lakes. We discovered several new species of nitrifiers specialized for clear low-nutrient waters and distinct species in comparatively turbid Lake Erie. Surprisingly, one species may be able to harness light energy by using a protein called proteorhodopsin, despite the fact that nitrifiers typically live in deep dark water. Our work reveals the unique biodiversity of the Great Lakes and fills key gaps in our knowledge of an important microbial group, the nitrifiers.

Topics & Concepts

NitrospiraNitrogen cycleNitrificationBiogeochemical cycleEcologyArchaeaBiologyEcosystemMicrobial ecologyAquatic ecosystemEnvironmental scienceChemistryNitrogenBacteriaNitriteGeneticsNitrateOrganic chemistryMicrobial Community Ecology and PhysiologyWastewater Treatment and Nitrogen RemovalProtist diversity and phylogeny
Genome Streamlining, Proteorhodopsin, and Organic Nitrogen Metabolism in Freshwater Nitrifiers | Litcius