Metatranscriptomic analysis of a high-sulfide aquatic spring reveals insights into sulfur cycling and unexpected aerobic metabolism

Anne M. Spain; Mostafa S. Elshahed; Fares Z. Najar; Lee R. Krumholz

doi:10.7717/peerj.1259

PeerJ (Sep 2015)

Metatranscriptomic analysis of a high-sulfide aquatic spring reveals insights into sulfur cycling and unexpected aerobic metabolism

Anne M. Spain,
Mostafa S. Elshahed,
Fares Z. Najar,
Lee R. Krumholz

Affiliations

Anne M. Spain: Department of Biological Sciences, Ferris State University, Big Rapids, MI, United States
Mostafa S. Elshahed: Department of Microbiology and Molecular Genetics, Oklahoma State University, Stillwater, OK, United States
Fares Z. Najar: Department of Chemistry and Biochemistry and the Advanced Center for Genome Technology, University of Oklahoma, Norman, OK, United States
Lee R. Krumholz: Department of Microbiology and Plant Biology and the Institute for Energy and the Environment, University of Oklahoma, Norman, OK, United States

DOI: https://doi.org/10.7717/peerj.1259
Journal volume & issue: Vol. 3
p. e1259

Abstract

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Zodletone spring is a sulfide-rich spring in southwestern Oklahoma characterized by shallow, microoxic, light-exposed spring water overlaying anoxic sediments. Previously, culture-independent 16S rRNA gene based diversity surveys have revealed that Zodletone spring source sediments harbor a highly diverse microbial community, with multiple lineages putatively involved in various sulfur-cycling processes. Here, we conducted a metatranscriptomic survey of microbial populations in Zodletone spring source sediments to characterize the relative prevalence and importance of putative phototrophic, chemolithotrophic, and heterotrophic microorganisms in the sulfur cycle, the identity of lineages actively involved in various sulfur cycling processes, and the interaction between sulfur cycling and other geochemical processes at the spring source. Sediment samples at the spring’s source were taken at three different times within a 24-h period for geochemical analyses and RNA sequencing. In depth mining of datasets for sulfur cycling transcripts revealed major sulfur cycling pathways and taxa involved, including an unexpected potential role of Actinobacteria in sulfide oxidation and thiosulfate transformation. Surprisingly, transcripts coding for the cyanobacterial Photosystem II D1 protein, methane monooxygenase, and terminal cytochrome oxidases were encountered, indicating that genes for oxygen production and aerobic modes of metabolism are actively being transcribed, despite below-detectable levels (<1 µM) of oxygen in source sediment. Results highlight transcripts involved in sulfur, methane, and oxygen cycles, propose that oxygenic photosynthesis could support aerobic methane and sulfide oxidation in anoxic sediments exposed to sunlight, and provide a viewpoint of microbial metabolic lifestyles under conditions similar to those seen during late Archaean and Proterozoic eons.

Published in PeerJ

ISSN: 2167-8359 (Online)
Publisher: PeerJ Inc.
Country of publisher: United States
LCC subjects: Medicine; Science: Biology (General)
Website: https://peerj.com/

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