Arsenite as an Electron Donor for Anoxygenic Photosynthesis: Description of Three Strains of Ectothiorhodospira from Mono Lake, California and Big Soda Lake, Nevada.

Shelley Hoeft Mccann,Ronald Oremland,Alison Boren,Chad Saltikov,John Stolz,Brendon Stoneburner,Jaime Hernandez-Maldonado

doi:10.3390/life7010001

Abstract

Three novel strains of photosynthetic bacteria from the family Ectothiorhodospiraceae were isolated from soda lakes of the Great Basin Desert, USA by employing arsenite (As(III)) as the sole electron donor in the enrichment/isolation process. Strain PHS-1 was previously isolated from a hot spring in Mono Lake, while strain MLW-1 was obtained from Mono Lake sediment, and strain BSL-9 was isolated from Big Soda Lake. Strains PHS-1, MLW-1, and BSL-9 were all capable of As(III)-dependent growth via anoxygenic photosynthesis and contained homologs of arxA, but displayed different phenotypes. Comparisons were made with three related species: Ectothiorhodospira shaposhnikovii DSM 2111, Ectothiorhodospira shaposhnikovii DSM 243T, and Halorhodospira halophila DSM 244. All three type cultures oxidized arsenite to arsenate but did not grow with As(III) as the sole electron donor. DNA–DNA hybridization indicated that strain PHS-1 belongs to the same species as Ect. shaposhnikovii DSM 2111 (81.1% sequence similarity), distinct from Ect. shaposhnikovii DSM 243T (58.1% sequence similarity). These results suggest that the capacity for light-driven As(III) oxidation is a common phenomenon among purple photosynthetic bacteria in soda lakes. However, the use of As(III) as a sole electron donor to sustain growth via anoxygenic photosynthesis is confined to novel isolates that were screened for by this selective cultivation criterion.

Highlights

The genus Ectothiorhodospira of the family Ectothiorhodospiraceae is composed of photosynthetic purple sulfur bacteria dependent on saline and alkaline growth conditions [1]
Arsenite (As(III)) was found to serve as an electron donor for anoxygenic photosynthesis in Mono Lake biomes: both in an Ectothiorhodospira-dominated enrichment culture cultivated from Mono Lake sediments [3] and in red biofilms located in the lake’s hot springs [4]
Strains MLW-1 and BSL-9 both grew as photoautotrophs by oxidizing pulsed additions of

Summary

Introduction

The genus Ectothiorhodospira of the family Ectothiorhodospiraceae is composed of photosynthetic purple sulfur bacteria dependent on saline and alkaline growth conditions [1]. Isolates of this genus occur in marine environments as well as in the more chemically-extreme regimen of hypersaline and alkaline (soda) lakes [1]. They typically grow via anoxygenic photosynthesis using reduced sulfur compounds, hydrogen, or organic compounds (e.g., acetate, malate) as electron donors [2]. Arsenite (As(III)) was found to serve as an electron donor for anoxygenic photosynthesis in Mono Lake biomes: both in an Ectothiorhodospira-dominated enrichment culture cultivated from Mono Lake sediments [3] and in red biofilms located in the lake’s hot springs [4].

Methods

Results

Conclusion