New Insights into Metabolic Properties of Marine Bacteria Encoding Proteorhodopsins | Zendy

Gazalah Sabehi | Zendy; Alexander Loy | Zendy; Kwang-Hwan Jung | Zendy; Ranga Partha | Zendy; John L. Spudich | Zendy; ‎Tal Isaacson | Zendy; Joseph Hirschberg | Zendy; Michael Wagner | Zendy; Oded Béjà | Zendy

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New Insights into Metabolic Properties of Marine Bacteria Encoding Proteorhodopsins

Author(s) -

Gazalah Sabehi,

Alexander Loy,

Kwang-Hwan Jung,

Ranga Partha,

John L. Spudich,

‎Tal Isaacson,

Joseph Hirschberg,

Michael Wagner,

Oded Béjà

Publication year - 2005

Publication title -

plos biology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 4.127

H-Index - 271

eISSN - 1545-7885

pISSN - 1544-9173

DOI - 10.1371/journal.pbio.0030273

Subject(s) - biology , phototroph , bacteria , operon , photic zone , anoxygenic photosynthesis , marine bacteriophage , genetics , gene , ecology , escherichia coli , phytoplankton , nutrient

Proteorhodopsin phototrophy was recently discovered in oceanic surface waters. In an effort to characterize uncultured proteorhodopsin-exploiting bacteria, large-insert bacterial artificial chromosome (BAC) libraries from the Mediterranean Sea and Red Sea were analyzed. Fifty-five BACs carried diverse proteorhodopsin genes, and we confirmed the function of five. We calculate that proteorhodopsin-exploiting bacteria account for 13% of microorganisms in the photic zone. We further show that some proteorhodopsin-containing bacteria possess a retinal biosynthetic pathway and a reverse sulfite reductase operon, employed by prokaryotes oxidizing sulfur compounds. Thus, these novel phototrophs are an unexpectedly large and metabolically diverse component of the marine microbial surface water.

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