Cyanobacteria Newly Isolated from Marine Volcanic Seeps Display Rapid Sinking and Robust, High-Density Growth

Max Schubert, Tzu-Chieh Tang, Isabella Goodchild-Michelman, Krista Ryon, James Henriksen, Theodore Chavkin, Yanqi Wu, Teemu Miettinen, Stefanie Van Wychen, Lukas Dahlin, Davide Spatafora, Gabriele Turco, Michael Guarnieri, Scott Manalis, John Kowitz, Elizabeth Hann, Raja Dhir, Paola Quatrini, Christopher Mason, George ChurchMarco Milazzo, Braden Tierney

Research output: Contribution to journalArticlepeer-review

Abstract

Cyanobacteria are photosynthetic organisms that play important roles in carbon cycling and are promising bioproduction chassis. Here, we isolate two novel cyanobacteria with 4.6Mbp genomes, UTEX 3221 and UTEX 3222, from a unique marine environment with naturally elevated CO2. We describe complete genome sequences for both isolates and, focusing on UTEX 3222 due to its planktonic growth in liquid, characterize biotechnologically relevant growth and biomass characteristics. UTEX 3222 outpaces other fast-growing model strains on a solid medium. It can double every 2.35 hours in a liquid medium and grows to high density (>31 g/L biomass dry weight) in batch culture, nearly double that of Synechococcus sp. PCC 11901, whose high-density growth was recently reported. In addition, UTEX 3222 sinks readily, settling more quickly than other fast-growing strains, suggesting favorable economics of harvesting UTEX 3222 biomass. These traits may make UTEX 3222 a compelling choice for marine carbon dioxide removal (CDR) and photosynthetic bioproduction from CO2. Overall, we find that bio-prospecting in environments with naturally elevated CO2 may uncover novel CO2-metabolizing organisms with unique characteristics.
Original languageAmerican English
Number of pages23
JournalApplied and Environmental Microbiology
Volume90
Issue number11
DOIs
StatePublished - 2024

NREL Publication Number

  • NREL/JA-2800-92438

Keywords

  • algae
  • carbon sequestration
  • CO2
  • cyanobacteria
  • microbial diversity
  • microbiology
  • photosynthesis

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