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An epifluorescence micrograph of a marine alga indicates that the cobalamin acquisition protein 1 (tagged with a light green fluorescent label) is associated with the outside of the cell wall, where it appears to facilitate bringing in vitamin B12 from the ocean into the cell. Red indicates cholorophyll. (Chris Dupont, J. Craig Venter Institute) [ Hide caption ]

Scientists Discover the "Vitamin B12 Claw"

Newfound protein is key for algae growth in the ocean

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Scientists have revealed a key cog in the biochemical machinery that allows marine algae at the base of the oceanic food chain to thrive. They have discovered a previously unknown protein in algae that grabs vitamin B12, an essential but scarce nutrient, out of seawater.

Many algae, as well as land-dwelling animals, including humans, require B12, but they cannot make it and must either acquire it from the environment or eat food that contains B12. Only certain single-celled bacteria and archaea have the ability to synthesize B12, which is also known as cobalamin.

Studying algal cultures and seawater samples from the Southern Ocean off Antarctica, a team of researchers from Woods Hole Oceanographic Institution (WHOI) and the J. Craig Venter Institute found a protein they call “the B12 claw.” Stationed on the outside of algal cells, the protein appears to operate by binding B12 in the ocean and helping to bring it into the cell. When B12 supplies are scarce, algae compensate by producing more of the protein, officially known as cobalamin acquisition protein 1, or CBA1. The team reported their findings May 31 in Proceedings of the National Academy of Sciences.

Discovery of CBA1 illuminates a small but vital piece of the fundamental metabolic machinery that allows the growth of marine algae, which have critical impacts on the marine food web and on Earth’s climate. Via photosynthesis, marine algae draw huge amounts of carbon dioxide, a greenhouse gas, from the air, incorporating carbon into their bodies. The algae provide food that sets the food chain in motion and plays a role in removing carbon from the atmosphere. When they die or are eaten, some of the carbon ends up sinking to the ocean depths, where it cannot re-enter the atmosphere.

The discovery also opens the door for industrial or therapeutic applications. Since CBA1 is essential for algal growth, it could provide clues to promoting the growth of algae used to manufacture biofuels. Learning to manipulate the B12biochemical pathways of beneficial or detrimental microbes could eventually lead to antibiotic or antifungal medicines.

To discover CBA1, WHOI biogeochemists Erin Bertrand and Mak Saito used an approach now common in biomedical research but only recently applied to marine science: proteomics, the study of the proteins organisms make to function in their environment and respond to changing conditions (see interactive). Among thousands of other proteins present in the algae, they identified the novel CBA1 protein when it increased in abundance when the algae were starved of vitamin B12. They then worked with colleagues at the Venter Institute to demonstrate CBA1’s function and its presence in the oceans.

Bertrand, the study’s lead author, earned a Ph.D. from the MIT/WHOI Joint Program in Oceanography in September 2011 and is now a postdoctoral scientist at the Venter Institute. Co-authors of the papers are Andrew Allen, Christopher Dupont, Trina Norden-Krichmar, Jing Bai and Ruben Valas of the Venter Institute, and Saito, Bertrand’s Ph.D. advisor at WHOI.

This research was funded by the National Science Foundation and the Gordon and Betty Moore Foundation’s Marine Microbiology Initiative.

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