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Structures and functions of algal glycans shape their capacity to sequester carbon in the ocean

Margot Bligh, Nguyen Nguyen, Hagen Buck‐Wiese, Silvia Vidal‐Melgosa, Jan‐Hendrik Hehemann

2022Current Opinion in Chemical Biology56 citationsDOIOpen Access PDF

Abstract

Algae synthesise structurally complex glycans to build a protective barrier, the extracellular matrix. One function of matrix glycans is to slow down microorganisms that try to enzymatically enter living algae and degrade and convert their organic carbon back to carbon dioxide. We propose that matrix glycans lock up carbon in the ocean by controlling degradation of organic carbon by bacteria and other microbes not only while algae are alive, but also after death. Data revised in this review shows accumulation of algal glycans in the ocean underscoring the challenge bacteria and other microbes face to breach the glycan barrier with carbohydrate active enzymes. Briefly we also update on methods required to certify the uncertain magnitude and unknown molecular causes of glycan-controlled carbon sequestration in a changing ocean.

Topics & Concepts

GlycanAlgaeCarbon fibersBacteriaMicroorganismChemistryBiologyEnvironmental chemistryEcologyBiochemistryMaterials scienceGlycoproteinGeneticsComposite numberComposite materialMicrobial Community Ecology and PhysiologyMarine and coastal ecosystemsCoral and Marine Ecosystems Studies
Structures and functions of algal glycans shape their capacity to sequester carbon in the ocean | Litcius