Cyanobacteria and eukaryotic algae use different chemical variants of vitamin B12
Cyanobacteria and eukaryotic algae use different chemical variants of vitamin B12
Eukaryotic microalgae and prokaryotic cyanobacteria are the major components of the phytoplankton. Determining factors that govern growth of these primary producers, and how they interact, is therefore essential to understanding aquatic ecosystem productivity. Over half of microalgal species representing marine and freshwater habitats require for growth the corrinoid cofactor B12, which is synthesized de novo only by certain prokaryotes, including the majority of cyanobacteria. There are several chemical variants of B12, which are not necessarily functionally interchangeable. Cobalamin, the form bioavailable to humans, has as its lower axial ligand 5,6-dimethylbenzimidazole (DMB). Here, we show that the abundant marine cyanobacterium Synechococcus synthesizes only pseudocobalamin, in which the lower axial ligand is adenine. Moreover, bioinformatic searches of over 100 sequenced cyanobacterial genomes for B12 biosynthesis genes, including those involved in nucleotide loop assembly, suggest this is the form synthesized by cyanobacteria more broadly. We further demonstrate that pseudocobalamin is several orders of magnitude less bioavailable than cobalamin to several B12-dependent microalgae representing diverse lineages. This indicates that the two major phytoplankton groups use a different B12 currency. However, in an intriguing twist, some microalgal species can use pseudocobalamin if DMB is provided, suggesting that they are able to remodel the cofactor, whereas Synechococcus cannot. This species-specific attribute implicates algal remodelers as novel and keystone players of the B12 cycle, transforming our perception of the dynamics and complexity of the flux of this nutrient in aquatic ecosystems.
999-1008
Helliwell, Katherine Emma
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Lawrence, Andrew David
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Holzer, Andre
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Kudahl, Ulrich Johan
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Sasso, Severin
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Kräutler, Bernhard
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Scanlan, David John
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Warren, Martin James
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Smith, Alison Gail
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25 April 2016
Helliwell, Katherine Emma
229ba91b-e230-4b1d-a616-a0be734c59bd
Lawrence, Andrew David
ce503b40-0155-486f-bb1d-26830b61b5f1
Holzer, Andre
b72fea68-0d52-4345-8ebb-eaf378da9e02
Kudahl, Ulrich Johan
95e9aa66-958f-48a2-9285-393cd964440d
Sasso, Severin
c5ef17c0-929d-47c4-a5cf-6915a0b25052
Kräutler, Bernhard
a9f1114e-990d-4209-bd52-998dbdee8838
Scanlan, David John
c9f47946-9154-4a8a-ac3c-8e933f999846
Warren, Martin James
a4dba95a-100d-44a5-ad07-8e21e82ad6b1
Smith, Alison Gail
86d5f5e2-dd29-4962-96a8-a92ee3351dbe
Helliwell, Katherine Emma, Lawrence, Andrew David, Holzer, Andre, Kudahl, Ulrich Johan, Sasso, Severin, Kräutler, Bernhard, Scanlan, David John, Warren, Martin James and Smith, Alison Gail
(2016)
Cyanobacteria and eukaryotic algae use different chemical variants of vitamin B12.
Current Biology, 26 (8), .
(doi:10.1016/j.cub.2016.02.041).
Abstract
Eukaryotic microalgae and prokaryotic cyanobacteria are the major components of the phytoplankton. Determining factors that govern growth of these primary producers, and how they interact, is therefore essential to understanding aquatic ecosystem productivity. Over half of microalgal species representing marine and freshwater habitats require for growth the corrinoid cofactor B12, which is synthesized de novo only by certain prokaryotes, including the majority of cyanobacteria. There are several chemical variants of B12, which are not necessarily functionally interchangeable. Cobalamin, the form bioavailable to humans, has as its lower axial ligand 5,6-dimethylbenzimidazole (DMB). Here, we show that the abundant marine cyanobacterium Synechococcus synthesizes only pseudocobalamin, in which the lower axial ligand is adenine. Moreover, bioinformatic searches of over 100 sequenced cyanobacterial genomes for B12 biosynthesis genes, including those involved in nucleotide loop assembly, suggest this is the form synthesized by cyanobacteria more broadly. We further demonstrate that pseudocobalamin is several orders of magnitude less bioavailable than cobalamin to several B12-dependent microalgae representing diverse lineages. This indicates that the two major phytoplankton groups use a different B12 currency. However, in an intriguing twist, some microalgal species can use pseudocobalamin if DMB is provided, suggesting that they are able to remodel the cofactor, whereas Synechococcus cannot. This species-specific attribute implicates algal remodelers as novel and keystone players of the B12 cycle, transforming our perception of the dynamics and complexity of the flux of this nutrient in aquatic ecosystems.
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Accepted/In Press date: 17 February 2016
e-pub ahead of print date: 31 March 2016
Published date: 25 April 2016
Identifiers
Local EPrints ID: 488325
URI: http://eprints.soton.ac.uk/id/eprint/488325
ISSN: 0960-9822
PURE UUID: 33506f25-fc41-4757-9048-08aadbba9e93
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Date deposited: 20 Mar 2024 17:49
Last modified: 23 Mar 2024 03:10
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Author:
Katherine Emma Helliwell
Author:
Andrew David Lawrence
Author:
Andre Holzer
Author:
Ulrich Johan Kudahl
Author:
Severin Sasso
Author:
Bernhard Kräutler
Author:
David John Scanlan
Author:
Martin James Warren
Author:
Alison Gail Smith
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