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Conserved cobalamin acquisition protein 1 is essential for vitamin B12 uptake in both Chlamydomonas and Phaeodactylum

Conserved cobalamin acquisition protein 1 is essential for vitamin B12 uptake in both Chlamydomonas and Phaeodactylum
Conserved cobalamin acquisition protein 1 is essential for vitamin B12 uptake in both Chlamydomonas and Phaeodactylum
Microalgae play an essential role in global net primary productivity and global biogeochemical cycling. Despite their phototrophic lifestyle, over half of algal species depend for growth on acquiring an external supply of the corrinoid vitamin B12 (cobalamin), a micronutrient produced only by a subset of prokaryotic organisms. Previous studies have identified protein components involved in vitamin B12 uptake in bacterial species and humans. However, little is known about its uptake in algae. Here, we demonstrate the essential role of a protein, cobalamin acquisition protein 1 (CBA1), in B12 uptake in Phaeodactylum tricornutum using CRISPR-Cas9 to generate targeted knockouts and in Chlamydomonas reinhardtii by insertional mutagenesis. In both cases, CBA1 knockout lines could not take up exogenous vitamin B12. Complementation of the C. reinhardtii mutants with the wild-type CBA1 gene restored B12 uptake, and regulation of CBA1 expression via a riboswitch element enabled control of the phenotype. When visualized by confocal microscopy, a YFP-fusion with C. reinhardtii CBA1 showed association with membranes. Bioinformatics analysis found that CBA1-like sequences are present in all major eukaryotic phyla. In algal taxa, the majority that encoded CBA1 also had genes for B12-dependent enzymes, suggesting CBA1 plays a conserved role. Our results thus provide insight into the molecular basis of algal B12 acquisition, a process that likely underpins many interactions in aquatic microbial communities.
0032-0889
698-714
Sayer, Andrew P.
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Llavero-Pasquina, Marcel
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Geisler, Katrin
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Holzer, Andre
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Bunbury, Freddy
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Mendoza-Ochoa, Gonzalo I.
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Lawrence, Andrew D.
ce503b40-0155-486f-bb1d-26830b61b5f1
Warren, Martin J.
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Mehrshahi, Payam
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Smith, Alison G.
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Sayer, Andrew P.
10c56442-2bcb-4f9a-93e9-eadb8a89598a
Llavero-Pasquina, Marcel
9ef9e303-438a-4975-a7ea-e1bfb8082ee5
Geisler, Katrin
3a83d894-200a-4569-b3fb-ee70179efdf6
Holzer, Andre
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Bunbury, Freddy
fb203006-d708-43f8-a066-637fce441ce6
Mendoza-Ochoa, Gonzalo I.
bbb60ba6-51c3-4e2c-8357-d6657ebbebad
Lawrence, Andrew D.
ce503b40-0155-486f-bb1d-26830b61b5f1
Warren, Martin J.
3928fae6-cdea-4952-b453-0af7d2b17390
Mehrshahi, Payam
b6f33659-38cc-4094-82ef-764c0080da06
Smith, Alison G.
30d591f0-8608-47bf-89ee-9278c4bef53d

Sayer, Andrew P., Llavero-Pasquina, Marcel, Geisler, Katrin, Holzer, Andre, Bunbury, Freddy, Mendoza-Ochoa, Gonzalo I., Lawrence, Andrew D., Warren, Martin J., Mehrshahi, Payam and Smith, Alison G. (2024) Conserved cobalamin acquisition protein 1 is essential for vitamin B12 uptake in both Chlamydomonas and Phaeodactylum. Plant Physiology, 194 (2), 698-714. (doi:10.1093/plphys/kiad564).

Record type: Article

Abstract

Microalgae play an essential role in global net primary productivity and global biogeochemical cycling. Despite their phototrophic lifestyle, over half of algal species depend for growth on acquiring an external supply of the corrinoid vitamin B12 (cobalamin), a micronutrient produced only by a subset of prokaryotic organisms. Previous studies have identified protein components involved in vitamin B12 uptake in bacterial species and humans. However, little is known about its uptake in algae. Here, we demonstrate the essential role of a protein, cobalamin acquisition protein 1 (CBA1), in B12 uptake in Phaeodactylum tricornutum using CRISPR-Cas9 to generate targeted knockouts and in Chlamydomonas reinhardtii by insertional mutagenesis. In both cases, CBA1 knockout lines could not take up exogenous vitamin B12. Complementation of the C. reinhardtii mutants with the wild-type CBA1 gene restored B12 uptake, and regulation of CBA1 expression via a riboswitch element enabled control of the phenotype. When visualized by confocal microscopy, a YFP-fusion with C. reinhardtii CBA1 showed association with membranes. Bioinformatics analysis found that CBA1-like sequences are present in all major eukaryotic phyla. In algal taxa, the majority that encoded CBA1 also had genes for B12-dependent enzymes, suggesting CBA1 plays a conserved role. Our results thus provide insight into the molecular basis of algal B12 acquisition, a process that likely underpins many interactions in aquatic microbial communities.

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Accepted/In Press date: 18 August 2023
e-pub ahead of print date: 21 October 2023
Published date: February 2024
Additional Information: This work was supported by the Biotechnology and Biological Sciences Research Council of the UK (BBSRC) Doctoral Training Partnership, grant no. BB/M011194/1 to A.P.S., M.L.P., and A.G.S.; grant no. BB/M018180/1 to P.M. and A.G.S.; grant no. BB/L002957/1 and BB/R021694/1 to K.G. and A.G.S.; grant no. BB/L014130/1 to G.I.M, K.G., P.M., and A.G.S.; grant no. BB/S002197/1 to M.J.W.; University of Cambridge Broodbank Fellowship to G.I.M; Royal Society grant no. INF\R2\180062 to M.J.W.; and Bill and Melinda Gates Foundation grant OPP1144 and Gates Cambridge Trust (Graduate Student Fellowship) to A.H. Publisher Copyright: © The Author(s) 2023. Published by Oxford University Press on behalf of American Society of Plant Biologists. © The Author(s) 2023. Published by Oxford University Press on behalf of American Society of Plant Biologists.
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Identifiers

Local EPrints ID: 487122
URI: http://eprints.soton.ac.uk/id/eprint/487122
DOI: doi:10.1093/plphys/kiad564
ISSN: 0032-0889
PURE UUID: 41efa7f3-c8ee-4ccc-908d-26834a412a69
ORCID for Andrew D. Lawrence: ORCID iD orcid.org/0000-0002-5853-5409

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Date deposited: 14 Feb 2024 17:36
Last modified: 16 Apr 2024 02:05

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Contributors

Author: Andrew P. Sayer
Author: Marcel Llavero-Pasquina
Author: Katrin Geisler
Author: Andre Holzer
Author: Freddy Bunbury
Author: Gonzalo I. Mendoza-Ochoa
Author: Andrew D. Lawrence ORCID iD
Author: Martin J. Warren
Author: Payam Mehrshahi
Author: Alison G. Smith

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