Evidence for phosphonate usage in the coral holobiont

S. Thomas; H. Burdett; B. Temperton; R. Wick; D. Snelling; J. W. McGrath; J. P. Quinn; C. Munn; J. A. Gilbert

doi:10.1038/ismej.2009.129

Evidence for phosphonate usage in the coral holobiont

S. Thomas, H. Burdett, B. Temperton, R. Wick, D. Snelling, J. W. McGrath, J. P. Quinn, C. Munn, J. A. Gilbert^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Phosphonates are characterized by a stable carbon-phosphorus bond and commonly occur as lipid conjugates in invertebrate cell membranes. Phosphonoacetate hydrolase encoded by the phnA gene, catalyses the cleavage of phosphonoacetate to acetate and phosphate. In this study, we demonstrate the unusually high phnA diversity in coral-associated bacteria. The holobiont of eight coral species tested positive when screened for phnA using degenerate primers. In two soft coral species, Sinularia and Discosoma, sequencing of the phnA gene showed 13 distinct groups on the basis of 90% sequence identity across 100% of the sequence. A total of 16 bacterial taxa capable of using phosphonoacetate as the sole carbon and phosphorus source were isolated; 8 of which had a phnA+ genotype. This study enhances our understanding of the wide taxonomic and environmental distribution of phnA, and highlights the importance of phosphonates in marine ecosystems. The ISME Journal (2010) 4, 45-461; doi:10.1038/ismej.2009.129; published online 3 December 2009

Original language	English
Pages (from-to)	459-461
Number of pages	3
Journal	ISME Journal
Volume	4
Issue number	3
DOIs	https://doi.org/10.1038/ismej.2009.129
Publication status	Published - Mar 2010

Keywords

Discosoma sp.
phosphonoacetate hydrolase
Sinularia sp
MARINE
EXPRESSION
GENE
BOND

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/ismej.2009.129

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title = "Evidence for phosphonate usage in the coral holobiont",

abstract = "Phosphonates are characterized by a stable carbon-phosphorus bond and commonly occur as lipid conjugates in invertebrate cell membranes. Phosphonoacetate hydrolase encoded by the phnA gene, catalyses the cleavage of phosphonoacetate to acetate and phosphate. In this study, we demonstrate the unusually high phnA diversity in coral-associated bacteria. The holobiont of eight coral species tested positive when screened for phnA using degenerate primers. In two soft coral species, Sinularia and Discosoma, sequencing of the phnA gene showed 13 distinct groups on the basis of 90% sequence identity across 100% of the sequence. A total of 16 bacterial taxa capable of using phosphonoacetate as the sole carbon and phosphorus source were isolated; 8 of which had a phnA+ genotype. This study enhances our understanding of the wide taxonomic and environmental distribution of phnA, and highlights the importance of phosphonates in marine ecosystems. The ISME Journal (2010) 4, 45-461; doi:10.1038/ismej.2009.129; published online 3 December 2009",

keywords = "Discosoma sp., phosphonoacetate hydrolase, Sinularia sp, MARINE, EXPRESSION, GENE, BOND",

author = "S. Thomas and H. Burdett and B. Temperton and R. Wick and D. Snelling and McGrath, {J. W.} and Quinn, {J. P.} and C. Munn and Gilbert, {J. A.}",

year = "2010",

month = mar,

doi = "10.1038/ismej.2009.129",

language = "English",

volume = "4",

pages = "459--461",

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T1 - Evidence for phosphonate usage in the coral holobiont

AU - Thomas, S.

AU - Burdett, H.

AU - Temperton, B.

AU - Wick, R.

AU - Snelling, D.

AU - McGrath, J. W.

AU - Quinn, J. P.

AU - Munn, C.

AU - Gilbert, J. A.

PY - 2010/3

Y1 - 2010/3

N2 - Phosphonates are characterized by a stable carbon-phosphorus bond and commonly occur as lipid conjugates in invertebrate cell membranes. Phosphonoacetate hydrolase encoded by the phnA gene, catalyses the cleavage of phosphonoacetate to acetate and phosphate. In this study, we demonstrate the unusually high phnA diversity in coral-associated bacteria. The holobiont of eight coral species tested positive when screened for phnA using degenerate primers. In two soft coral species, Sinularia and Discosoma, sequencing of the phnA gene showed 13 distinct groups on the basis of 90% sequence identity across 100% of the sequence. A total of 16 bacterial taxa capable of using phosphonoacetate as the sole carbon and phosphorus source were isolated; 8 of which had a phnA+ genotype. This study enhances our understanding of the wide taxonomic and environmental distribution of phnA, and highlights the importance of phosphonates in marine ecosystems. The ISME Journal (2010) 4, 45-461; doi:10.1038/ismej.2009.129; published online 3 December 2009

AB - Phosphonates are characterized by a stable carbon-phosphorus bond and commonly occur as lipid conjugates in invertebrate cell membranes. Phosphonoacetate hydrolase encoded by the phnA gene, catalyses the cleavage of phosphonoacetate to acetate and phosphate. In this study, we demonstrate the unusually high phnA diversity in coral-associated bacteria. The holobiont of eight coral species tested positive when screened for phnA using degenerate primers. In two soft coral species, Sinularia and Discosoma, sequencing of the phnA gene showed 13 distinct groups on the basis of 90% sequence identity across 100% of the sequence. A total of 16 bacterial taxa capable of using phosphonoacetate as the sole carbon and phosphorus source were isolated; 8 of which had a phnA+ genotype. This study enhances our understanding of the wide taxonomic and environmental distribution of phnA, and highlights the importance of phosphonates in marine ecosystems. The ISME Journal (2010) 4, 45-461; doi:10.1038/ismej.2009.129; published online 3 December 2009

KW - Discosoma sp.

KW - phosphonoacetate hydrolase

KW - Sinularia sp

KW - MARINE

KW - EXPRESSION

KW - GENE

KW - BOND

U2 - 10.1038/ismej.2009.129

DO - 10.1038/ismej.2009.129

M3 - Article

SN - 1751-7362

VL - 4

SP - 459

EP - 461

JO - ISME Journal

JF - ISME Journal

IS - 3

ER -

Evidence for phosphonate usage in the coral holobiont

Abstract

Keywords

UN SDGs

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