Physiological proteomics of the uncultured endosymbiont of Riftia pachyptila
Physiological proteomics of the uncultured endosymbiont of Riftia pachyptila
The bacterial endosymbiont of the deep-sea tube worm Riftia pachyptila has never been successfully cultivated outside its host. In the absence of cultivation data, we have taken a proteomic approach based on the metagenome sequence to study the metabolism of this peculiar microorganism in detail. As one result, we found that three major sulfide oxidation proteins constitute ?12% of the total cytosolic proteome, which highlights the essential role of these enzymes for the symbiont's energy metabolism. Unexpectedly, the symbiont uses the reductive tricarboxylic acid cycle in addition to the previously identified Calvin cycle for CO2 fixation.
247-250
Markert, S.
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Arndt, C.
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Felbeck, H.
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Becher, D.
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Sievert, S.M.
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Hugler, M.
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Albrecht, D.
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Robidart, J.
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Bench, S.
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Feldman, R.A.
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Hecker, M.
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Schweder, T.
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January 2007
Markert, S.
71b7fd24-1a87-4ff6-8b6e-1e244203fdff
Arndt, C.
72f9d16b-d838-4d1b-8670-d8945213fa31
Felbeck, H.
a38dcf62-437c-4370-a7aa-2c8fbfde02d6
Becher, D.
01a41c39-4228-4864-a168-382802ed9beb
Sievert, S.M.
f87ac1db-bcae-448f-bef1-c7afb0f8de82
Hugler, M.
a316d5de-f5b3-47e2-8421-8dfb370fa863
Albrecht, D.
da8acd94-467b-4900-9010-550dbf74ddd2
Robidart, J.
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Bench, S.
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Feldman, R.A.
fefa3756-3db5-4773-a212-db505bab04d1
Hecker, M.
c9446c04-5fd4-432e-b2cf-f20874551cd2
Schweder, T.
4ca829d4-f3db-4f72-a93b-c6046ee7b698
Markert, S., Arndt, C., Felbeck, H., Becher, D., Sievert, S.M., Hugler, M., Albrecht, D., Robidart, J., Bench, S., Feldman, R.A., Hecker, M. and Schweder, T.
(2007)
Physiological proteomics of the uncultured endosymbiont of Riftia pachyptila.
Science, 315 (5809), .
(doi:10.1126/science.1132913).
Abstract
The bacterial endosymbiont of the deep-sea tube worm Riftia pachyptila has never been successfully cultivated outside its host. In the absence of cultivation data, we have taken a proteomic approach based on the metagenome sequence to study the metabolism of this peculiar microorganism in detail. As one result, we found that three major sulfide oxidation proteins constitute ?12% of the total cytosolic proteome, which highlights the essential role of these enzymes for the symbiont's energy metabolism. Unexpectedly, the symbiont uses the reductive tricarboxylic acid cycle in addition to the previously identified Calvin cycle for CO2 fixation.
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Published date: January 2007
Organisations:
Ocean Technology and Engineering
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Local EPrints ID: 374103
URI: http://eprints.soton.ac.uk/id/eprint/374103
ISSN: 0036-8075
PURE UUID: 76e6b399-54df-4103-8324-d3425b20cb76
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Date deposited: 03 Feb 2015 14:11
Last modified: 14 Mar 2024 19:01
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Contributors
Author:
S. Markert
Author:
C. Arndt
Author:
H. Felbeck
Author:
D. Becher
Author:
S.M. Sievert
Author:
M. Hugler
Author:
D. Albrecht
Author:
J. Robidart
Author:
S. Bench
Author:
R.A. Feldman
Author:
M. Hecker
Author:
T. Schweder
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