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Comparison of heat-shock responses between the hydrothermal vent shrimp Rimicaris exoculata and the related coastal shrimp Palaemonetes varians

Comparison of heat-shock responses between the hydrothermal vent shrimp Rimicaris exoculata and the related coastal shrimp Palaemonetes varians
Comparison of heat-shock responses between the hydrothermal vent shrimp Rimicaris exoculata and the related coastal shrimp Palaemonetes varians
The deep-sea vent shrimp Rimicaris exoculata is believed to occur at the hot end of the hydrothermal biotope in order to provide essential elements to its epibiosis. Because it is found close to hot venting water, R. exoculata lives in a highly fluctuating environment where temperature (2–40 °C in the swarms) can exceed its critical maximal temperature (33–38.5 ± 2 °C). In order to understand how this vent shrimp copes with hyperthermia, we compared its molecular heat stress response following an acute but non-lethal heat-shock (1 h at 30 °C) with that of its monophyletic shallow-water relative, the shrimp Palaemonetes varians, known to frequently undergo prolonged exposure at temperatures up to 30 °C in its natural environment during summer. We isolated four isoforms of heat-shock proteins 70 (HSP70) in R. exoculata (2 constitutive and 2 inducible isoforms) and two isoforms in P. varians (1 constitutive and 1 inducible isoform) and quantitatively compared their magnitude of induction at mRNA level, using real-time PCR, in the case of experimentally heat-stressed shrimps, with respect to control (unstressed) animals. Here, we report the first quantification of the expression of multiple hsp70 genes following heat stress in a deep-sea vent species living at 2300 m depth. Our results show a strong increase of hsp70 inducible genes in the vent shrimp (not, vert, similar 400-fold) compared to the coastal shrimp (not, vert, similar 15-fold). We therefore propose that, the highly inducible molecular response observed in R. exoculata may contribute to the ability of this species to tolerate thermal extremes.
0022-0981
9-16
Cottin, Delphine
e20fe38e-51f9-47a1-94f8-87b81efe79c0
Shillito, Bruce
888ab0ce-0e9d-4a54-8a71-44eb2f5c0ad9
Chertemps, Thomas
5827c630-92d7-4cce-ad3d-9346512ecdac
Thatje, Sven
f1011fe3-1048-40c0-97c1-e93b796e6533
Leger, Nelly
31ef8687-9bab-48e8-82c0-e46a888611c0
Ravaux, Juliette
e2e2aae1-8ab3-423c-8968-a0fec8bf40af
Cottin, Delphine
e20fe38e-51f9-47a1-94f8-87b81efe79c0
Shillito, Bruce
888ab0ce-0e9d-4a54-8a71-44eb2f5c0ad9
Chertemps, Thomas
5827c630-92d7-4cce-ad3d-9346512ecdac
Thatje, Sven
f1011fe3-1048-40c0-97c1-e93b796e6533
Leger, Nelly
31ef8687-9bab-48e8-82c0-e46a888611c0
Ravaux, Juliette
e2e2aae1-8ab3-423c-8968-a0fec8bf40af

Cottin, Delphine, Shillito, Bruce, Chertemps, Thomas, Thatje, Sven, Leger, Nelly and Ravaux, Juliette (2010) Comparison of heat-shock responses between the hydrothermal vent shrimp Rimicaris exoculata and the related coastal shrimp Palaemonetes varians. Journal of Experimental Marine Biology and Ecology, 393 (1-2), 9-16. (doi:10.1016/j.jembe.2010.06.008).

Record type: Article

Abstract

The deep-sea vent shrimp Rimicaris exoculata is believed to occur at the hot end of the hydrothermal biotope in order to provide essential elements to its epibiosis. Because it is found close to hot venting water, R. exoculata lives in a highly fluctuating environment where temperature (2–40 °C in the swarms) can exceed its critical maximal temperature (33–38.5 ± 2 °C). In order to understand how this vent shrimp copes with hyperthermia, we compared its molecular heat stress response following an acute but non-lethal heat-shock (1 h at 30 °C) with that of its monophyletic shallow-water relative, the shrimp Palaemonetes varians, known to frequently undergo prolonged exposure at temperatures up to 30 °C in its natural environment during summer. We isolated four isoforms of heat-shock proteins 70 (HSP70) in R. exoculata (2 constitutive and 2 inducible isoforms) and two isoforms in P. varians (1 constitutive and 1 inducible isoform) and quantitatively compared their magnitude of induction at mRNA level, using real-time PCR, in the case of experimentally heat-stressed shrimps, with respect to control (unstressed) animals. Here, we report the first quantification of the expression of multiple hsp70 genes following heat stress in a deep-sea vent species living at 2300 m depth. Our results show a strong increase of hsp70 inducible genes in the vent shrimp (not, vert, similar 400-fold) compared to the coastal shrimp (not, vert, similar 15-fold). We therefore propose that, the highly inducible molecular response observed in R. exoculata may contribute to the ability of this species to tolerate thermal extremes.

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Submitted date: November 2009
Published date: 30 September 2010

Identifiers

Local EPrints ID: 72328
URI: http://eprints.soton.ac.uk/id/eprint/72328
ISSN: 0022-0981
PURE UUID: 3cac0a5d-e479-494e-8760-50c5b0b7b464

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Date deposited: 08 Feb 2010
Last modified: 13 Mar 2024 21:24

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Contributors

Author: Delphine Cottin
Author: Bruce Shillito
Author: Thomas Chertemps
Author: Sven Thatje
Author: Nelly Leger
Author: Juliette Ravaux

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