Two-dimensional gel analysis of the heat-shock response in marine snails (genus Tegula): interspecific variation in protein expression and acclimation ability

doi:10.1242/jeb.01748

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First published online August 4, 2005
Journal of Experimental Biology 208, 3133-3143 (2005)
Published by The Company of Biologists 2005
doi: 10.1242/jeb.01748

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Two-dimensional gel analysis of the heat-shock response in marine snails (genus Tegula): interspecific variation in protein expression and acclimation ability

Lars Tomanek^*

Hopkins Marine Station, Stanford University, Pacific Grove, CA 93950-3094, USA

Accepted 14 June 2006

The degree to which temperature acclimation modifies the acutesynthesis of the entire heat-shock protein (Hsp) complementis still unknown, but it may constitute an important mechanismfor understanding the differences in acclimation ability amongclosely related ectothermic species that occupy widely varyingthermal environments. In general, eurythermal (heat-tolerant) speciesmodify physiological function in response to an increase in acclimationtemperature to a greater extent than stenothermal (heat-sensitive) species.In the present work I used ³⁵S-labelled amino acids and two-dimensionalgel electrophoresis to test this assumption for how acclimationaffects acute Hsp expression (referred to as phenotypic plasticity)in two heat-sensitive, low-intertidal to subtidal zone turban snails,Tegula brunnea and T. montereyi, in comparison to a heat-tolerant,mid- to low-intertidal zone congener, T. funebralis. I was able(i) to detect the synthesis of over 30 proteins in gill tissue, primarilyin the 70 kDa range, in response to an increase in temperature (13°C,24°C, 27°C and 30°C), (ii) to assess the effectof acclimation (13°C vs 22°C) on acute Hsp synthesis,and (iii) to compare this effect among the three Tegula congeners.After increasing acclimation temperature from 13°C to 22°C,synthesis of the most highly expressed Hsps decreased more inT. brunnea and T. montereyi than in T. funebralis. Two highlyexpressed proteins of molecular mass 71 and 74 kDa, however,were also synthesized constitutively at 13°C and changedwith increasing acclimation temperature in all three species.Although similar in phenotypic plasticity, T. brunnea and T.montereyi synthesized either a 76 or a 72 kDa cluster of proteins, respectively,and differed in how acclimation affected the acute synthesisof several 77 kDa proteins. Thus, in Tegula, the effect of acclimation onHsp expression is (i) Hsp-specific, (ii) dependent on a protein's expressionpattern (constitutive and inducible vs only inducible), (iii)and is actually limited in the more eurythermal mid- to low-intertidal congener.These results contradict the general assumption that greaterheat tolerance correlates with an increased ability to modifyphysiological function in response to acclimation.

Key words: acclimation, heat-shock protein, molecular chaperone, phenotypic plasticity, Tegula, two-dimensional gel electrophoresis

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