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Physiological, cellular and biochemical thermal stress response of intertidal shrimps with different vertical distributions: Palaemon elegans and Palaemon serratus

The ability to cope with high temperature variations is a critical factor in intertidal communities. Two species of intertidal rocky shore shrimps (Palaemon sp.) with different vertical distributions were collected from the Portuguese coast in order to test if they were differentially sensitive to t...

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Published in:	Comparative biochemistry and physiology. Part A, Molecular & integrative physiology Molecular & integrative physiology, 2015-05, Vol.183, p.107-115
Main Authors:	Madeira, Diana, Mendonça, Vanessa, Dias, Marta, Roma, Joana, Costa, Pedro M., Larguinho, Miguel, Vinagre, Catarina, Diniz, Mário S.
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Language:	English
Subjects:	Animals Biomarkers - metabolism Crustacean CTMax Ecosystem Heat stress Heat-Shock Response - physiology Histopathological changes Hsp70 HSP70 Heat-Shock Proteins - metabolism Muscles - metabolism Muscles - pathology Palaemonidae - physiology Species Specificity Temperature Ubiquitin Ubiquitin - metabolism
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container_title	Comparative biochemistry and physiology. Part A, Molecular & integrative physiology
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creator	Madeira, Diana Mendonça, Vanessa Dias, Marta Roma, Joana Costa, Pedro M. Larguinho, Miguel Vinagre, Catarina Diniz, Mário S.
description	The ability to cope with high temperature variations is a critical factor in intertidal communities. Two species of intertidal rocky shore shrimps (Palaemon sp.) with different vertical distributions were collected from the Portuguese coast in order to test if they were differentially sensitive to thermal stress. Three distinct levels of biological organization (organismal, biochemical, and cellular) were surveyed. The shrimp were exposed to a constant rate of temperature increase of 1°C.h−1, starting at 20°C until reaching the CTMax (critical thermal maximum). During heat stress, two biomarkers of protein damage were quantified in the muscle via enzyme-linked immunosorbent assays: heat shock proteins HSP70 (hsp70/hsc70) and total ubiquitin. Muscle histopathological alterations caused by temperature were also evaluated. CTMax values were not significantly different between the congeners (P. elegans 33.4 ± 0.5 °C; P. serratus 33.0 ± 0.5 °C). Biomarker levels did not increase along the temperature trial, but P. elegans (higher intertidal) showed higher amounts of HSP70 and total ubiquitin than P. serratus (lower intertidal). HSP70 and total ubiquitin levels showed a positive significant correlation in both species, suggesting that their association is important in thermal tolerance. Histopathological observations of muscle tissue in P. serratus showed no gross alterations due to temperature but did show localized atrophy of muscle fibers at CTMax. In P. elegans, alterations occurred at a larger scale, showing multiple foci of atrophic muscular fascicles caused by necrotic or autolytic processes. In conclusion, Palaemon congeners displayed different responses to stress at a cellular level, with P. elegans having greater biomarker levels and histopathological alterations.
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Two species of intertidal rocky shore shrimps (Palaemon sp.) with different vertical distributions were collected from the Portuguese coast in order to test if they were differentially sensitive to thermal stress. Three distinct levels of biological organization (organismal, biochemical, and cellular) were surveyed. The shrimp were exposed to a constant rate of temperature increase of 1°C.h−1, starting at 20°C until reaching the CTMax (critical thermal maximum). During heat stress, two biomarkers of protein damage were quantified in the muscle via enzyme-linked immunosorbent assays: heat shock proteins HSP70 (hsp70/hsc70) and total ubiquitin. Muscle histopathological alterations caused by temperature were also evaluated. CTMax values were not significantly different between the congeners (P. elegans 33.4 ± 0.5 °C; P. serratus 33.0 ± 0.5 °C). Biomarker levels did not increase along the temperature trial, but P. elegans (higher intertidal) showed higher amounts of HSP70 and total ubiquitin than P. serratus (lower intertidal). HSP70 and total ubiquitin levels showed a positive significant correlation in both species, suggesting that their association is important in thermal tolerance. Histopathological observations of muscle tissue in P. serratus showed no gross alterations due to temperature but did show localized atrophy of muscle fibers at CTMax. In P. elegans, alterations occurred at a larger scale, showing multiple foci of atrophic muscular fascicles caused by necrotic or autolytic processes. 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subjects	Animals Biomarkers - metabolism Crustacean CTMax Ecosystem Heat stress Heat-Shock Response - physiology Histopathological changes Hsp70 HSP70 Heat-Shock Proteins - metabolism Muscles - metabolism Muscles - pathology Palaemonidae - physiology Species Specificity Temperature Ubiquitin Ubiquitin - metabolism
title	Physiological, cellular and biochemical thermal stress response of intertidal shrimps with different vertical distributions: Palaemon elegans and Palaemon serratus
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