Mitochondrial performance of a continually growing marine bivalve, Mytilus edulis Linnaeus, depends on the body size [RESEARCH ARTICLE]

Alexey Sukhotin, Anton Kovalev, Eugene Sokolov, and Inna M. Sokolova Allometric decline of mass-specific metabolic rate with increasing body size in organisms is a well-documented phenomenon. Despite a long history of research the mechanistic causes of metabolic scaling with body size remain under debate. Some hypotheses suggest that intrinsic factors such as allometry of cellular and mitochondrial metabolism may contribute to the organismal-level metabolic scaling. The aim of our present study was to determine the metabolic allometry at the mitochondrial level using a continually growing marine ectotherm, the mussel Mytilus edulis, as a model. Mussels from a single cohort that considerably differed in body size were selected, implying faster growth in the larger specimens. We determined the body-mass-dependent scaling of the mitochondrial proton leak respiration, respiration in the presence of ADP indicative of the oxidative phosphorylation (OXPHOS), maximum activities of the mitochondrial electron transport system (ETS) and the cytochrome c oxidase (COX). Respiration was measured at normal (15°C), and elevated (27°C) temperatures. The results demonstrated a pronounced allometric increase in both proton leak respiration and OXPHOS activity of mitochondria of the mussels. Mussels with faster growth (larger body size) showed an increase in OXPHOS rate, proton leak respiration rate, ETS and COX activities (indicating an overall improved mitochondrial performance) and hi...
Source: Journal of Experimental Biology - Category: Biology Authors: Tags: RESEARCH ARTICLE Source Type: research
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