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1997
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| author | Boadas, M.A. Nusetti, O. Mundarain, F. Lodeiros, C. Guderley, H.E. |
| author_facet | Boadas, M.A. Nusetti, O. Mundarain, F. Lodeiros, C. Guderley, H.E. |
| contents | <p><strong>Abstract</strong></p> <p>In scallops, gametogenesis leads to consider-<br>able transfer of energetic reserves from the adductor<br>muscle to the gonads. During an annual cycle, the<br>scallops are exposed to changes in temperature and food<br>availability. As these changes may a€ect muscle meta-<br>bolic capacities, we examined whether the properties of<br>the mitochondria in the phasic adductor muscle were<br>modiÆed during the annual cycle of the scallop Euvola<br>(Pecten) ziczac (L. 1758). During our study, temperature<br>and chlorophyll a levels generally showed an inverse<br>relationship: high temperatures and low chlorophyll a<br>levels occurred from mid-April to early June. Lower<br>temperatures and higher chlorophyll a levels were found<br>from January to late March and from mid-June to mid-<br>September. Throughout the annual cycle, the substrate<br>preferences and the pH sensitivity of the isolated muscle<br>mitochondria changed little, whereas the maximal oxi-<br>dative capacities and respiratory control ratios (RCR)<br>varied considerably. Consistently, the maximal capaci-<br>ties for substrate oxidation were 30 to 80% lower in<br>mitochondria isolated in May than at other times in the<br>year. The RCR values of mitochondrial oxidation of<br>glutamate, glutamine and succinate varied throughout<br>the year with lower values characterizing the mito-<br>chondria from scallops harvested in May and in certain<br>cases in August. In May, adductor muscles had lower<br>protein levels than at other times. These data suggest<br>that the requirements of gametogenesis, coupled with the<br>high temperatures and low food availability occurring<br>during April and May, led to a mobilization of muscle<br>proteins which concomitantly decreased the oxidative<br>capacity of isolated mitochondria.</p> <p><strong>References</strong><br>Ballantyne JS, Storey KB (1983) Mitochondria from the ventricle<br>of the marine clam, Mercenaria mercenaria: substrate prefer-<br>ences and e€ects of pH and salt concentration on proline oxi-<br>dation. Comp Biochem Physiol 76B: 133±138</p> <p>Ballantyne JS, Storey KB (1984) Mitochondria from the hepato-<br>pancreas of the marine clam Mercenaria mercenaria: substrate<br>preferences and salt and pH e€ects on the oxidation of palmi-<br>toyl-L -carnitine and succinate. J exp Zool 230: 165±174<br>Ballantyne JS, Moon TW (1985) Hepatopancreas mitochondria<br>from Mytilus edulis: substrate preferences and e€ects of pH and<br>osmolarity. Mar Biol 87: 239±244<br>Ballantyne JS, Moyes CD (1987) The e€ects of salinity acclimation<br>on the osmotic properties of mitochondria from the gill of<br>Crassostrea virginica. J exp Biol 233: 449±456<br>Barber B, Blake N (1981) Energy storage and utilization in relation<br>to gametogenesis in Argopecten irradians concentricus (Gay).<br>J exp mar Biol Ecol 52: 121±134<br>Blier PU, Guderley HE (1993) E€ects of temperature and pH on<br>the kinetics of pyruvate oxidation by muscle mitochondria from<br>rainbow trout (Oncorhynchus mykiss). Physiol Zool 66: 474±489<br>Brea J (1986) Variaciones energe¬ ticas estacionales en la comp-<br>osicio¬n quı¬mica de Pecten ziczac (Linne 1758) en relacio¬n con el<br>metabolismo energe¬ tico, reproductivo y crecimiento. Thesis,<br>Biology Dept, Universidad de Oriente, Cumana¬ , Venezuela<br>Burcham JM, Ritchie A, Bishop SH (1984) Preparation and some<br>respiratory properties of coupled mitochondria from ribbed<br>mussel (Modiolus demissus) gill tissue. J exp Zool 229: 55±67<br>Chih PC, Ellington WS (1983) Energy metabolism during con-<br>tractile activity and environmental hypoxia in the phasic ad-<br>ductor muscle of the bay scallop Argopecten irradians<br>concentricus. Physiol Zool 56: 623±631<br>Chih PC, Ellington WS (1986) Control of glycolysis during con-<br>tractile activity in the phasic adductor muscle of the bay scallop,<br>Argopecten irradians concentricus: identiÆcation of potential<br>sites of regulation and a consideration of the control of oct-<br>opine dehydrogenase activity. Physiol Zool 59: 563±573<br>Couturier CY, Newkirk GF (1991) Biochemical and gametogenetic<br>cycles in scallops, Placopecten magellanicus (Gmelin, 1791),<br>held in suspension culture. In: Shumway SE, Sandiger PA (eds)<br>An international compendium of scallop biology and culture,<br>World Aquaculture Workshops, No. 1. World Aquaculture<br>Society, Baton Rouge, Louisiana, pp 107±117<br>de Zwaan A, Thompson RJ, Livingstone DR (1980) Physiological<br>and biochemical aspects of the valve snap and valve closure<br>responses in the giant scallop Placopecten magellanicus. II.<br>Biochemistry. J comp Physiol 137: 105±114<br>Epp J, Bricelj V, Malouf R (1988) Seasonal partitioning and uti-<br>lization of energy reserves in two age classes of the bay scallop<br>Argopecten irradians irradians. J exp mar Biol Ecol 121: 113±<br>136<br>Espinal J, Beggs M, Patel H, Randle PJ (1986) E€ects of low-<br>protein diet and starvation on the activity of branched-chain 2-<br>oxo-acid dehydrogenase kinase in rat liver and heart. Biochem J<br>237: 285±288<br>Estabrook RW (1967) Mitochondrial respiratory control and the<br>polarographic measurement of ADP:O ratios. Meth Enzym 10:<br>41±47<br>Ferraz-Reyes E (1987) Productividad primaria del Golfo de Car-<br>iaco, Venezuela. Boln Inst oceanogr Univ Oriente (Cumana¬,<br>Venezuela) 26: 97±110<br>Graham M (1987) The solubility of oxygen in physiological salines.<br>Fish Physiol Biochem 4: 1±4<br>Guderley HE, Rojas FM, Nusetti OA (1995) Metabolic special-<br>ization of mitochondria from scallop phasic muscles. Mar Biol<br>122: 409±416<br>Harris RA, Popov KM, Zhao Y, Kedishvili NY, Shimomura Y,<br>Crabb DW (1995) A new family of protein kinases ± the mi-<br>tochondrial protein kinases. Adv Enzyme Regul 35: 147±162<br>Johnston IA, Guderley HE, Franklin CE, Crockford T, Kamunde<br>C (1994) Are mitochondria subject to evolutionary temperature<br>adaptation? J exp Biol 195: 293±306<br>Livingstone DR, de Zwaan A, Thompson RJ (1981) Aerobic me-<br>tabolism, octopine production and phosphoarginine as sources<br>of energy in the phasic and catch adductor muscles of the giant<br>scallop Plactopecten magellanicus during swimming and the<br>subsequent recovery period. Comp Biochem Physiol 70B: 35±44<br>Lodeiros CJ, Himmelman JH (1994) Relations among environ-<br>mental conditions and growth in the tropical scallop Euvola<br>(Pecten) ziczac (L.) in suspended culture in the Golfo de Car-<br>iaco, Venezuela. Aquaculture, Amsterdam 119: 345±358<br>Lowry H, Rosebrough N, Farr A, Randall R (1951) Protein<br>measurement with the Folin phenol reagent. J biol Chem 193:<br>265±275<br>Martinez G (1991) Seasonal variation in biochemical composition<br>of three size classes of the Chilean scallop, Argopecten purpur-<br>atus Lamarck 1819. Veliger 34: 335±343<br>Moigis AG (1986) Variacio¬n anual de la productividad primaria<br>del Ætoplancton en el Golfo y en la Fosa de Cariaco, Venezuela.<br>Boln Inst oceanogr Univ Oriente (Cumana¬, Venezuela) 25: 115±<br>126<br>Okuda T, Benitez-Albarez J, Bonilla J, Cedenƒ o G (1978) Cara-<br>cterı¬sticas hidrogra¬Æcas del Golfo de Cariaco, Venezuela. Boln<br>Inst oceanogr Univ Oriente (Cumana¬ , Venezuela) 25: 115±126<br>Robytt J, White B (1987) Biochemical techniques: theory and<br>practice. Waveland Press Inc., Prospect Heights, Illinois<br>Roe J, Dailey D (1966) Determination of glycogen with the an-<br>throne reagent. Analyt Biochem 15: 245±250<br>Shafee MS (1981) Seasonal changes in the biochemical composition<br>and caloriÆc content of the black scalop Chlamys varia (L.)<br>from Lanveoc, Bay of Brest. Oceanol Acta 4: 331±341<br>Strickland JDH, Parsons TR (1972) A practical handbook of sea-<br>water analysis. Bull Fish Res Bd Can 27: 606±609<br>Thompson RJ, Livingstone DR, de Zwaan A (1980) Physiological<br>and biochemical aspects of the valve snap and valve closure<br>responses in the giant scallop Placopecten magellanicus. I.<br>Physiology. J comp Physiol 137: 97±104<br>Ve¬ lez A, Freites L, Himmelman JH, Senior W, Marı¬n N (1995)<br>Growth of the tropical scallop Euvola (Pecten) ziczac, in bottom<br>and suspended culture in the Golfo de Cariaco, Venezuela.<br>Aquaculture, Amsterdam 136: 257±276<br>Ve¬ lez A, Sotilio F, Pe¬ rez J (1987) Variacio¬ n estacio¬nal de la<br>composicio¬ n quı¬mica de los pectı¬nidos Pecten ziczac y<br>Lyropecten nodusus. Boln Inst oceanogr Univ Oriente (Cumana¬,<br>Venezuela) 26: 67±72<br>Wimmer L, Lomb R, Tate G (1970) Glycogen changes during<br>metamorphosis of Phormia regina. In: Kerkut G (ed) Experi-<br>ments in physiology and biochemistry. Vol. 3. Academic Press,<br>London, pp 395±402</p> <p> </p> <p> </p> |
| format | Recurso digital |
| id | zenodo_https___doi_org_10_1007_S002270050089 |
| institution | Zenodo |
| language | |
| publishDate | 1997 |
| publisher | Zenodo |
| record_format | zenodo |
| spellingShingle | Seasonal variation in the properties of muscle mitochondria from the tropical scallop Euvola ( Pecten) ziczac Boadas, M.A. Nusetti, O. Mundarain, F. Lodeiros, C. Guderley, H.E. 1997 Seasonal variation Euvola ( Pecten) zicza tropical scallop muscle mitochondria <p><strong>Abstract</strong></p> <p>In scallops, gametogenesis leads to consider-<br>able transfer of energetic reserves from the adductor<br>muscle to the gonads. During an annual cycle, the<br>scallops are exposed to changes in temperature and food<br>availability. As these changes may a€ect muscle meta-<br>bolic capacities, we examined whether the properties of<br>the mitochondria in the phasic adductor muscle were<br>modiÆed during the annual cycle of the scallop Euvola<br>(Pecten) ziczac (L. 1758). During our study, temperature<br>and chlorophyll a levels generally showed an inverse<br>relationship: high temperatures and low chlorophyll a<br>levels occurred from mid-April to early June. Lower<br>temperatures and higher chlorophyll a levels were found<br>from January to late March and from mid-June to mid-<br>September. Throughout the annual cycle, the substrate<br>preferences and the pH sensitivity of the isolated muscle<br>mitochondria changed little, whereas the maximal oxi-<br>dative capacities and respiratory control ratios (RCR)<br>varied considerably. Consistently, the maximal capaci-<br>ties for substrate oxidation were 30 to 80% lower in<br>mitochondria isolated in May than at other times in the<br>year. The RCR values of mitochondrial oxidation of<br>glutamate, glutamine and succinate varied throughout<br>the year with lower values characterizing the mito-<br>chondria from scallops harvested in May and in certain<br>cases in August. In May, adductor muscles had lower<br>protein levels than at other times. These data suggest<br>that the requirements of gametogenesis, coupled with the<br>high temperatures and low food availability occurring<br>during April and May, led to a mobilization of muscle<br>proteins which concomitantly decreased the oxidative<br>capacity of isolated mitochondria.</p> <p><strong>References</strong><br>Ballantyne JS, Storey KB (1983) Mitochondria from the ventricle<br>of the marine clam, Mercenaria mercenaria: substrate prefer-<br>ences and e€ects of pH and salt concentration on proline oxi-<br>dation. Comp Biochem Physiol 76B: 133±138</p> <p>Ballantyne JS, Storey KB (1984) Mitochondria from the hepato-<br>pancreas of the marine clam Mercenaria mercenaria: substrate<br>preferences and salt and pH e€ects on the oxidation of palmi-<br>toyl-L -carnitine and succinate. J exp Zool 230: 165±174<br>Ballantyne JS, Moon TW (1985) Hepatopancreas mitochondria<br>from Mytilus edulis: substrate preferences and e€ects of pH and<br>osmolarity. Mar Biol 87: 239±244<br>Ballantyne JS, Moyes CD (1987) The e€ects of salinity acclimation<br>on the osmotic properties of mitochondria from the gill of<br>Crassostrea virginica. J exp Biol 233: 449±456<br>Barber B, Blake N (1981) Energy storage and utilization in relation<br>to gametogenesis in Argopecten irradians concentricus (Gay).<br>J exp mar Biol Ecol 52: 121±134<br>Blier PU, Guderley HE (1993) E€ects of temperature and pH on<br>the kinetics of pyruvate oxidation by muscle mitochondria from<br>rainbow trout (Oncorhynchus mykiss). Physiol Zool 66: 474±489<br>Brea J (1986) Variaciones energe¬ ticas estacionales en la comp-<br>osicio¬n quı¬mica de Pecten ziczac (Linne 1758) en relacio¬n con el<br>metabolismo energe¬ tico, reproductivo y crecimiento. Thesis,<br>Biology Dept, Universidad de Oriente, Cumana¬ , Venezuela<br>Burcham JM, Ritchie A, Bishop SH (1984) Preparation and some<br>respiratory properties of coupled mitochondria from ribbed<br>mussel (Modiolus demissus) gill tissue. J exp Zool 229: 55±67<br>Chih PC, Ellington WS (1983) Energy metabolism during con-<br>tractile activity and environmental hypoxia in the phasic ad-<br>ductor muscle of the bay scallop Argopecten irradians<br>concentricus. Physiol Zool 56: 623±631<br>Chih PC, Ellington WS (1986) Control of glycolysis during con-<br>tractile activity in the phasic adductor muscle of the bay scallop,<br>Argopecten irradians concentricus: identiÆcation of potential<br>sites of regulation and a consideration of the control of oct-<br>opine dehydrogenase activity. Physiol Zool 59: 563±573<br>Couturier CY, Newkirk GF (1991) Biochemical and gametogenetic<br>cycles in scallops, Placopecten magellanicus (Gmelin, 1791),<br>held in suspension culture. In: Shumway SE, Sandiger PA (eds)<br>An international compendium of scallop biology and culture,<br>World Aquaculture Workshops, No. 1. World Aquaculture<br>Society, Baton Rouge, Louisiana, pp 107±117<br>de Zwaan A, Thompson RJ, Livingstone DR (1980) Physiological<br>and biochemical aspects of the valve snap and valve closure<br>responses in the giant scallop Placopecten magellanicus. II.<br>Biochemistry. J comp Physiol 137: 105±114<br>Epp J, Bricelj V, Malouf R (1988) Seasonal partitioning and uti-<br>lization of energy reserves in two age classes of the bay scallop<br>Argopecten irradians irradians. J exp mar Biol Ecol 121: 113±<br>136<br>Espinal J, Beggs M, Patel H, Randle PJ (1986) E€ects of low-<br>protein diet and starvation on the activity of branched-chain 2-<br>oxo-acid dehydrogenase kinase in rat liver and heart. Biochem J<br>237: 285±288<br>Estabrook RW (1967) Mitochondrial respiratory control and the<br>polarographic measurement of ADP:O ratios. Meth Enzym 10:<br>41±47<br>Ferraz-Reyes E (1987) Productividad primaria del Golfo de Car-<br>iaco, Venezuela. Boln Inst oceanogr Univ Oriente (Cumana¬,<br>Venezuela) 26: 97±110<br>Graham M (1987) The solubility of oxygen in physiological salines.<br>Fish Physiol Biochem 4: 1±4<br>Guderley HE, Rojas FM, Nusetti OA (1995) Metabolic special-<br>ization of mitochondria from scallop phasic muscles. Mar Biol<br>122: 409±416<br>Harris RA, Popov KM, Zhao Y, Kedishvili NY, Shimomura Y,<br>Crabb DW (1995) A new family of protein kinases ± the mi-<br>tochondrial protein kinases. Adv Enzyme Regul 35: 147±162<br>Johnston IA, Guderley HE, Franklin CE, Crockford T, Kamunde<br>C (1994) Are mitochondria subject to evolutionary temperature<br>adaptation? J exp Biol 195: 293±306<br>Livingstone DR, de Zwaan A, Thompson RJ (1981) Aerobic me-<br>tabolism, octopine production and phosphoarginine as sources<br>of energy in the phasic and catch adductor muscles of the giant<br>scallop Plactopecten magellanicus during swimming and the<br>subsequent recovery period. Comp Biochem Physiol 70B: 35±44<br>Lodeiros CJ, Himmelman JH (1994) Relations among environ-<br>mental conditions and growth in the tropical scallop Euvola<br>(Pecten) ziczac (L.) in suspended culture in the Golfo de Car-<br>iaco, Venezuela. Aquaculture, Amsterdam 119: 345±358<br>Lowry H, Rosebrough N, Farr A, Randall R (1951) Protein<br>measurement with the Folin phenol reagent. J biol Chem 193:<br>265±275<br>Martinez G (1991) Seasonal variation in biochemical composition<br>of three size classes of the Chilean scallop, Argopecten purpur-<br>atus Lamarck 1819. Veliger 34: 335±343<br>Moigis AG (1986) Variacio¬n anual de la productividad primaria<br>del Ætoplancton en el Golfo y en la Fosa de Cariaco, Venezuela.<br>Boln Inst oceanogr Univ Oriente (Cumana¬, Venezuela) 25: 115±<br>126<br>Okuda T, Benitez-Albarez J, Bonilla J, Cedenƒ o G (1978) Cara-<br>cterı¬sticas hidrogra¬Æcas del Golfo de Cariaco, Venezuela. Boln<br>Inst oceanogr Univ Oriente (Cumana¬ , Venezuela) 25: 115±126<br>Robytt J, White B (1987) Biochemical techniques: theory and<br>practice. Waveland Press Inc., Prospect Heights, Illinois<br>Roe J, Dailey D (1966) Determination of glycogen with the an-<br>throne reagent. Analyt Biochem 15: 245±250<br>Shafee MS (1981) Seasonal changes in the biochemical composition<br>and caloriÆc content of the black scalop Chlamys varia (L.)<br>from Lanveoc, Bay of Brest. Oceanol Acta 4: 331±341<br>Strickland JDH, Parsons TR (1972) A practical handbook of sea-<br>water analysis. Bull Fish Res Bd Can 27: 606±609<br>Thompson RJ, Livingstone DR, de Zwaan A (1980) Physiological<br>and biochemical aspects of the valve snap and valve closure<br>responses in the giant scallop Placopecten magellanicus. I.<br>Physiology. J comp Physiol 137: 97±104<br>Ve¬ lez A, Freites L, Himmelman JH, Senior W, Marı¬n N (1995)<br>Growth of the tropical scallop Euvola (Pecten) ziczac, in bottom<br>and suspended culture in the Golfo de Cariaco, Venezuela.<br>Aquaculture, Amsterdam 136: 257±276<br>Ve¬ lez A, Sotilio F, Pe¬ rez J (1987) Variacio¬ n estacio¬nal de la<br>composicio¬ n quı¬mica de los pectı¬nidos Pecten ziczac y<br>Lyropecten nodusus. Boln Inst oceanogr Univ Oriente (Cumana¬,<br>Venezuela) 26: 67±72<br>Wimmer L, Lomb R, Tate G (1970) Glycogen changes during<br>metamorphosis of Phormia regina. In: Kerkut G (ed) Experi-<br>ments in physiology and biochemistry. Vol. 3. Academic Press,<br>London, pp 395±402</p> <p> </p> <p> </p> |
| title | Seasonal variation in the properties of muscle mitochondria from the tropical scallop Euvola ( Pecten) ziczac |
| topic | 1997 Seasonal variation Euvola ( Pecten) zicza tropical scallop muscle mitochondria |
| url | https://doi.org/10.1007/S002270050089 |