Энергетические функции митохондрий растений в стрессовых условиях

Энергетические функции митохондрий растений в стрессовых условиях

Автор: Грабельных О.И.

Журнал: Журнал стресс-физиологии и биохимии @jspb

Рубрика: Review

Статья в выпуске: 1 т.1, 2005 года.

Бесплатный доступ

В обзоре рассмотрены имеющиеся на настоящее время сведения о митохондриальных системах, функционирование которых позволяет растениям поддерживать энергетический баланс в клетке в стрессовых условиях. Даны современные представления о функционировании альтернативной оксидазы, свободных жирных кислот, разобщающих белков, ротенон-нечувствительных НАД(Ф)Н дегидрогеназ, АДФ/АТФ-антипортера, митохондриальной проницаемой поры, и АТФ-чувствительного калиевого канала (К+АТФ). Обсуждаются данные о физиологической роли этих систем в растительной клетке.

Короткий адрес: https://sciup.org/14323444

IDR: 14323444

Список литературы Энергетические функции митохондрий растений в стрессовых условиях

  • Войников, В.К. (1980) Участие свободных жирных кислот в регуляции митохондриальной активности у озимой ржи при охлаждении. Физиол. и биохим. культ. растений, 12(5), 474-479.
  • Войников, В.К., Грабельных, О.И., Колесниченко, А.В., Побежимова, Т.П. (2001а) Белок холодового шока 310 кД разобщает окислительное фосфорилирование в растительных митохондриях. Физиол. растений, 48(1), 89-94.
  • Войников, В.К., Грабельных, О.И., Побежимова, Т.П., Корзун, A.M., Сумина, О.Н., Турчанинова, В.В., Колесниченко, А.В. (20016) Стрессовый разобщающий растительный белок БХШ 310 индуцирует термогенез в митохондриях пшеницы при гипотермии in vitro. ДАН, 377, 565-567.
  • Войников, В.К., Грабельных, О.И., Побежимова, Т.П., Корзун, A.M., Турчанинова, В.В., Колесниченко, А.В. (2001в) Влияние различных термогенных систем митохондрий на температуру проростков озимой пшеницы во время холодового шока. ДАН, 378, 700-702.
  • Войников, В.К., Колесниченко, А.В., Побежимова, Т.П., Варакина, Н.Н. (1998) Первая и шестая хромосомы D-генома озимой мягкой пшеницы контролируют экспрессию белка холодового шока с молекулярной массой 310 кД. Физиол. растений, 45(5), 688-692.
  • Войников, В.К., Корзун, A.M. (1984) Температура тканей побегов озимой пшеницы при холодовом шоке. Известия СО АН СССР, Сер. биол., 2, 22-25.
  • Войников, В.К., Лузова, Г.Б., Лемзяков, В.П. (1981) Действие холода на количество свободных жирных кислот и активность митохондрий у озимой ржи. Физиол. растений, 28(1), 18-26.
  • Войников, В.К., Побежимова, Т.П., Варакина, Н.Н., Жиров, Е.Г. (1987) Влияние отдельных хромосом морозоустойчивоймягкойпшеницына морозоустойчивость растений и энергетическую активность митохондрий при гипотермии. Генетика, 23(2), 287-294.
  • Грабельных, О.И., Побежимова, Т.П., Колесниченко, А.В., Сумина, О.Н., Пивоварова, Н.Ю., Войников В.К. (2003) Изучение возможности свободных жирных кислот выступать в качестве субстрата окисления в митохондриях озимой пшеницы. Вестник Харьковского Национального Аграрного Университета. Серия Биология, 5(3), 7-15.
  • Колесниченко, А.В., Боровский, Г.Б., Войников, В.К. (1997)Изменения в содержании белка 310 кД при холодовом закаливании проростков озимой пшеницы. Физиол. и биохим. культ, растений, 29(2), 383-391.
  • Колесниченко, А.В., Боровский, Г.Б., Войников, В.К., Мишарин, С.И., Антипина, А.И. (1996) Характеристика белка из озимой ржи, накапливающегося при гипотермии. Физиол. растений, 43(6), 894 -899.
  • Колесниченко, А.В., Войников, В.К., Боровский, Г.Б., Дорофеев, Н.В. (1999) Содержание стрессового белка 310 кДа в проростках озимой пшеницы при гипотермии и водном стрессе. Физиол. и биох. культ, растений, 31(2), 145-149.
  • Колесниченко, А.В., Таусон, Е.Л., Зыкова, В.В., Клименко, Е.С., Грабельных, О.И., Побежимова, Т.П. (2005) Природа лиганда, связанного с разобщающим белком БХШ 310. Физиол. растений, 529(2), 216-220.
  • Меденцев, А.Г., Аринбасарова, А.Ю., Акименко, В.К. (1999) Регуляция и физиологическая роль цианидрезистентной оксидазы у грибов и растений. Биохимия, 64(11), 1457-1472.
  • Мишарин, СИ., Антипина, А.И., Войников, В.К. (1997) Влияние холодового шока на антигенный состав озимой ржи и пшеницы. Физиол. и биох. культ, растений, 29(3), 215-219.
  • Побежимова, Т.П., Колесниченко, А.В., Войников, В.К., Варакина, Н.Н., Боровский, Г.Б. (1996) Стрессовый белок 310 кД при гипотермии влияет на энергетическуюактивностьрастительных митохондрий. Доклады РАН, 350, 715-718.
  • Скулачев, В.П. (1989) Энергетика биологических мембран. М.: Наука, 564 с.
  • Скулачев, В.П. (1994) Снижение внутриклеточной концентрации 02 как особая функция дыхательных систем клетки. Биохимия, 59(12), 910-912.
  • Шугаев, А.Г. (1991) Некоторые особенности структурной организации и окислительной активности дыхательной цепи митохондрий растений. Успехи совр. биол., 111, 178-191.
  • Affourtit, С., Albury, M.S., Crichton, P.G. and Moore A.L. (2001) Exploring the molecular nature of the alternative oxidase regulation and catalysis. FEBSLett, 510, 121-126.
  • Agius, S.C., Bykova, N.V., Igamberdiev, A.U. and Moller, I.M. (1998)The internal rotenone-insensitive NADPH dehydrogenase contributes to malate oxidation by potato tuber and pea leaf mitochondria. Physiologia Plantarum, 104, 329-336.
  • Albrecht, G. and Wiedenroth, E-M. (1994) Protection against activated oxygen following re-aeration of hypoxically pretreated wheat shoots. The response of the glutathione system. J. Exp. Bot, 45,449-455.
  • Almeida, A.M., Jarmuszkiewicz, W., Khomsi, H., Arruda, P., Vercesi, A.E. and Sluse, F.E. (1999) Cyanide-resistant, ATP-synthesis-sustained, and uncoupling protein sustained respiration during postharvest ripening of tomato fruit. Plant Physiol, 119, 1323-1329.
  • Amor, Y., Chevion, M. and Levine, A. (2000) Anoxia pretreatment protects soybean cells against H202-induced cell death: possible involvement of peroxidases and of the altarnative oxidase. FEBS Lett., 411, 175-180.
  • Arpagaus, S., Rawyler, A. and Braendle, R. (2002) Occurrence and characteristics of the mitochondrial permeability transition in plants. J. Biol. Chem., 277, 1780-1787.
  • Balk, J., Leaver, C.J. and McCabe, P.F. (1999) Translocation of cytochrome с from the mitochondria to the cytosol occurs during heat-induced programmed cell death in cucumber plants. FEBS Lett, 463, 151-154.
  • Bathgate, В., Baker, A. and Leaver, C.J. (1989) Two genes encode the adenine nucleotide tranclocator of maize mitochondria. Isolation, characterization and expression of the structural genes. Eur. J. Biochem., 183, 303-310.
  • Bernardi, P., Basso, E., Colonna, R., Costantini, P., Lisa, F.D., Eriksson, O., Fontaine, E., Forte, M., Ichas, F., Massari, S., Nicolli, A., Petronilli, V. and Scorrano, L. (1998) Perspectives on the mitochondrial permeability transition. Biochim. Biophys. Acta, 1365, 200-206.
  • Bernardi, P., Broekemeier, K.M. and Pfeiffer, D.R.J. (1994) Recent progress on regulation of the mitochondrial РТР; а cyclosporinsensitive pore in the inner mitochondrial membrane. Bioenerg. Biomembr., 26, 509-517.
  • Biemelt, S., Keeman, U. and Albrecht, G. (1998) Re-aeration foolowing hypoxia leads to activation of the antioxidantive defence system in roots of wheat seedlings. Plant Physiol., 116,651-658.
  • Blumenthal, A., Kahn, K., Beja O., Galun, E., Colombini, M. and Breiman, A. (1993) Purification and characterization of the voltage-dependent anion-selectine channel protein from wheat mitochondrial membrane. Plant Physiol, 101, 579-587.
  • Borecky, J., Maia, I.G., Costa, D.T., Jezek, P., Chaimovich, H., de Andrade, P.B.M., Vercesi, A.E. and Arruda, P. (2001) Functional reconstruction of Arabidopsis thaliana plant uncoupling mitochondrial protein (^fPUMPl) expressed in Escherichia coli. FEBS Lett., 505,240-244.
  • Bouillaud, F., Coulpan, E., Pecqueur, С. and Ricquier D. (2001) Homologues of the uncoupling protein from brown adipose tissue (UCP1): UCP2, UCP3, BMCP1 and UCP4. Biochim. Biophys. Acta, 1504, 107-119.
  • Breidenbach, R.W., Saxton, M.J., Hansen, L.D. and diddle, R.S. (1997) Heat generation and dissipation in plants: can the alternative oxidative phosphorylation pathway serve a thermoregulatory role in plant tissues other than specialized organs? Plant Physiol, 114, 1137-1140.
  • Calegario, F.F., Cosso, R.G., Fagian, M.M., Almeida, F.V., Jardim, W.F., Jezek, P., Arruda, P. and Vercesi, A.E. (2003) Stimulation of potato tuber respiration by cold stress is associated with an increased capacity of both plant uncoupling mitochondrial protein (PUMP) and alternative oxidase. J. Bioenerg. Biomembr. 35,211-220.
  • Casolo, V., Braidot, E., Chiandussi, E., Vianello, A. and Macri, F. (2003) K+ATP channel opening prevents succinate-dependent H202 generation by plant mitochondria. Physiol. Plantarum, 118, 313-318.
  • Considine, M.J., Daley, D.O. and Whelan, J. (2001) The expression of alternative oxidase and uncoupling protein during fruit ripening in mango. Plant Physiol, 126, 1619-1629.
  • Considine, M.J., Goodman, M., Echtay, K.S., Laloi, M., Whelan, J., Brand, M.D. and Sweetlove, L.J. (2003) Superoxide stimulates a proton leak in potato mitochondria that is related to the activity of uncoupling protein. J. Biol. Chem., 278, 22298-22302.
  • Considini, M.J., Holtzapffel, R.C., Day, D.A., Whelan, J. and Millar, A.H. (2002) Molecular distinction between alternative oxidase from monocots and dicots. Plant Physiol, 129, 949-953.
  • Costa, A.D.T., Nantes, I.L., Jezek, P., Leite, A., Arrada, P. and Vercesi, A.E. (1999) Plant uncoupling mitochondrial protein activity in mitochondria isolated from tomatoes at different stages of ripening. J. Bioenerg. Biomembr., 31, 527-533.
  • Crompton, M. (1999) The mitochondrial permeability transition pore and its role in cell death. Biochem. J., 341, 233-249.
  • Curtis, M.J. and Wolpert, T.J. (2002) The oat mitochondrial permeability transition and its implication in victorin binding and induced cell death. Plant J., 29, 295-312.
  • Dalgaard, L.T. and Pedersen, O. (2001) Uncoupling proteins: functional characteristics and role in the pathogenesis of obesity and type II diabetes. Diabetologia, 44, 946-965.
  • Day, D.A., Millar, A.H., Wiskich, J.T. and Whelan, J. (1994) Regulation of alternative oxidase activity by pyruvate in soybean mitochondria. Plant Physiol., 106, 1421-1426.
  • De Santis, A., Landi, P. and Genchi, G. (1999) Changes of mitochondrial properties in maize seedlings associated with selection for germination at low temperature. Fatty acid composition, cytochrome с oxidase, and adenine nucleotide translocase activities. Plant Physiol., 119, 743-754.
  • Dempsey, D.A., Shah, J. and Klessing, D.F. (1999) Salicylic acid and disease resistance in plants. Cri. Rev. Plant Sci., 18, 547-575.
  • Diehl, A.M. and Hoek, J.B. (1999) Mitochondrial uncoupling: role of uncoupling protein anion carriers and relationship to thermogenesis and weight control "The benefits of losing control". J. Bioenerg. Biomembr., 31, 493-506.
  • Dulloo, A.G., Samec, S. and Seydoux, J. (2001) Uncoupling protein 3 and fatty acid metabolism. Biochem. Soc. Transact., 29, 785-790.
  • Elthon, Т.Е., Nickels, R.L. and Mclntoch, L. (1989) Monoclonal antibodies to the alternative oxidase of higher plant mitochondria. Plant Physiol.,89, 1311-1317.
  • Emmermann, M., Braun, H.P. and Schmitz, U.K. (1991) The ADP/ATP translocator from potato has a long amino-terminal extension. Curr. Cenet, 20,405-410.
  • Fleury, Ch., Neverova, M., Collins, S., Raimbault, S., Champigny, O., Levi-Meyrueis, C, Bouillaud, F., Seldin, M.F., Surwit, R.S., Ricquier, D. and Warden, CH. (1997) Uncoupling protein-2: a novel gene linked to obesity and hyperinsulinemia. Nat. Genet, 15,269-272.
  • Fontaine, E., Eriksson, O., Ichas, F. and Bernardi, P. (1998) Regulation of the permeability transition pore in skeletal muscle mitochondria. Modulation by electron flow through the respiratory chain complex I. J. Biol. Chem., 273, 12662-12668.
  • Fortes, F., Castilho, R.F., Catisti, R., Carnieri, E.G.S. and Vercesi, A.E. (2001) Ca2+ induces a cyclosporin A-insensitive permeability transition pore in isolated potato tuber mitochondria mediated by reactive oxygen species. J. Bioenerg. Biomembr, 33, 43-51.
  • Fratiarmi, A., Pastore, D., Pallotta, M.L., Chiatante, D. and Passarella, S. (2001) Increase of membrane permeability of mitochondria isolated from water stress adapted potato cells. Biosci. Rep., 21, 81-91.
  • Garlid, K.D., Jaburek, M. and Jezek, P. (1998) The mechanism of proton transport mediated by mitochondrial uncoupling proteins. FEBSLett, 438, 10-14.
  • Garlid, K.D., Jaburek, M. and Jezek, P. (2001) Mechanism of uncoupling protein action. Biochem. Society Transact., 29, 803-805.
  • Gaston, S., Ribas-Carbo, M., Busquets, S.M., Berry, J.A., Zabalza, A. and Royuela, M. (2003) Changes in mitochondrial electron partitioning in response to herbicides inhibiting branched-chain amino acid biosynthesis in soybean. Plant Physiol., 133,1351-1359.
  • Geisler, D.A., Jonansson, F.I., Svensson, A.S. and Rasmusson, A.G. (2004) Antimycin A treatment decreases respiratory internal rotenone-insensitive NADH oxidation capacity in potato leaves. BMC Plant Biol, 4, 8.
  • Gimeno, R.E., Dembski, M., Weng, X., Deng, N., Shyjan, A.W., Gimeno, C.J., Iris, F., Ellis, S.J., Woolf, E.A. and Tartaglia, L.A. (1997) Cloning and characterization of an uncoupling protein homolog. Diabetes, 46, 900-906.
  • Gonzalez-Meier, M.A., Ribas-Carbo, M., Giles, L. and Siedow, J.N. (1999) The effect of growth and measurement temperature on the activity of the alternative respiratory pathway. Plant Physiol., 120, 765-772.
  • Grabelnych, O.I., Kolesnichenko, A.V., Pobezhimova, T.P., Tourchaninova, V.V., Korzun, A.M., Koroleva, N.A., Zykova, V.V. and Voinikov, V.K. (2003) The role of different plant seedling shoots mitochondrial uncoupling systems in thermogenesis during low-temperature stress. J. Therm. Biol., 28, 571-580.
  • Grabelnych, O., Pobezhimova, Т., Kolesnichenko, A. and Voinikov, V. (2001a) Complex I of winter wheat mitochondria respiratory chain is the most sensitive to uncoupling action of plant stress-related uncoupling protein CSP 310. J. Therm. Biol. 26,47-53.
  • Grabelnych, O.I., Pobezhimova, T.P., Kolesnichenko, A.V. and Voinikov, V.K. (2001b) Stress protein CSP 310 cause oxidation and phosphorylation uncoupling during low-temperature stress only in cereal but not in dycotyledone mitochondria. J. Immunoassay Immunochem., 22, 275-287.
  • Grabelnych, O.I., Sumina, O.N., Funderat, S.P., Pobezhimova, T.P., Voinikov, V.K. and Kolesnichenko, A.V. (2004) The distribution of electron transport between the main cytochrome and alternative pathways in plant mitochondria during short-term cold stress and cold hardening. J. Thermal Biol, 29, 165-175.
  • Hanak, P. and Jezek, P. (2001) Mitochondrial uncoupling proteins and phylogenesis -UCP4 as the ancestral uncoupling protein. FEBSLett, 495, 137-141.
  • Hashimoto, H., Nishi, R., Umeda, M., Ichimiya, H. and Kato, A. (1993) Isolation and characterization of a rice cDNA clone encoding ATP-ADP translocator. Plant. Mol. Biol., 22, 163-164.
  • Havel, L. and Durzan, D.J. (1996) Apoptosis in plants. Bot. Acta, 109, 268-277.
  • He, L. and Lemasters, J.J. (2002) Regulated and unregulated mitochondrial permeability transition pores: a new paradigm of pore structure and function? FEBS Lett., 512, 1-7.
  • Hirsch, Т., Susin, S.A., Marzo, I., Marchetti, P., Zamzami, N. and Kroemer, G. (1998) Mitochondrial permeability transition in apoptosis and necrosis. Cell Biol. Toxicology, 14, 141-145.
  • Huq, S. and Palmer, J.M. (1978) Isolation of a cyanide-resistant duroquinol oxidase from Arum maculatum mitochondria. FEBSLett, 95, 217-220.
  • Ito, K. (1999) Isolation of two distinct cold-inducible cDNAs encoding plant uncoupling proteins from the spadix of skunk cabbage (Symplocarpus foetidus). Plant Sci., 149, 167-173.
  • Jarmuszkiewicz, W., Milani, G., Fortes, F., Schreiber, A.Z., Sluse, F.E. and Vercesi, A.E. (2000) First evidence and characterization of an uncoupling protein in fungi kingdom: CpUCP of Candidaparapsilosis. FEBSLett, 467, 145-149.
  • Jarmuszkiewicz, W., Miyasaka, A.A., Sluse-Goffart, СМ., Sluse, F.E. and Vercesi, A.E. (1998) Linoleic acid-induced activity of plant uncoupling mitochondrial protein in purified tomato fruit mitochondria during resting, phosphorylating, and progressively uncoupled respiration. J. Biol. Chem, 273, 34882-34886.
  • Jarmuszkiewicz, W., Sluse-Goffart, С.М., Hryniewiecka, L. and Sluse, F.E. (1999) Identification and characterisation of a protozoan uncoupling protein in Acanthamoeba castellanii. J. Biol. Chem., 274, 23198-23202.
  • Jezek, P. (1999) Fatty acid interaction with mitochondrial uncoupling proteins. J. Bioenerg. Biomembr., 31, 457-465.
  • Jezek, P. (2002) Possible physiological roles of mitochondrial uncoupling proteins -UCPw. Int. J. Biochem. Cell Biol., 34, 1190-1206.
  • Jezek, P. and Garlid, K.D. (1998) Mammalian mitochondrial uncoupling proteins. Int. J. Biochem. Cell Biology, 30, 1163-1168.
  • Jezek, P., Borecky, J., Zackova, M., Costa, A.D. and Arruda, P. (2001) Possible basic and specific functions of plant uncoupling proteins (pUCP). Biosci. Rep., 21. 237-245.
  • Jezek, P., Costa, A.D.T. and Vercesi, A.E. (1997) Reconstituted plant uncoupling mitochondrial protein allows for proton translocation via fatty acid cycling mechanism. J. Biol. Chem., 272. 24272-24278.
  • Jezek, P., Engstova H., Zackova M., Vercesi A.E., Costa A.D.T., Arruda P. and Garlid K.D. (1998) Fatty acid cycling mechanism and mitochondrial uncoupling proteins. Biochim. Biophys. Acta, 1365, 319-327.
  • Jezek, P., Zackova, M., Kosarova, J., Rodrigues, E.T.S., Madeira, V.C.M. and Vicente, J.A.F. (2000) Occurrence of plant-uncoupling mitochondrial protein (PUMP) in diverse organs and tissues of several plants. J. Bioenerg. Biomembr., 32, 549-561.
  • Jung, D.W. and Hanson, J.B. (1973) Atractyloside inhibition of adenine nucleotide transport in mitochondria from plants. Biochim. Biophys. Acta, 325, 189-192.
  • Klingerberg, M. (1990) Mechanism and evolution of the uncoupling protein of brown adipose tissue. Trends Biochem. Sci, 15, 108-112.
  • Klingenberg, M. (1999) Uncoupling protein -a useful energy dissipator. J. Bioenerg. Biomembr, 31, 419-430.
  • Klingenberg, M. and Huang, S.G. (1999) Structure and function of the uncoupling protein from brown adipose tissue. Biochim. Biophys. Acta, 1415, 271-296.
  • Knight, H., Trewavas, A.J. and Knight, M.R. (1996) Cold calcium signaling in Arabidopsis involves two cellular pools and a change in calcium signature after acclimation. Plant Cell, 8, 489-503.
  • Knutson, R.M. (1974) Heat production and temperature regulation in eastern skunk cabbage. Science, 186, 746-747.
  • Kolesnichenko, A., Grabelnych, O., Pobezhimova, T. and Voinikov, V. (2000a) The association of plant stress uncoupling protein CSP 310 with winter wheat mitochondria in vitro during exposure to low temperature. J. Plant Physiol. 156, 805-807.
  • Kolesnichenko, A.V., Grabelnych, O.I., Pobezhimova, T.P. and Voinikov, V.K. (2005) Non-phosphorylating bypass of the plant mitochondrial respiratory chain by stress protein CSP310. Planta, 221, 113-122.
  • Kolesnichenko, A.V., Grabelnych, O.I., Sumina, O.N., Pobezhimova, T.P. and Voinikov, V.K. (2001a) An influence of antiserum against winter wheat stress uncoupling protein CSP 310 on energetic activity of some plant species mitochondria. J. Immunoassay Immunochem., 22, 75-83.
  • Kolesnichenko, A.V., Grabelnych, O.I., Tourchaninova, V.V., Zykova, V.V., Koroleva, N.A., Pobezhimova, T.P. and Voinikov, V.K. (2001c) An influence of stress protein CSP 310 and antiserum against this protein on lipid peroxidation in cereal mitochondria. J. Immunoassay Immunochem., 22, 113-126.
  • Kolesnichenko, A., Grabelnych, O., Zykova, V., Koroleva, N., Pobezhimova, Т., Konstantinov, Yu. and Voinikov, V. (2001b) Influence of CSP 310 and CSP 310-like proteins from cereals on mitochondrial energetic activity and lipid peroxidation in vitro and in vivo. BMC Plant Biology, 1, 1-6.
  • Kolesnichenko, A., Ostroumova, E., Zykova, V. and Voinikov V. (1999) The comparison of proteins with immunochemical affinity to stress protein 310 kD in cytoplasmatic proteins of winter rye, winter wheat, Elymus and maize. J. Therm. Biol., 24, 211-215.
  • Kolesnichenko, A.V., Pobezhimova, T.P., Grabelnych, O.I., Tourchaninova, V.V., Korzun, A.M., Koroleva, N.A., Zykova, V.V. and Voinikov, V.K. (2003) Difference between the temperature of non-hardened and hardened winter wheat seedling shoots during cold stress. J. Thermal Biol, 28, 235-244.
  • Kolesnichenko A.V., Pobezhimova T.P., Grabelnych, O.I. and Voinikov, V.K. (2002) Stress-induced protein CSP 310: a third uncoupling system in plants. Planta, 215,279-286.
  • Kolesnichenko, A.V., Zykova, V.V. and Voinikov V.K. (2000b) A comparison of the immunochemical affinity of cytoplasmic, mitochondrial and nuclear proteins of winter rye (Secale cereale L.)toa310kD stress protein in control plants and during exposure to cold stress. J. Therm. Biol., 25, 203-209.
  • Kolesnichenko, A.V., Zykova, V.V. and Voinikov, V.K. (2001d) Regulation of plant uncoupling protein CSP 310 activity in winter wheat seedlings shoots during cold stress. Annual Wheat Newslett., 47, 156-158.
  • Kolesnichenko, A.V., Zykova, V.V., Grabelnych, O.I., Sumina, O.N., Pobezhimova, T.P. and Voinikov, V.K. (2000c) Screening of mitochondrial proteins in winter rye, winter wheat, elymus and maize with immunochemical affinity to the stress protein 310 kD and their intramitochondrial localization in winter wheat. J. Therm. Biol., 25, 245-249.
  • Korshunov, S.S., Korkina, O.V., Ruuge, E.K., Skulachev, V.P. and Starkov, AA. (1999) Fatty acids as natural uncouplers preventing generation of 0"2 and H202 by mitochondria in the resting state. FEBS Lett., 435, 215-218.
  • Korshunov, S.S., Skulachev, V.P. and Starkov, A.A. (1997) High protonic potencial actuates a mechanism of production of reactive oxygen species in mitochondria. FEBS Lett, 416, 15-18.
  • Kowaltowski, A.J., Costa, A.D.T. and Vercesi, A.E. (1999) Activation of the potato plant uncoupling mitochondrial protein inhibits reactive oxygen species generation by the respiratory chain. FEBS Lett., 425, 213-216.
  • Kumar, S., Patil, B.C. and Sinha, S.K. (1990) Cyanide resistant respiration is involved in temperature rise in ripening mangoes. Biochem. Biophys. Res. Commun., 168, 818-822.
  • Lacobazzi, V., Poli, A., Blanco, A. and Palmieri, F. (1996) Nucleotide sequence of two genes (accession ns X95863 for ANT-G1 and X95864 for ANT-G2) encoding the adenine nucleotide tranclocator of wheat (Triticum turgidum) mitochondria. Plant Physiol., 11, 1436.
  • Lacomme, Ch. and Roby, D. (1999) Identification of new early markers of the hypersensitive response in Arabidopsis thaliana. FEBS Lett., 459, 149-153.
  • Laloi, M. (1999) Plant mitochondrial carriers: an overview. Cell. Mol. Life Sci, 56, 918-944.
  • Laloi, M., Klein, M., Riesmeier, J.W., Muller-Rober, В., Fleury, C., Bouilland, F. and Ricguier, D. (1997) A plant cold-induced uncoupling protein. Nature, 389, 135-136.
  • Leach, G.R., Krab, K., Whitehouse, D.G. and Moore, A.L. (1996) Kinetic analysis of the mitochondrial quinol-oxidizing enzymes during development of thermogenesis in Arum maculatum L. Biochem. J., 317, 313-319.
  • Lennon, A.M., Neueschwander, U.H., Ribas-Carbo, M., Giles, L., Ryals, JA. and Siedow, J.N. (1997) The effects of salicylic acid and tmv infection upon the alternative oxidase of tobacco. Plant Physiol., 115, 783-791.
  • Maia, I.G., Benedetti, C.E., Leite, A., Turcinelli, S.R., Vercesi, A.E. and Arruda, P. (1998) AtPUMP: an Arabidopsis gene encoding a uncoupling mitochondrial protein. FEBS Lett., 429, 403-406.
  • Maxwell, D.P., Nickels, R. and Mcintosh, L. (2002) Evidence of mitochondrial involvement in the transduction of signals required for the induction of genes associated with pathogen attack and senescence. Plant J., 29,269-279.
  • Maxwell, D.P., Wang, Y. and Mcintosh, L. (1999) The alternative oxidase lowers mitochondrial reactive oxygen production in plant cells. Proc. Natl. Acad. Sci. USA, 96, 8271-8276.
  • McCaig, T.N. and Hill, R. (1977) Cyanide-insensitive respiration in wheat: cultivar differences and effects of temperature, carbon dioxide and oxygen. Can. J. Bot., 55, 549-555.
  • Mcintosh, L. (1994) Molecular biology of the alternative oxidase. Plant Physiol, 105, 781-786.
  • Mcintosh, L., Eichler, Т., Gray, G., Maxwell, D., Nickels, R. and Wang, Y. (1998) Biochemical and genetic controls exerted by plant mitochondria. Biochim. Biophys. Acta, 1365, 278-284.
  • Meeuse, B.J.D. (1975) Thermogenic respiration in aroids. Annu. Rev. Plant Physiol, 26, 117-126.
  • Menz, R.I. and Day, D.A. (1996) Purification and characterization of a 43-kDa rotenone-insensitive NADH dehydrogenase from plant mitochondria. J. Biol. Chem., 271,23117-23120.
  • Michalecka, A.M., Agius, S.C., Moller, I.M. and Rasmusson, A.G. (2004) Identification of a mitochondrial external NADPH dehydrogenase by overexpression in transgenic Nicotiana sylvestris. Plant J., 37,415-425.
  • Millar, A.H., Wiskich, J.T., Whelan, J. and Day, D.A. (1993) Organic acid activation of the alternative oxidase of plant mitochondria. FEBSLett, 329, 259-262.
  • Millenaar, F.F., Ganzalez-Meler, M.A., Fiorani, F., Welschen, R., Ribas-Carbo, M., Siedow, J.N., Wagner, A.M. and Lambers, H. (2003) Regulation of alternative oxidase activity in six wild monocotyledonous species. An in vivo study at the whole root level. Plant Physiol, 126, 376-387.
  • Miroux, M., Frossard, V., Raimbault, S., Ricquier, D. and Bouillaud, F. (1993) The topology of the brown adipose tissue mitochondrial uncoupling protein determined with antibodies against its antigenic sites revealed by a library of fusion proteins. EMBOJ., 12, 3739-3745.
  • Moller, I.M. (1997) The oxidation of cytosolic NAD(P)H by external NAD(P)H dehydrogenases in the respiratory chain of plant mitochondria. Physiol. Plantarum, 100, 85-90.
  • Moller, I.M. (2001) Plant mitochondria and oxidative stress: electron transport, NADPH turnover, and metabolism of reactive oxygen species. Annu. Rev. Plant Physiol. Plant Mol Biol, 52, 561-591.
  • Moore, A.L. and Siedow, J.N. (1991) The regulation and nature of the cyanide-resistant alternative oxidase of plant mitochondria. Biochim. Biophys. Acta, 1059, 121-140.
  • Moynihan, M.R., Ordentlich, A. and Raskin, I. (1995) Chilling-induced heat evolution in plants. Plant Physiol, 108, 995-999.
  • Murayama, S. and Handa, H. (2000) Isolation and characterization of cDNAs encoding mitochondrial uncoupling proteins in wheat: wheat UCP genes are not regulated by low temperature. Mol. Gen. Genet, 264, 112-118.
  • Murcha, M.W., Huang, T. and Whelan, J. (1999). Import of precursor proteins into mitochondria from soybean tissues during development. FEBSLett., 464, 53-59.
  • Nagy, K.A., Odell, D.K. and Seymour, R.S. (1972) Temperature regulation by the inflorescence of Philodendron. Science, 178, 1195-1197.
  • Nantes, I.L., Fagian, M.M., Catisti, R., Arruda, P., Maia, I.G. and Vercesi, A.E. (1999) Low temperature and aging-promotored expression of PUMP in potato tuber mitochondria. FEBSLett, 457, 103-106.
  • Nicholls, D.G. and Rial, E. (1999) A history of the first uncoupling protein, UCP1. J. Bioenerg. Biomembr., 31, 399-406.
  • Ordentlich, A., Linzer, R.A. and Raskin, I. (1991) Alternative respiration and heat evolution in plants. Plant Physiol, 97, 1545-1550.
  • Palou, A., Pico, C., Bonet, M.L. and Oliver, P. (1998) The uncoupling protein, thermogenin. Int. J. Biochem.and Cell Biology, 30, 7-11.
  • Parsons, H.L., Yip, J.Y.H. and Vanlerberghe, G.C. (1999) Increased respiratory restriction during phosphate-limited growth in transgenic tobacco cells lacking alternative oxidase. Plant Physiol, 121, 1309-1320.
  • Parsons, D.F., Bonner, W.D. and Verboon, J.G. (1965) Electron microscopy of isolated plant mitochondria and plastids using both thin-section and negative staining techniques. Can. J. Bot, 43, 647-655.
  • Passam, H.C. and Coleman, J.O.D. (1975) The effects of atractyloside and bongkrekic acid on Jerusalem artichoke mitochondria in relation to adenine nucleotide translocation. J. Exp. Bot, 26, 536-543.
  • Pastore, D., Fratianni, A., Di Pede, S. and Passarella, S. (2000) Effects of fatty acids, nucleotides and reactive oxygen species on durum wheat mitochondria. FEBS Lett., 470, 88-92.
  • Pastore, D., Stoppelli, M.C., Di Fonzo, N. and Passarella, S. (1999) The existence of the K+ channel in plant mitochondria. J. Biol. Chem., 274,26683-26690.
  • Petrussa, E., Casolo, V., Braidot, E., Chiandussi, E., Macri, F. and Vianello., A.. (2001) Cyclosporin A induces the opening of a potassium-selective channel in higher plant mitochondria. J. Bioenerg. Biomembr., 33, 107-117.
  • Pobezhimova, Т., Grabelnych, O., Kolesnichenko, A. and Voinikov, V. (2001) The comparison of uncoupling activity of constituently synthesized and stress-induced forms of winter rye stress uncoupling protein CSP 310. J. Therm. Biol, 26, 95-101.
  • Polidoros, A.N., Mylona, P.V., Pasentsis, K., Scandalios, J.G. and Tsaftaris, A.S. (2005) The maize alternative oxidase la (Aoxla) gene is regulated by signals related to oxidative stress. Redox. Rep., 10, 71-78.
  • Popov, V.N., Markova, O.V., Mokhova, E.N. and Skulachev, V.P. (2002) Effects of cold exposure in vivo and uncouplers and recouplers in vitro on potato tuber mitochondria. Biochim. Biophys. Acta, 1553, 232-237.
  • Popov, V.N., Simonyan, R.A., Skulachev, V.P. and Starkov, A.A. (1997) Inhibition of the alternative oxidase stimulates H202 production in plant mitochondria. FEBS Lett, 415. 87-90.
  • Price, A.H., Taylor, A., Ripley, S.J., Griffiths, A., Trewavas, A.J. and Knight, M.R. (1994) Oxidative signals in tobacco increase cytosolic calcium. Plant Cell, 6,1301-1310.
  • Psarra, A-M.G. and Sotiroudis, T.G. (1996) Subcellular distribution of phosphorylase kinase in rat brain. Association of the enzyme with mitochondria and membranes. Int. J. Biochem. Cell Biol, 28, 29-42.
  • Purvis, A.C. (1997) Role of the alternative oxidase in limiting superoxide production by plant mitochondria. Physiol. Plant, 100, 165-170.
  • Purvis, A.C. and Shewfelt, R.L. (1993) Does the alternative pathway ameliorate chilling injury in sensitive plant tissues. Physiol. Plant, 88, 712-718.
  • Raimbault, S., Dridi, S., Denjean, F., Lachuer, J., Couplan, E., Bouillaud, F., Bordas, A., Duchamp, C., Taouis, M. and Ricquier, D. (2001) An uncoupling protein homologue putatively involved in facultative muscule thermogenesis in birds. Biochem. J., 353,441-444.
  • Raskin, I., Ehmann, A., Melander, W.R. and Meeuse, B.J.D. (1987) Salicylic acid: a natural inducer of heat production in arum lilies. Science, 237, 1601-1602.
  • Raskin, I., Turner, I.M. and Melander, W.R. (1989) Regulation of heat production in the inflorescences of an Arum lily by endogenous salicylic acid. Proc. Natl. Acad. Sci. USA, 86, 2214-2218.
  • Rasmusson, A.G., Soole, K.L. and Elthon, Т.Е. (2004) Alternative NAD(P)H dehydrogenases of plant mitochondria. Annu Rev Plant Biol, 55, 23-39.
  • Raymond, P., Spiteri, A., Dieuaide, M., Gerhard, T. and Pradet, A. (1992) Peroxisomal P-oxidation of fatty acids and citrate formation by a particulate fraction from early germinating sunflower seeds. Plant Physiol. Biochem., 30, 153-162.
  • Reichert, A.S. and Neupert, W. (2002) Contact sites between the outer and inner membrane of mitochondria-role in protein transport. Biochim. Biophys. Acta, 1592, 41^19.
  • Rhoads, D.M. and Mcintosh, L. (1992) Salicylic acid regulation of respiration in higher plants: alternative oxidase expression. Plant Cell, 4, 1131-1139.
  • Rhoads, D.M. and Mcintosh, L. (1993) The salicylic acid-inducible alternative oxidase gene aoxl and genes encoding pathogenesis-related proteins share regions of sequense similarity in their promoters. PlantMol. Biol., 21, 615-624.
  • Ribas-Carbo, M., Aroca, R., Conzalez-Meler, M.A., Irigoyen, J.J. and Sanchezdiaz, M. (2000) The electron partitioning between the cytochrome and alternative respiratory pathways during chilling recovery in two cultivars of maize different in chilling sensitivity. Plant Physiol., 122, 199-204.
  • Rich, P. (1978) Quinol oxidation in Arum maculatum mitochondria and its application to the assay, solubilization and partial purification of the alternative oxidase. FEBS Lett, 96, 252-256.
  • Ricquier, D. and Bouillaud, F. (2000a) Mitochondrial uncoupling proteins: from mitochondria to the regulation of energy balance. J. Physiol, 529, 3-10.
  • Ricquier, D. and Bouillaud, F. (2000b) The uncoupling protein homologues: UCP1, UCP2, UCP3, StUCP and AtUCP. Biochem. J., 345, 161-179.
  • Roberts, Т.Н., Fredlund, K.M. and Moller, I.M. (1995) Direct evidence for the presence of two external NAD(P)H dehydrogenases coupled to the electron transport chain in plant mitochondria. FEBS Lett, 373, 307-309.
  • Robson, C.A. and Vanlerberghe, G.C. (2002) Transgenic plant cells lacking mitochondrial alternative oxidase have increased susceptibility to mitochondria-dependent and -independent pathways of programmed cell death. Plant Physiol, 129, 1908-1920.
  • Ruelland, E., Cantrel, C., Gawer, M., Kader, J.C. and Zachowski, A. (2002) Activation of phospholipases С and D is an early response to a cold exposure in Arabidopsis suspension cells. Plant Physiol., 130, 999-1007.
  • Salon, C., Raymond, P. and Pradet, A. (1988) Quantification of carbon fluxes through the tricarboxylic acid cycle in early germinating lettuce embryos. J. Biol. Chem., 263, 12278-12287.
  • Samec, S., Seydoux, J. and Dulloo, A.G. (1998) Role of UCP homologues in skeletal muscles and brown adipose tissue: mediators of thermogenesis or regulators of lipids as fuel substrate? FASEBJ., 12, 715-724.
  • Scherphor, G.L., Scarpa, A. and Toorenenbergen, A. (1972) The effect of localanesthetics on the hydrolysis of free and membrane-bound phospholipids catalysed by various phospholipases. Biochim. Biophys. Acta, 270, 226-270.
  • Schulz, H. (1991) Beta oxidation of fatty acids. Biochim. Biophys. Acta, 1081,109-120.
  • Schuster, W., Kloska, S. and Brennicke, A. (1993) An adenine nucleotide tranclocator gene from Arabidopsis thaliana. Biochim. Biophys. Acta, 1172, 205-208.
  • Seymour, R.S. and Blaylock, A.J. (1999) Switching off the heater: influence of ambient temperature on thermoregulation by eastern skunk cabbage Symplocarpus foetidus. J. Exp. Botany, 50, 1525-1532.
  • Seymour, R.S. and Schlultze-Motel, P. (1996) Thermoregulating lotus flowers. Nature, 383, 305.
  • Siedow, J.N. and Umbach A.L. (1995) Plant mitochondrial electron transfer and molecular biology. Plant Cell, 7, 821-831.
  • Siedow, J.N. and Umbach, A.L. (2000) The mitochondrial cyanide-resistant oxidase: structural conservation and regulatory diversity. Biochim. Biophys. Acta, 432-439.
  • Siedow, J.N. and Umbach, A.L. and Moore, A.L. (1995) The active site of the cyanide-resistant oxidase from plant mitochondria contains a binuclear iron center. FEBS Lett., 362, 10-14.
  • Sieger, S.M., Kristensen, B.K., Robson, C.A., Amirsadeghi, S., Eng, E.W., Abdel-Mesih, A., Moller, I.M. and Vanlerberghe, G.C. (2005) The role of alternative oxidase in modulating carbon use efficiency and growth during macronutrient stress in tobacco cells. J. Exp. Bot, 416, 1499-515.
  • Silva Lima, M. and Denslow, N.D. (1979) The effect of atractyloside and carboxyatractyloside on adenine nucleotide tranclocation in mitochondria of Vigna sinensis (L.) Savi cv. Serido. Arch. Biochem. Biophys., 193, 368-372.
  • Simons, B.H., Millenaar, F.F., Mulder, L., Van Loon, L.C. and Lambers, H. (1999) Enhanced expression and activation of the alternative oxidase during infection of Arabidopsis with Pseudomonas syringae pv tomato. Plant. Phyiol., 120, 529-538.
  • Skulachev, V.P. (1991) Fatty acid circuit as a physiological mechanism of uncoupling of oxidative phosphorylation. FEBS Lett, 294, 158-162.
  • Skulachev, V.P. (1999) Anion carriers in fatty acid-mediated physiological uncoupling. J. Bioenerg. Biomembr, 31,431-445.
  • Sluse, F.E. and Jarmuszkiewicz, W. (2000) Activity and functional interaction of alternative oxidase and uncoupling protein in mitochondria from tomato fruit. Braz. J. Med. Biol. Res., 33,259-268.
  • Sluse, F.E. and Jarmuszkiewicz, W. (2002) Uncoupling proteins outside the animal and plant kingdoms: functional and evolutionaty aspects. FEBS Lett., 510, 117-120.
  • Sluse, F.E., Almeida, A.M., Jarmuszkiewicz, W. and Vercesi, A.E. (1998) Free fatty acids regulate the uncoupling protein and alternative oxidase activities in plant mitochondria. FEBS Lett, 433, 237-240.
  • Smack, D.F. and Colombini, M. (1985) Voltage-dependent channels found in the membrane fraction of corn mitochondria. Plant Physiol, 79,1094-1097.
  • Smith, Т.А. (1985) Polyamines. Annu. Rev. Plant Physiol, 36, 117-143.
  • Stewart, C.R., Martin, B.A., Reding, L. and Cerwick, S. (1990a) Respiration and alternative oxidase in corn seedlings during germination at different temperatures. Plant Physiol, 92, 755-760.
  • Stewart, C.R., Martin, B.A., Reding, L. and Cerwick, S. (1990b) Seedling growth, mitochondrial capacity of corn genotypes differing in cold tolerance. Plant Physiol, 92, 761-766.
  • Stuart, J.A., Brindle, K.M., Harper, JA. and Brand, M.D. (1999) Mitochondrial proton leak and the uncoupling proteins. J. Bioenerg. Biomembr, 31, 517-525.
  • Stuart, J.A., Cadenas, S., Jekabsons, M.B., Roussel, D. and Brand, M.D. (2001) Mitochondrial proton leak and the uncoupling protein 1 homologues. Biochim. Biophys. Acta, 1504,144-158.
  • Svensson, A.S., Johansson, F.I., Moller, I.M. and Rassmusson, A.G. (2002) Cold stress decreases the capacity for respiratory NADH oxidation in potato leaves. FEBS Lett., 517, 79-82.
  • Szal, В., Jolivet, Y., Hazenfratz-Sauder, M.-P., Dizengremel, P. and Rychter, A.M. (2003) Oxygen concentration regulates alternative oxidase expression in barley roots during hypoxia and post-hypoxia. Physiol. Plant., 119,494-502.
  • Takumi, S., Tomioka, M., Eto, K., Naydenov, N. and Nakamura, С. (2002) Characterisation of two non-homoeologous nuclear genes encoding mitochondrial alternative oxidase in common wheat. Gen. Cenet. Syst, 77, 81-88.
  • Theologis, A. and Laties, G.G. (1980) Membrane lipid breakdown in relation to the wound-induced and cyanide-resistant respiration in tissue slices. Plant Physiol., 66, 890-896.
  • Tiwari, B.S., Belenghi, B. and Levine, A. (2002) Oxidative stress increased respiration and generation of reactive oxygen species, resulting in ATP depletion, opening of mitochondrial permeability transition, and programmed cell death. Plant Physiol, 128, 1271-1281.
  • Trono, D., Flagella, Z., Laus, M.N., Fonzo, N.Di. and Pastore, D. (2004) The uncoupling protein and the potassium channel are activated by hyperosmotic stress in mitochondria from durum wheat seedlings. Plant, Cell Environment, 1-12.
  • Umbach, A.L. and Siedow, J.N. (1993) Covalent and noncovalent dimers of the cyanide-resistant alternative oxidase protein in higher plant mitochondria and their relationship to enzime activity. Plant Physiol, 103, 845-854.
  • Van Der Straeten, D., Chaerle, L., Sharkov, G., Lambers, H. and Van Montagu, M. (1995) Salicylic acid enhances the activity of the alternative pathway of respiration in tobacco leaves and induces thermogenicity. Planta, 196, ЛХ2-АХ9.
  • Vanlenberghe, G.C., Yip, J.Y.H. and Parsons, H.L. (1999) In organello and in vivo evidence of the importance of the regulatory sulfhydryl/disulfide system and pyruvate for alternative oxidase activity in tobacco. Plant Physiol., 121, 793-803.
  • Vanlerberghe, G.C. and Mcintosh, L. (1992) Lower grows temperature increases alternative pathway capacity and alternative oxidase protein in tobacco. Plant Physiol., 100, 115-119.
  • Vanlerberghe, G.C. and Mcintosh, L. (1997) Alternative oxidase: from gene to function. Annu. Rev. Plant Physiol. PlantMol Biol, 48, 703-734.
  • Vanlerberghe, G.C., Robson, C.A. and Yip, J.Y.H. (2002) Induction of mitochondrial alternative oxidase in response to a cell signal pathway dowh-regulating the cytochrome pathway prevents programmed cell death. Plant Physiol., 129,1829-1842.
  • Vercesi, A.E. (2001) The discovery of an uncoupling mitochondrial protein in plants. Biosci. Rep., 21,195-200.
  • Vercesi, A.E., Martins, I.S., Silva, M.A.P., Leite, H.M.F., Cuccovia, I.M. and Chaimovich, H. (1995) PUMPing plants. Nature, 375,24.
  • Vianello, A., Macri, F., Braidot, E. and Mokhova, E.N. (1995) Effect of cyclosporin A on energy coupling in pea stem mitochondria. FEBS Lett, 371, 258-260.
  • Vianello, F., Petrussa, E. and Macri, F. (1994) Carboxyatractyloside restores the palmitate-induced uncoupling in sunflower mitochondria. Biol. Plant, 36, 183.
  • Virolainen, E., Blokhina, O. and Fagerstedt, K. (2002) Ca2+ -induced high amplitude swelling and cytochrome с release from wheat (Triticum aestivum L.) mitochondria under anoxic stress. Ann. Bot, 90, 509-616.
  • Voinikov, V., Grabelnych, O., Pobezhimova, Т., Korzun, A., Sumina, O., Tourchaninova, V. and Kolesnichenko, A. (2001) Plant stress uncoupling protein CSP 310 caused thermogenesis in winter wheat mitochondria in vitro. J. Plant Physiol, 158, 807-810.
  • Voinikov, V., Pobezhimova, Т., Kolesnichenko, A., Varakina, N. and Borovskii, G. (1998) Stress protein 310 kD affects the energetic activity of plant mitochondria under hypothermia. J. Therm. Biol, 23, 1-4.
  • Vojnikov, V., Korzun, A., Pobezhimova, T. and Varakina, N. (1984) Effect of cold shock on the mitochondrial activity and on the temperature of winter wheat seedlings. Biochem. Physiol. Pflanzen., 179, 327-330.
  • Vojnikov, V.K., Luzova, G.B. and Korzun, A.M. (1983) The compsition of free fatty acids and mitochondrial activity in seedlings of winter cereals under cold shock. Planta, 158, 194-198.
  • Wagner, A.M. and Krab, K. (1995) The alternative respiration pathway in plants: Role and regulation. Physiol. Plantarum, 95,318-325.
  • Watanabe, A., Nakazono, M., Tsutsumi, N. and Hirai, A. (1999) АШСР2: a novel isoform of the mitochondrial uncoupling protein of Arabidopsis thaliana. Plant Cell Physiol, 40, 1160-1166.
  • Whelan, J., Millar, A.H. and Day, D.A. (1996) The alternative oxidase is encoded in a multigene family in soybean. Planta, 198, 197-201.
  • Wieckowski, M.R. and Wojtczak, L. (1998) Fatty acid -induced uncoupling of oxidative phosphorylation is partly due to opening of the mitochondrial permeability transition pore. FEBS Lett. 423, 339-342.
  • Winning, B.M., Day, C.D., Sarah, C.J. and Leaver, C.D. (1991) Nucleotide sequence of two cDNAs encoding the adenine nucleotide tranclocator from Zea mays L. Plant. Mol. Biol, 17, 305-307.
  • Yao, N., Tada, Y., Sakamoto, M., Nakayashiki, H., Park, P.,Tosa Y. and Mayama, S. (2002) Mitochondrial oxidative burst involved in apoptotic response in oats. Plant J., 30, 567-579.
  • Zalman, L.S., Nikaido, H. and Kagawa, Y. (1980) Mitochondrial outer membrane contains a protein producing nonspecific diffusion channels. J. Biol. Chem., 255, 1771-1774.
  • Zamzami, N., Marchetti, P., Castedo, M., Hirsch, Т., Susin, S., Masse, B. and Kroemer, G. (1996) Inhibitors of permeability transition interfere with the disruption of the mitochondrial transmembrane potential during apoptosis. FEBS Lett, 384, 53-57.
  • Zoratti, M. and Szabo, I. (1995) The mitochondrial permeability transition. Biochim. Biophys. Acta, 1241,139-176.
  • Zottini, M., Mandolino, G. and Zannoni, D. (1993) Oxidation of external NAD(P)H by mitochondria from taproots and tissue cultures of sugar beet (Beta vulgaris). Plant Physiol, 102, 579-585.
  • Zykova, V.V., Kolesnichenko, A.V., Grabelnych, O.I., Tourchaninova, V.V. and Voinikov, V.K. (2001) The influence of cold stress on the peroxidation of lipids in the respiratory chain in the mitochondria of different winter wheats. Annual WheatNewslett, 47, 164-165.
Еще
Статья обзорная
SciUp 2024 © 2024 ©