THERMOGENIC RESPIRATION IN MITOCHONDRIA OF SOME ANIMALS

Bakhodir Niyazmetov; Valijon Karimov; Bakridin Zaripov

Biology

No. 1 (2024): FarDU.Ilmiy xabarlar jurnali (Aniq va tabiiy fanlar)

THERMOGENIC RESPIRATION IN MITOCHONDRIA OF SOME ANIMALS

Niyazmetov Bakhodir Allaberganovich^▸^▾
Karimov Valijon^▸^▾
Zaripov Bakridin^▸^▾

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Submitted: April 13, 2024
Published: 2024-04-18

Abstract

In mitochondria of skeletal muscles of warm-blooded animals, two forms of respiration intensively function - coupled and uncoupled with ATP synthesis. In the cold-blooded animals, the uncoupled form of respiration is less developed. High-uncoupled respiration in mitochondria, considered as thermogenic, as well as efficiency, reducing the metabolic mechanism in warm-blooded organisms.

References

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Пасйнский А.Г. Биофизическая кҳимия. - М.; Вйсшая школа, 1967. - 432.
Певзнер Л. Основй биоэнергетики. – М.; 1977. - 310 с.
Прусинер C., Рое М. Тҳермодйнамиc cонсидератионс оф маммалиан тҳермогенесис. Натуре. 1968. В. 220. П. 235-237.
Иванов К.И. Биоэнергетика и температурнйй гомеостазис. Л.: Наука, 1972. 172 с.
Долъник В.Р. Биоэнергетика современнйкҳ зҳивотнйкҳ и проискҳозҳдение гомоётермии. ЗҲ. обшч.биол. 1981. Т. 42. C. 60-74.
Bennett A.F., Ruben J.А. Endothermу and activity in Vertebrates. Science. 1979. V. 206. 4419. P. 649-654.
Brand M. D. 1990. The contribution of the leak of protons across the mitochondrial inner membrane to standard metabolic rate. J. Theor. Biol, 145, 267-286.
Шмидт-Ниелъсон К. Физиология зҳивотнйкҳ. Приспособление и среда. М.: Мир, 1982. Т. И. 414 с.
Проссер Л. Температура. Сравнителъная физиология зҳивотнйкҳ. – М.; Мир, 1977.- т. 2. - С. 84-209.
Проссер Л., Браун Ф. Сравнителъная физиология зҳивотнйкҳ. – М.; Мир, 1967. - 766 с.
Шчевелъко Е.А. Эволюция ликҳорадочной реактсии. - Д.: Медицина, 1969. - 160.
Gillooly J.F, Gomez J.P, Mavrodiev E.V. A broad-scale comparison of aerobic activity levels in vertebrates: endotherms versus ectotherms. Proc Biol Sci. 2017, 225;284 (1849).
Moberly W.R. The metabolic responses of the common Iguana iguana, to working and diving. Comp. Biochem. Physiol. 1968. V. 27. P. 21-32.
Taylor C.R., Schmidt-Nielsen K., Roab J.L. Scaling of the energetic cost of running to body size in mammals. Am. J. Physiol. 1970. V. 219. P. 1104-1109.
Tucker V.A. Energetic cost of locomotion, in animals. Соmр. Biochem. Physiol. 1970. V. 34. P. 841-846.
Mersmann H.J., Cordes E.S. In vitro metabolism by turtle heart mitochondria. Am. J. Physiol. 1964. V. 206. P. 980-984.
Gumbman W.R., Tappel A.L. The tricarboxylic acid cycle in fish // Arch. Biochem. Biophys. - 1962. - V. 96. - N 1. - P. 262-270.
Savina, M.V., Maslova, G.M., Demina, V.I. Baclanova, S.M. (1975) J. Evol. Biochem. Physiol. (USSR) 17, 246-253.
Duong, C., C. Sepulveda, J. Graham and K. Dickson. Mitochondrial proton leak rates in the slow, oxidative myotomal muscle and liver of the endothermic shortfinmako shark (Isurus oxyrinchus) and the ectothermic blue shark (Prionace glauca) and leopard shark (Triakis semifasciata). The Journal of experimental biology. 2006. 26. P 78-85.
Klingenberg M. UCP1 - a sophisticated energy valve. Biochimie 134: 19-27, 2017.
Wiens L., Banh Sh., Sotiri E., Jastroch, Block B. A., . Brand, M. D., Treberg J. R. Comparison of Mitochondrial Reactive Oxygen Species Production of Ectothermic and Endothermic Fish Muscle Front Physiol. 2017, 8, 704.. Published online 2017.
Cadenas S. Mitochondrial uncoupling, ROS generation and cardioprotection. Biochimica et Biophysica Acta (BBA) - Bioenergetics, 2018,V. 1859 (9), 940-950.
Brand M.D, Esteves T.C. Physiological functions of the mitochondrial uncoupling proteins UCP2 and UCP3. Cancer Bioenergetics V. 2, I, P. 85–93. 2005.
Akhmerov R. N., Niyazmetov B. A., 2016. Coupled and uncoupled respiration in rat cardiocytes and mitochondria. European J. Biomedical and Pharmaceutical Sciences. 3 (12), 8-16.
Akhmerov R. N., Niyazmetov B. A., Abdullayev G. R. On Novel Features of the Proton Leak and Possibility of Uncoupling Population of Mitochondria in Brown Adipose Tissue November 2018American Journal of Biochemistry and Biotechnology 8(6):107-113.
Akhmerov R. N, Niyazmetov B. A, Mirkhodjaev U. Z. On Novel Features of the Proton Leak and Possibility of Uncoupling Population of Mitochondria in Brown Adipose Tissue American Journal of Biological Chemistry. 2019; 7(2): 31-37.
Hogeboom G.H., Schneider W.C., Pallade G.E. Cytochemical studies of mammalian tissues. Isolation of intact mitochondria from rat liver, some biochemical properties of mitochondrial and submicroscopic particulate material. J. Biol. Cbem. - 1946. - V. 172. – N. 2. - P. 619-641.
Akhmerov, R.N. (1979) Combined homogenization. Uzbek. Biological. J. №5, p. 71-72.
Lowry O.H., Rosenbragh J., larr A.L., Randall R.J. Protein measurement 'with the folin phenol reagent, J.Biol, Сhem. - 1951. - V. 193. - 11. - P. 265-275.
Chance В., Williams G.S. Inspiratory enzymes in oxidative phosphorylation J. Biol. Chem. - 1955. - V. 217. – N.1. - P. 383-427.
Lehninger A.L. Biоenergetics. - 1.-I.-Amsterdam, 1965. - 516 p.
Кокоз Ю. М.,Попов В.Н.,Кҳунян С.С., Акҳмеров Р.Н. Особенности энергосопрязҳенного дйкҳания кардиоцитов. В сб. Молекулярнйе мекҳанизмй и регуляция энергетического обмена Пушчино,.Московск.обл., 1987,с.14 -24.

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[1] Akhmerov R. N., Niyazmetov, B. A., Abdullaev G. R. Different Views on the Tissue Thermogenesis of Organisms. 2018. Am. J. of Biochem., 8(2): 30-39

[2] Пасйнский А.Г. Биофизическая кҳимия. - М.; Вйсшая школа, 1967. - 432.

[3] Певзнер Л. Основй биоэнергетики. – М.; 1977. - 310 с.

[4] Прусинер C., Рое М. Тҳермодйнамиc cонсидератионс оф маммалиан тҳермогенесис. Натуре. 1968. В. 220. П. 235-237.

[5] Иванов К.И. Биоэнергетика и температурнйй гомеостазис. Л.: Наука, 1972. 172 с.

[6] Долъник В.Р. Биоэнергетика современнйкҳ зҳивотнйкҳ и проискҳозҳдение гомоётермии. ЗҲ. обшч.биол. 1981. Т. 42. C. 60-74.

[7] Bennett A.F., Ruben J.А. Endothermу and activity in Vertebrates. Science. 1979. V. 206. 4419. P. 649-654.

[8] Brand M. D. 1990. The contribution of the leak of protons across the mitochondrial inner membrane to standard metabolic rate. J. Theor. Biol, 145, 267-286.

[9] Шмидт-Ниелъсон К. Физиология зҳивотнйкҳ. Приспособление и среда. М.: Мир, 1982. Т. И. 414 с.

[10] Проссер Л. Температура. Сравнителъная физиология зҳивотнйкҳ. – М.; Мир, 1977.- т. 2. - С. 84-209.

[11] Проссер Л., Браун Ф. Сравнителъная физиология зҳивотнйкҳ. – М.; Мир, 1967. - 766 с.

[12] Шчевелъко Е.А. Эволюция ликҳорадочной реактсии. - Д.: Медицина, 1969. - 160.

[13] Gillooly J.F, Gomez J.P, Mavrodiev E.V. A broad-scale comparison of aerobic activity levels in vertebrates: endotherms versus ectotherms. Proc Biol Sci. 2017, 225;284 (1849).

[14] Moberly W.R. The metabolic responses of the common Iguana iguana, to working and diving. Comp. Biochem. Physiol. 1968. V. 27. P. 21-32.

[15] Taylor C.R., Schmidt-Nielsen K., Roab J.L. Scaling of the energetic cost of running to body size in mammals. Am. J. Physiol. 1970. V. 219. P. 1104-1109.

[16] Tucker V.A. Energetic cost of locomotion, in animals. Соmр. Biochem. Physiol. 1970. V. 34. P. 841-846.

[17] Mersmann H.J., Cordes E.S. In vitro metabolism by turtle heart mitochondria. Am. J. Physiol. 1964. V. 206. P. 980-984.

[18] Gumbman W.R., Tappel A.L. The tricarboxylic acid cycle in fish // Arch. Biochem. Biophys. - 1962. - V. 96. - N 1. - P. 262-270.

[19] Savina, M.V., Maslova, G.M., Demina, V.I. Baclanova, S.M. (1975) J. Evol. Biochem. Physiol. (USSR) 17, 246-253.

[20] Duong, C., C. Sepulveda, J. Graham and K. Dickson. Mitochondrial proton leak rates in the slow, oxidative myotomal muscle and liver of the endothermic shortfinmako shark (Isurus oxyrinchus) and the ectothermic blue shark (Prionace glauca) and leopard shark (Triakis semifasciata). The Journal of experimental biology. 2006. 26. P 78-85.

[21] Klingenberg M. UCP1 - a sophisticated energy valve. Biochimie 134: 19-27, 2017.

[22] Wiens L., Banh Sh., Sotiri E., Jastroch, Block B. A., . Brand, M. D., Treberg J. R. Comparison of Mitochondrial Reactive Oxygen Species Production of Ectothermic and Endothermic Fish Muscle Front Physiol. 2017, 8, 704.. Published online 2017.

[23] Cadenas S. Mitochondrial uncoupling, ROS generation and cardioprotection. Biochimica et Biophysica Acta (BBA) - Bioenergetics, 2018,V. 1859 (9), 940-950.

[24] Brand M.D, Esteves T.C. Physiological functions of the mitochondrial uncoupling proteins UCP2 and UCP3. Cancer Bioenergetics V. 2, I, P. 85–93. 2005.

[25] Akhmerov R. N., Niyazmetov B. A., 2016. Coupled and uncoupled respiration in rat cardiocytes and mitochondria. European J. Biomedical and Pharmaceutical Sciences. 3 (12), 8-16.

[26] Akhmerov R. N., Niyazmetov B. A., Abdullayev G. R. On Novel Features of the Proton Leak and Possibility of Uncoupling Population of Mitochondria in Brown Adipose Tissue November 2018American Journal of Biochemistry and Biotechnology 8(6):107-113.

[27] Akhmerov R. N, Niyazmetov B. A, Mirkhodjaev U. Z. On Novel Features of the Proton Leak and Possibility of Uncoupling Population of Mitochondria in Brown Adipose Tissue American Journal of Biological Chemistry. 2019; 7(2): 31-37.

[28] Hogeboom G.H., Schneider W.C., Pallade G.E. Cytochemical studies of mammalian tissues. Isolation of intact mitochondria from rat liver, some biochemical properties of mitochondrial and submicroscopic particulate material. J. Biol. Cbem. - 1946. - V. 172. – N. 2. - P. 619-641.

[29] Akhmerov, R.N. (1979) Combined homogenization. Uzbek. Biological. J. №5, p. 71-72.

[30] Lowry O.H., Rosenbragh J., larr A.L., Randall R.J. Protein measurement 'with the folin phenol reagent, J.Biol, Сhem. - 1951. - V. 193. - 11. - P. 265-275.

[31] Chance В., Williams G.S. Inspiratory enzymes in oxidative phosphorylation J. Biol. Chem. - 1955. - V. 217. – N.1. - P. 383-427.

[32] Lehninger A.L. Biоenergetics. - 1.-I.-Amsterdam, 1965. - 516 p.

[33] Кокоз Ю. М.,Попов В.Н.,Кҳунян С.С., Акҳмеров Р.Н. Особенности энергосопрязҳенного дйкҳания кардиоцитов. В сб. Молекулярнйе мекҳанизмй и регуляция энергетического обмена Пушчино,.Московск.обл., 1987,с.14 -24.