Abramov, A. F. and Petrova, L. V. 2010. Fatty acid content in the meat of the Yakut breed foals. RASHN Papers 3, 56-57.
Alekseev, V. G. 1994. Plant resistance in the North conditions: ecological and biochemical aspects. Nauka: Novosibirsk.
Andreev, V. N., Galaktionova, T. F., Govorov, P. M., Zakharova, V. I., Neustoyeva, A. I., Savinov, D. D. and Torgovkina, E. E. 1978. Seasonal and weather dynamics of phytomass in the subarctic tundra. Nauka: Novosibirsk.
Anufriev, A. I. 2008. The mechanisms of small mammals hibernation in Yakutia. RAN: Novosibirsk.
Bocharov, E. A. and Djanumov, A. A. 1978. The synthesis of polar lipids in winter wheat chloroplasts due to the plant cold-resistance. Plant Physiol. (Moscow). 25, 756-760.
Bowland, J. P. and Newell, J. A. 1974. Fatty acid composition of shoulder fat and perinephric fat from pasture-feed horses. Can. J. Anim. Sci. 54, 373-376.
Cui, M., Lin, Y., ZU, Y., Efferth, T., Li, D. and Tang, Z. 2015. Ethylene increases accumulation of compatible solutes and decreases oxidative stress to improve plant tolerance to water stress in Arabidopsis. J. Plant Biol. 58, 193-201.
Dong, C. H. and Pei, H. 2014. Over-expression of miR397 improves plant tolerance to cold stress in Arabidopsis thaliana. J. Plant Biol. 57, 209-217.
Egorov, A. D. 1960. The chemical composition of fodder plants of Yakutia. Academy of Sciences USSR: Moscow.
Elliot, J. I. and Bowland, J. P. 1968. Effects of dietary copper sulfate on the fatty acid composition of porcine depot fats. J. Anim. Sci. 27, 956-960.
Gabyshev, M. F. 1957. The Yakut horse. Yakutsk book publishers: Yakutsk.
Gabyshev, M. F. and Kazansky, A. V. 1957. Fodder grasses of Yakutia. Characteristics of the chemical composition and nutrient value of the fodder grasses in the Yakut ASSR. Yakutsk book publishers: Yakutsk.
Garlid, K. D., Jaburek, M. and Jazek, P. 1998. The mechanism of proton transport mediated by mitochondrial uncoupling proteins. FEBS Lett. 438, 10-14.
Harwood, J. L. 1994. Environmental factors which can alter lipid metabolism. Prog. Lipid Res. 33, 193-202.
Heldmaier, G., Buchberger, P. and Seidi, K. 1983. Contribution adipose tissue to the regulatory heart production in the Hungarian hamsters. J. Therm. Biol. 41, 305-321.
Hilditch, T. P. and Williams, P. N. 1964. The chemical constitution of natural fats. 4th ed., Chapman and Hall: London.
Jaworski, J. G. and Stumpf, P. K. 1974. Fat metabolism in higher plants. Properties of a soluble stearyl-acyl carrier protein desaturase from maturing Carthamus tinctorius. Arch. Biochem. Biophys. 162, 158-165.
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.
Kalabukhov, N. I. 1985. The mammals′ hibernation. Nauka: Moscow.
Korotov, G. P. 1966. The Yakut cattle: productivity and biological peculiarities. Yakutsk book publishers: Yakutsk.
Kuiper, P. J. C. 1984. Lipid metabolism of higher plants as a factor in environmental adaptation. Dev. Plant Biol. 9, 525-530.
Levachev, M. M., Mishukova, E. A., Syvkova, V. G. and Skulachev, V. P. 1965. The energy exchange of the pigeon during its self-heating after hypothermia. Biochemistry (Moscow). 30, 864-871.
Los, D. A. and Murata, N. 2004. Membrane fluidity and its role in the perception of environmental signals. Biochim. Biophys. Acta. 1666, 142-157.
Lyons, J. M. 1973. Chilling injury in plants. Ann. Rev. Plant Physiol. 24, 445-466.
Lyons, J. M., Wheaton, T. A. and Pratt, H. R. 1964. Relationship between the physical nature of mitochondrial membranes and chilling sensitivity in plants. Plant Physiol. 39, 262-268.
Mikami, K. and Murata, N. 2003. Membrane fluidity and the perception of environmental signals in cyanobacteria and plants. Prog. Lipid Res. 42, 527-543.
Nishida, I. and Murata, N. 1996. Chilling sensitivity in plants and cyanobacteria: the crucial contribution of membrane lipids. Annu. Rev. Plant Physiol. Plant Mol. Biol. 47, 541-568.
Palou, A., Pico, C., Bonet, M. L. and Oliver, P. 1998. The uncoupling proteins thermogenin. Int. J. Biochem. Cell Biol. 30, 7-11.
Petrov, K. A., Sofronova, V. E., Chepalov, V. A., Perk, A. A. and Maksimov, T. Kh. 2010. Seasonal changes of photosynthetic pigments content in perennial herbaceous of cryolithic zone. Plant Physiol. (Moscow). 57, 192-199.
Petrov, K. A., Sofronova, V. E., Buryakina, V. V., Perk, A. A., Tatarinova, T. D., Ponomarev, A. G., Chepalov, V. A., Okhlopkova, Zh. M., Vassylieva, I. V. and Maksimov, T. Kh. 2011. Woody plants of Yakutia and low-temperature stress. Plant Physiol. (Moscow). 439, 866-874.
Raison, J. K. 1973. The influence of temperature-induced phase changes on the kinetics of respiratory and other membrane-associated enzyme systems. J. Bioenerg. 4, 258-309.
Ramos, P., Gieseg, S. P., Shuster, B. and Esterbauer, H. 1995. Effect of temperature and phase transition on oxidation resistance of low density lipoprotein. J. Lipid Res. 36, 2113-2128.
Routaboul, J. M., Fisher, S. F. and Browse, J. 2000. Trienoic fatty acids are required to maintain chloroplast function at low temperatures. Plant Physiol. 124, 1697-1705.
Ruelland, V. and Zachowski, A. 2010. How plants sense temperature. Envir. Exp. Bot. 69, 225-232.
Rumyantsev, V. A. 1990. A method of green fodder storage. USSR Patent No 1835996.
Slobodchikova, M. N., Ivanov, R. V., Stepanov, K. M., Pustovoy, V. F., Osipov, V. G. and Mironov, S. M. 2011. Lipid fatty acid composition of the fat tissue of the Yakut horse. Horse Breed. Eques. Sport. 6, 28-30.
Smolenska, G. and Kuiper, P. J. C. 1977. Effect of low temperature on lipid and fatty acid composition of roots and leaves of winter rape plants. Physiol. Plant 41, 29-35.
Solomonov, N. G. 1976. Major results and objectives of ecological and physiological research of wild mammals in Yakutia, pp. 3-24. In Ecological-physiological peculiarities of the animals of Yakutia. Nauka: Novosibirsk.
Sopyn, A. I. and Trunova, T. I. 1991. Dynamics of phospholipid and fatty acid content in etiolated winter wheat seedlings during frost hardening. Plant Physiol. (Moscow). 38, 142-149.
Thewke, D., Kramer, M. and Sinensky, M. S. 2003. Transcriptional homeostatic control of membrane lipid composition. Biochem. Biophys. Res. Commun. 273, 1-4.
Tovuu, A., Zulfugarov, I. S. and Lee, C. H. 2013. Correlations between the temperature dependence of chlorophyll fluorescence and the fluidity of thylakoid membranes. Physiol. Plant. 147, 409-416.