Biopolym. Cell. 1998; 14(6):519-523.
Структура та функції біополімерів
Вивчення механізму термоінактинації целюлазної ферментної системи Trichoderma viride
1Циганков В. С., 1Охотнікова Л. К.
  1. Ростовський державний університет
    пр. Стачки 194/1, Ростов-на-Дону, Російська Федерація, 344090

Abstract

Розглянуто процес термоінактивації целюлозного комплексу ферментної системи Т. viride. Зроблено припущення стосовно структурної організації целюлазної системи ферментів у водному розчині

References

[1] Rodionova NA. Enzymes that catalyze the cleavage of cell wall polysaccharides of higher plants. Itogi Nauki i Tekhniki. M.: VINITI (Biotekhnologiia Vol 19), 1985.
[2] Klyosov AA, Rabinowitch ML. Enzyme engineering. Future directions. New York: Plenum press, 1980;83—165.
[3] Klesov AA, Grigorashch SIu. [Relationship between the kinetics of hydrolysis of soluble and native celluloses under the action of cellulase multi-enzyme complexes]. Biokhimiia. 1980;45(2):228-41.
[4] Klesov AA, Churilova IV. [Hydrolysis of microcrystalline cellulose by multienzyme cellulase complexes of various origins]. Biokhimiia. 1980;45(9):1685-94.
[5] Klyosov AA, Rabinovitch ML, Sinitsyn AP, Churilova IF, Grigorash SYu. Enzymatic hydrolysis of cellulose. I. Activity and composition of cellulase complexes from various sources. Bioorg Khim. 1980; 6(8):1225-42
[6] Trygankov VS, Zuev YuF, Kuraskov VI, Smetanina SE, Pobedimsky DG, Suniysyn AP, Kirpichnikov PA. Interconnection of the temperature dependens of the dielectric and biochemical characteristics of the Trichoderma viride cellulases. Dokl Akad Nauk SSSR. 1992; 325(4):861-4.
[7] Tsygankov VS, Zuev YF, Kurashov VJ. et al. Interconnection of the temperature dependences of the dielectric and biochemical characteristics cellulases enzymes. J Chem Biochem Kinetics. 1993; 1:31—35.
[8] Poltarak OM, Chuhrai ES. Kinetics and mechanism of enzyme inactivation quaternary structure. Vestn MGU. 1979l 20(3):195-211.
[9] Rukhlyadeva AP, Polgalina GV. Methods for determining the activity of hydrolytic enzymes. M.: Legkaya Promyshlennost, 1981.
[10] Ermolina IV, Polygalov EA, Romanychev GD, Zuev YF, Feldman YD. Time domain dielectric spectroscopy with nonuniform signal sampling. Rev Sci Instrum. 1991;62(9):2262.
[11] Bone S. Time domain reflectrometry: the difference method applied to conductive aqueous solutions. Biochim Biophys Acta. 1988;967(3):401-7.
[12] Feldman YuD, Ermolina IV. Chemistry and application of non-aqueous solutions. Proc. rep. I All-Union. Conf. Ivanovo: Izd. IHNR AN SSSR, 1998; vol III: 435
[13] Feldman YuD, Fedotov VD. [The study of rotational diffusion of globular proteins by the time of dielectric spectroscopy[. Zhurnal fizicheskoi khimii. 1987; 61(8):2001-12.
[14] Brandts JF. In: Structure and Stability of Biological Macromolecules Eds SN Timasheff and G Fasman, Marcel Dekker Inc. New York 1969; 213
[15] Venyaminov SYu, DOlgih DA. Proc. rep. IV All-Union. Conf. on the spectroscopy of proteins. Kharkov, 1981;34.
[16] Gil'manshin RI, Dolgikh DA, Ptitsyn OB, Finkel'shte?n AV, Shakhnovich EI. [Protein globule without the unique three-dimensional structure: experimental data for alpha-lactalbumins and general model]. Biofizika. 1982;27(6):1005-16.
[17] Lifshits IM, Grosberg AYu, Khokhlov AR. Ob''emnye vzaimodeistviya v statisticheskoi fizike polimernoi makromolekuly. Uspekhi Fizicheskih Nauk. 1979; 127(3):353-89.
[18] Maklakov AI, Skirda VD, Faktullin NF. Self-diffusion n polymer systems. Encyclopedia or fluid mechanics. Chereminisinoff. New York: Gulf Publ. Company, 1990; 9:22.
[19] Stejskal EO, Tanner JE. Spin Diffusion Measurements: Spin Echoes in the Presence of a Time-Dependent Field Gradient. J Chem Phys. 1965;42(1):288.
[20] Friedrich P. Supramolecular enzyme organization: quaternary structure and beyond. Pergamon Press, 1984; 300 p.
[21] Gusakov AV, Sinitsyn AP, Klesov AA. [Enzymatic hydrolysis of cellulose. Inactivation and stabilization of the enzymes of the cellulose complex]. Biokhimiia. 1982;47(8):1322-31.