Диссертация (1151592), страница 20
Текст из файла (страница 20)
145. – N 1. – P. 10-112.183. Sengoku K., Takuma N., Horikawa M., Tsuchiya K., Komori H.,Sharifa D., Tamate K., Ishikawa M. Requirement of Nitric Oxide for MurineOocyte Maturation, Embryo Development, and Trophoblast Outgrowth In Vitro //Molecular Reproduction & Development. – 2001. – Vol. 58. – P. 262-268.184. Severina I., Bussygina O., Pyatakova N., Malenkova I. and Vanin A.Activation of soluble guanylate cyclase by NO donors-Snitrosothiols, anddinitrosyl-iron complexes with thiol-containing ligands // Nitric Oxide. – 2003.
–Vol. 8. – P. 155-163.185. Smith P.B., Finch R.A. Alteration in lipid metabolism of developingmuscle cells in culture // Biochem. biophys. Acta. – 1979. – Vol. 562. – N 1. –P. 139-145.186. Stamler J.S., Meissner G. Physiology of nitric oxide in skeletalmuscle. Physiol Rev. – 2001. – Vol. 81. – P. 209-237.187. Stamler J.S., Singel D., and Loscalzo J. Biochemistry of nitric oxideand its redox-activated forms // Science. – 1992.
– Vol.258. – P. 1898-1902.157188. Stolpe M. Physiologisch-anatomische Untersuchungen über diehintere Extremilat der Voger // J. Ornithol. – 1932. – Vol. 80. – N 2. – P. 162-247.189. Stuerenburg H., Kunze K. Tissue concentrations of nerve growthfactor in aging rat heart and skeletal muscle // Muscle and Nerve. – 1998. – Vol.21. – N 3. – P. 404-406.190.
Sobolewska A., Elminowska-Wenda G., Bogucka J., Szpinda M.,Walasik K., Bednarczyk M., Paruszewska-Achtel M. Myogenesis – possibilities ofits stimulation in chickens // Folia biologica. – Kraków, 2011. – Vol. 59. – P. 8590.191. Tarpey M., Wink D., Grisham M. Methods for detection of reactivemetabolites of oxygen and nitrogen: in vitro and in vivo considerations // Am. J.Physiol. Regul. Integr Comp.
Physiol. – 2004. – Vol. 286. – P. 431-444.192. Titov V.Yu. Mechanisms of Interaction of Nitric Oxide (NO) and itsMetabolites with Enzymes Responsible for the Physiological Effects of NO //Current Enzyme Inhibition. – 2008. – Vol. 4. – P. 73-81.193. Titov V.Yu. The Enzymatic Technologies Open New Possibilities forStudying Nitric Oxide (NO) Metabolism in Living Systems // Current EnzymeInhibition. – 2011. – Vol.
7. – N 1. – P. 56-70.194. Titov V., Varigina Y., Fisinin V. Relation between Nitrogen OxideMetabolites in Amniotic Fluid and Productive Qualities of Poultry // RussianAgricultural Science. – 2007. – Vol. 33. – P. 400-401.195. Titov V.Yu., Vinnikova E.Z., Akimova N.S., Fisinin V.I. Nitric oxide(NO) in bird embryogenesis: physiological role and ability of practical use //World’s Poultry Science Journal. – 2012. – Vol. 68.
– P. 83-95.196. Titov V., Vinnikova E., Fisinin V., Bliznetsova G. and Retsky M.Significance of Nitrogen Oxide and Its Metabolites in the Development ofEmbryos // Russian Agricultural Science. – 2008. – Vol. 34. – P. 264-265.197. TrotterJ.,NameroffM.Myoblastdifferentiationinvitro:Morphological differentiation of mononucleated myoblasts // Develop.
Biol. –1976. – Vol. 49. – N 2. – P. 548-555.158198. Trupin G.L. The satellite cells of normal anuran skeletal muscle //Develop. Biol. – 1976. – Vol. 50. – N 2. – P. 517-524.199. Tsutsui M., Shimokawa H., Morishita T., Nakashima Y., YanagiharaN. Development of Genetically Engineered Mice Lacking All Three Nitric OxideSynthases. // J.
Pharmacol. Sci. – 2006. – Vol. 102. – P. 147-154.200. VaninA.Dinitrosylironcomplexeswiththiolate ligands:physicochemistry, biochemistry and physiology // Nitric Oxide. – 2009. – Vol. 21.– P. 1-13.201. VellemanS.G., McFarland D.C. Myotube morphology, andexpression and distribution of collagen type I during normal and low score normalavian satellite cell myogenesis // Dev. Growth. Differ. – 1999. – Vol. 41.
– N 2. –P. 153-161.202. Vignini A, Turi A, Giannubilo SR, Pescosolido D, Scognamiglio P,Zanconi S, Silvi C, Mazzanti L, Tranquilli AL. Follicular fluid nitric oxide (NO)concentrations in stimulated cycles: the relationship to embryo grading // ArchGynecol Obstet. – 2008. – Vol. 3. – P. 229-232.203. Visschedijk A.H.J.
Physics and physiology of incubation // Poult. Sci.– 1991. – Vol. 32. – P. 3-20.204. Von Mandach U., Lauth D. and Huch R. Maternal and fetal nitricoxide production in normal and abnormal pregnancy // Journal of Maternal-Fetaland Neonatal Medicine. – 2003. – Vol. 13.
– P. 22-27.205. Wabeck C.J., and Skuglund W.C. Influence of radiant energy fromfluorescent light sources on growth mortality and feed conversion of broilers //Poult. Sci. – 1974. – Vol. 53. – P. 2055-2059.206. Walker S.M., Schrodt G.R. Triads in fetal skeletal muscle // Nature(Engl.).
– 1967. – Vol. 216. – N 5119. – P. 985-988.207. Walter J.H., and Voitle R.A. Effects of photoperiod during incubationon embryonic and post-embryonic development of broilers // Poult. Sci. – 1972. –Vol. 51. – P. 1122-1126.159208. Walter J.H., and Voitle R.A. Effects of photoperiod during incubationon embryonic and post-embryonic development of quail and chickens // Br. Poult.Sci.
– 1973. – Vol. 14. – P. 533-540.209. Webb J.N. The development of human skeletal muscle with particularreference to muscle cell death // J. Path. – 1972. – Vol. 106. – N 4. – P. 221-228.210. Webb J.N. Cell death in developing skeletal muscle: histochemistryand ultrastructure // J. Path. – 1977. – Vol. 123.
– N 3. – P. 175-180.211. Weintraub H. The MyoD family and myogenesis: redundancy,networks, and thresholds // Cell. – 1993. – Vol. 75. – P. 1241-1244.212. Wozniak A.C., Kong J., Bock E. et al. Signaling satellite-cellactivation in skeletal muscle: markers, models, stretch and potential alternatepathways // Muscle and Nerve. – 2005. – Vol.
31. – N 3. – P. 283-300.213. Wu T.P., Huang, B.M., Tsai, H.C., Lui, M.C. and LIU, M.Y. Effectsof nitric oxide on human spermatozoa activity, fertilization and mouse embryonicdevelopment // Archives of Andrology. – 2004. – Vol. 50. – P. 173-179.214. Yablonka-Reuveni Z., Rivera A.J. Temporal expression of regulatoryand structural muscle proteins during myogenesis of satellite cells on isolated adultrat fibers // Dev.
Biol. – 1994. – Vol. 164. – P. 588-603.215. Yablonka-Reuveni Z. Development and postnatal regulation of adultmyoblasts // Microsc. Res. Tech. – 1995. – Vol. 30. – N 5. – P. 366-380.216. Zalin R. The cell cycle, myoblast differentiation and prostaglandin asa developmental signal // Develop. Biol. – 1979. – Vol. 71. – N 2.
– P. 274-288.217. Zammit P., Beauchamp J. The skeletal muscle satellite cell: stem cellor son of stem cell? // Differentiation. – 2001. – Vol. 68. – N 4-5. – P. 193-204.218. Zempoalteca R., Lucio R.A., Eguibar J.R. Perineal striated muscles:anatomy, spinal motoneurons, and participation on copulatoiy behavior in malerabbits (Oryctolagus cuniculus) // Synapse. – 2008. – Vol. 62. – N 9. – P. 653-661.219. Zhang L., Zhang HJ., Qiao X., Yue HY., Wu SG., Yao JH., Qi GH.Effect of monochromatic light stimuli during embryogenesis on muscular growth,160chemical composition, and meat quality of breast muscle in male broilers // PoultSci.
– 2012. – Vol. 91. – N 4. – P. 1026-1031.220. Zhou J., Brune B. NO and transcriptional regulation: from signaling todeath // Toxicology. – 2005. – Vol. 208. – P. 223-233.161ПРИЛОЖЕНИЯ162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
