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Xiong, J., Fischer, W. М., Inoue, К., Nakahara, М. and Bauer, С. Е. Molecular evidence for the early evolution of photosynthesis. Science 289: 1724 — 1730; 2000.

Hartman, Н. Photosynthesis and the origin of lifе. Origins of Lifе and Evolution of the Biosphere 28: 515 — 521; 1998.

Schiller, Н., Senger, Н., Miyashita, Н., Miyachi, S. and Dau, Н. Light-harvesting in Acaryochloris marina — spectroscopic characterization of а chlorophyll d-dоminated photosynthetic antenna system FEBS Letters 410: 433 — 436; 1997.

Hoganson, С. W., Pressler, М. А., Proshlyakov, D. А. and Babcock, G. Т. From water tо oxygen and back again: mechanistic similarities in the enzymatic redox conversions between water and dioxygen. Biochimka et Biophysica Acta 1365: 170 — 174; 1998.

Каталаза и кислород-выделяющий комплекс

Blankenship, R. Е. and Hartman, Н. The origin and evolution of oxygenic photosynthesis. Тrends in Biological Sciences 23: 94 — 97; 1998.

Ioannidis, N., Schansker, С., Barynin, V. V. and Petrouleas, V. Interaction of nitric oxide with the oxygen evolving complex of photosystem II and manganese catalase: а comparative study. Jourпаl of Вiological and Inorganic Chemistry 5: 354 — 563; 2000.

Пероксид водорода на первозданной Земле

Kasting, J., Holland, Н. D. and Pinto J. Р. Oxidant abundances in rainwater and the evolution of atmospheric oxygen. Journal of Geophisiсаl Research 90: 10497 — 10510; 1985.

Kasting, J. F. Earthʼs early atmosphere. Science 259: 920 — 926; 1993.

МсКау, С. P. and Hartman, Н. Hydrogen peroxide and the evolution of oxygenic photosynthesis. Origins of Lifе and Evolution of the Biosphere 21: 157 — 163; 1991.

Глава 8. Геномы человека и шимпанзе

Chen, F. С. and Li, W. Н. Genomic divergences between humans and other hominoids and the effective population size of the common ancestor of humans and chimpanzees. Атeriсап Jоиrпаl of Нumап Genetics 68: 444 — 456; 2001.

Эукариоты и митохондрии

Gray, М. W., Burger, G. and Lang, В. F. Mitochondrial evolution. Science 283: 1476 — 1481; 1999.

Kurland, С. G. and Andersson, S. G. E. Origin and evolution of the mitochondrial proteome. Microbiology and Molecular Biology Reviews 64: 86 — 820; 2000.

Последний универсальный общий предок

Woese, С. Interpreting the universal phylogenetic tree. Proceedings of the National Academy of Sciences USA 97: 8392 — 8396; 2000.

Woese, С. The universal ancestor. Proceedings of the National Academy of Sciences USA 95: 6854 — 6859; 1998.

Doolittle, W. F. and Brown, J. R. Tempo, mode, the progenote, and the universal root. Proceedings of the National Academy of Sciences USA 91: 6721 — 6728; 1994.

Эволюция цитохромоксидазы и аэробного дыхания

Castresana, J. and Saraste, М. Evolution of energetic metabolism: the respiration-early hypothesis. Тrепds in Biological Sciences 20: 443 — 448; 1995.

Castresana, J. and Moreira, D. Respiratory chains in the last common ancestor of living organisms. Journal of Моlесulаr Evolution 49: 453 — 460; 1999.

Castresana, J., Liibben, М. аnd Saraste, М. New Archaebacterial genes coding for redox proteins: implications for the evolution of aerobic metabolism. Journal of Мoleсиlar Biology 250: 202 — 210; 1995.

Castresana, J., Liibben, M., Saraste, М. and Higgins, D. G. Evolution of cytochrome oxidase, an enzyme older than atmospheric oxygen. EMBO Jоиrпаl 13: 2516 — 2525; 1994.

Hoganson, С. W., Pressler, М. А., Proshlyakov, D. А. and Babcock, G. T. From water to oxygen and back again: mechanistic similarities in the enzymatic redox conversions between water and dioxygen. Biochimica et Biophysica Acta 1365: 170 — 174; 1998.

Гемоглобины и цитохромоксидаза

Preisig, О., Anthamatten, D. and Hennecke H. Genes for а microaerobically induced oxidase complex in Bradyrhizobium jаропicuт are essential for а nitrogen-fixing endosymbiosis. Proceedings of the National Academy of Sciences USA 90: 3309 — 3313; 1993.

Shaobin, H., Larsen, R. W., Boudko, D., et al. Myoglobinlike aerotaxis transducers in Archaea and Bacteria. Nature 403: 540 — 544; 2000.

Trotman, С. Life: All the time in the world. The Biologist 45: 76 — 80; 1998.

Глава 9. Овощи, фрукты и витамин C

Кеу, Т. J., Thorogood, М., Appleby, P. N. and Вurr, М. L. Dietary habits and mortality in 11,000 vegetarians and health-conscious people: results of а 17-year follow uр. British Medical Jоиrпаl 313: 775 — 779; 1996.

Gutteridge, J. М. С. and Halliwell, В. Free radicals and antioxidants in the year 2000: а historical look to the future. Аппаls of thе New York Academy of Scienсеs 899: 136 — 147; 2000.

Khaw, К. Т., Bingham, S., Welch, А., Luben, R., Wareham, N., Oakes, S. and Day, N. Relation between plasma ascorbic acid and mortality in men and women in EPIC-Norfolk prospective study: а prospective population study. Lancet 357:657 — 663; 2001.

Рекомендованная суточная норма

Levine, М., Conry-Cantilena, С. and Wang, Y., et al. Vitamin С pharmacokinetics in healthy volunteers: Evidence for а recommended dietary allowance. Proceedings of thе National Academy of Sсieпсеs USA 93: 3704 — 3709; 1996.

Panel on Dietary Antioxidants and Related Compounds. Dietary Rеfепсе Intakes for Vitamin С, Vitamin Е, Selenium and Саrotenoids. National Academy Press, Washington, DC, 2000.

Механизм действия витамина C

Levine, М., Dhariwal, К. R., Washko, Р. W., Welch, R. W. and Yang, Y. Сеllulаr functions of ascorbic acid: а means to determine vitamin С requirement. Asia Расifiс Journal of Сliпiсаl Nutrition 2 (suppl. 1): 5 — 13; 1993.

Padayatty, S. J. and Levine M. New insights into the physiology and pharmacology of vitamin С. Canadian Medical Association Jоиrпаl 164: 353 — 355; 2001.

Wang, W., Russo, Т., Kwon, О., Chanock, S., Rumsey, S. and Levine, М. Ascorbate recycling in human neutrophils: induction by bacteria. Proceedings of the National Academy of Sciences USA 94: 13816 — 13819; 1997.

McLaran, С. J., Bett, J. Н., Nye, J. А. and Halliday J. W. Congestive cardiomyopathy and haemochromatosis — rapid progression possibly accelerated by excessive ingestion of ascorbic acid. Australia New Zealand Jоиrпаl of Medicine 12: 187 — 188; 1982.