Antywitaminy - wrogowie czy przyjaciele?

• Autorzy: Katarzyńska J.
• Języki publikacji: PL

Słowa kluczowe

PL

witaminy; antywitaminy

EN

vitamin; antivitamin; vitamin antagonist

• Wydawca: Politechnika Łódzka, Wydział Chemiczny
• Czasopismo: Eliksir
• Rocznik: 2016
• Tom: nr 1
• Strony: 19--27
• Opis fizyczny: Bibliogr. 31 poz., rys. kolor.

Twórcy

autor

Katarzyńska J.

• Instytut Chemii Organicznej, Wydział Chemiczny, Politechnika Łódzka

Bibliografia

• [1] Wuest H. M., 1962, The history of thiamine, Ann. N.Y. Acad. Sci., 98, 385-400.
• [2] Somogyi J. C., Trautner K., Vitamine, Vol. 3 (eds.: R. Ammon, W. Dirscherl), Thieme, Stuttgart 1974, 10-138.
• [3] Truchliński J., 1997, Antywitaminy jako substancje naturalne pożywienia oraz jako ksenobiotyki, Medycyna Weterynaryjna, 53, 490-493.
• [4] Mellanby E., 1926, The presence in foodstuffs of substances having specific harmful effects under certain conditions, J. Physiol., 61, XXIV-XXV.
• [5] Bruce H. M., Callow R. K., 1934, Cereals and rickets. The role of inositolhexaphosphoric acid, Biochem. J., 28, 517-528.
• [6] Harrison D. C., Mellanby E., 1939, Phytic acid and the rickets- -producing action of cereals, Biochem. J., 33, 1660-1680.
• [7] Woolley D. W., Strong F. M., Madden R. J., Elvehjem C. A., 1938, Anti-blacktongue activity of various pyridine derivatives, J. Biol. Chem., 124, 715-723.
• [8] McIlwain H., 1940, Pyridine-3-sulphonic acid and its amide as inhibitors of bacterial growth, Brit J. Exp. Path., 21, 136-147.
• [9] Snell E. E., 1941, A specific growth inhibition reversed by pantothenic acid., J. Biol. Chem., 139, 975-976.
• [10] Woolley D. W., 1945, Production of nicotinic acid deficiency with 3-acetylpyridine, the ketone analogue of nicotinic acid, J. Biol. Chem., 157, 455-459.
• [11] Woods R., 1947, Antivitamins, Am. J. Dig. Dis., 14, 40-44.
• [12] Woolley D. W., White A. G., 1943, Production of a thiamine deficiency disease by the feeding of a pyridine analogue of thiamine, J. Biol. Chem., 149, 285-289.
• [13] Woolley D. W., White A. G., 1943, Selective reversible inhibition of microbial growth with pyrithiamine, J. Exp. Med., 78, 489-497.
• [14] Boros L. G., Puigjaner J., Cascante M., Lee W. N., Brandes J. L., Bassilian S., Yusuf F. I., Williams R. D., Muscarella P., Melvin W. S., Schirmer W. J., 1997, Oxythiamine and dehydroepiandrosterone inhibit the nonoxidative synthesis of ribose and tumor cell proliferation, Cancer Res., 57, 4242-4248.
• [15] Woolley D. W., Krampitz L. O., 1943, Production of a scurvy- like condition by feeding of a compound structurally related to ascorbic acid, J. Exp. Med., 78, 333-339.
• [16] Mueller J. F., Vilter R. W., 1950, Pyridoxine deficiency in human beings induced with desoxypyridoxine, J. Clin. Invest., 29, 193-201.
• [17] Zelder F., Sonnay M., Prieto L., 2015, Antivitamins for medicinal applications, ChemBioChem, 16, 1264-1278.
• [18] Domagk G., 1935, Ein Beitrag zur Chemotherapie der Bakteriellen Infektionen, Angew. Chem., 48, 657-667.
• [19] McIlwain, H. , Hawking F., 1943, Chemotherapy by blocking bacterial nutrients, Anti-streptococcal activity of pantoyltaurine, Lancet, 1, 449-451.
• [20] Woolley D. W., Collyer M. L., 1945, Phenyl pantothenone, an antagonist of pantothenic acid, J. Biol. Chem., 159, 263-271.
• [21] Tee Horst W. P., Felix E. L., 1943, 2,3-Dichloro-1,4-naphthoquinone, Ind. and Eng. Chem., 35, 1255-1259.
• [22] Drews J., 2000, Drug discovery: a historical perspective, Science, 287, 1960-1964.
• [23] Agyei-Owusu K., Leeper F. J., 2009, Thiamin diphosphate in biological chemistry: analogues of thiamin diphosphate in studies of enzymes and riboswitches, FEBS J., 276, 2905-2916.
• [24] Ruff M. D., Garcia R., Chute M. B., Tamas T., 1993, Effect of amprolium on production, sporulation, and infectivity of Eimeria oocysts, Avian Dis., 37, 988-992.
• [25] McCourt J. A., Pang S. S., King-Scott J., Guddat L. W., Duggleby R. G., 2006, Herbicide-binding sites revealed in the structure of plant acetohydroxyacid synthase, Proc. Natl. Acad. Sci. USA, 103, 569-573.
• [26] Mueller C., Schwender J., Zeidler J., Lichtenthaler H. K., 2000, Properties and inhibition of the first two enzymes of the non-mevalonate pathway of isoprenoid biosynthesis, Biochem. Soc. Trans., 28, 792-793.
• [27] Zelder F., 2015, Recent trends in the development of vitamin B12 derivatives for medicinal applications, Chem. Commun. 51, 14004-14017.
• [28] Bocobza S. E., Aharoni A., 2008, Switching the light on plant riboswitches, Trends Plant Sci., 13, 526-533.
• [29] Pieczyński M., Bielewicz D., Dolata J., Szweykowska-Kulińska Z., 2010, Zastosowanie cząsteczek RNA w modelowaniu ekspresji wybranych genów, Biotechnologia, 3, 7-28.
• [30] Bugała K., Żywicki M., Wyszko E., Barciszewska M. Z., Barciszewski J., 2005, Przełączniki RNA, Postępy Biochemii, 51, 111-119.
• [31] Klug G., 2014, Beyond catalysis: vitamin B12 as a cofactor in gene regulation, Mol. Microbiol., 91, 635-640.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).