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Dehydrogenase in a flacca Tomato Mutant with Deficient Abscisic Acid and<br />
Wilty Phenotype. // Plant Physiology. 1999. - №120. – P. 571–577.<br />
131 Mendel R. Biology of the molybdenum cofactor. // Journal of Experimental<br />
Botany. 2007. - №58. – P.2289 - 2296.<br />
132 Weir R. Molybdenum Deficiency in Plants. // Agfact AC 4, second edition<br />
1984.<br />
133 Stout P., Meagher W., Pearson G., Johnson C. Molybdenum nutrition of crop<br />
plants. I. The influence of phosphate and sulfate on the absorption of<br />
molybdenum from soils and solution cultures. // Plant and Soil. 1951. - №1. –<br />
P. 51–87.<br />
134 Nguyen J. Plant xanthine dehydrogenase: its distribution, properties and<br />
function. // Physiol. Veg. 1986. №24. – P. 163-281.<br />
135 Zdunek-Zastocka E., Lips H. Plant molybdoenzymes and their response to<br />
stress. //Acta Physiologiae Plantarum, 2003. - №25. – P. 437-452.<br />
136 Yesbergenova Z., Yang G., Oron E., Soffer D., Fluhr R., Sagi M. The plant<br />
Mo-hydroxylases aldehyde oxidase and xanthine dehydrogenase have distinct<br />
reactive oxygen species signatures and are induced by drought and abscisic<br />
acid. // The Plant Journal. 2005. - №42. – P. 862–876.<br />
137 Barabas N., Omarov R., Erdei L., Lips H. Distribution of the Mo-enzymes<br />
aldehyde oxidase, xanthine dehydrogenase and nitrate reductase in maize<br />
(Zea mays L.) nodal roots as affected by nitrogen and salinity. // Plant Sci.<br />
2000. - №155. – Р. 49- 58.<br />
138 Koshiba T., Saito E., Ono N., Yamamoto N., Sato M. Purification and<br />
properties of flavin- and molybdenum-containing aldehyde oxidase from<br />
coleoptiles of maize. // Plant Physiology. 1996. - №110. – Р. 781–789.<br />
139 Sekimoto H., Seo M., Dohmae N., Takio K., Kamiya Y., Koshiba T. Cloning<br />
and molecular characterization of plant aldehyde oxidase. // The Journal of<br />
Biological Chemistry. 1997. - №272. – Р. 15280 - 15285.<br />
140 Ori N., Eshed Y., Pinto P., Paran I., Zamir D., Fluhr R. TAO1, a<br />
representative of the molybdenum cofactor containing hydroxylases from<br />
tomato. // Journal of Biological Chemistry. 1997. - №272. – Р. 1019- 1025.<br />
141 Seo M., Akaba Sh., Oritani T., Delarue M., Bellini C., Caboche M., Koshiba<br />
T. Higher activity of an aldehyde oxidase inthe auxin-overproducing<br />
superroot1 mutant of Arabidopsis thaliana. // Plant Physiology. 1998. -<br />
№116. – Р. 687- 693.<br />
142 Milborrow B.V., Burden R.S., Taylor H.F. The conversion of 2-cis-[14C]<br />
xanthoxic acid into [14C].ABA. // Phytochemistry. 1997. - №45. – Р. 257-<br />
260.<br />
143 Ralf R., Mendel., Robert Hansch. Molybdoenzymes and molybdenum<br />
cofactor in plants. // Journal of Experimental Botany. 2002. - №53. – Р. 1689-<br />
1698.<br />
144 Carter J., Saunders V. Virology. School of Biomolecular sciences, Liverpool<br />
John Moores University.UK. 2007.<br />
145 Yamamura Y., Scholthof H.B. Pathogen profile: Tomato bushy stunt virus: A<br />
97