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Relevant Stoller Patents<br />
Issued:<br />
Amine chemistry and micronutrients<br />
Amine chemistry and boron<br />
Chemistry and use of ReZist (SAR) for disease resistance and<br />
enhancement of root growth<br />
Use of amine nitrogen and calcium to inhibit diseases<br />
Bibliography<br />
1. Abeles, F.B., P.W. Morgan, and M.E.J. Saltveit, Ethylene in <strong>Plant</strong><br />
Biology. 2nd ed. 1992, San Diego, CA: Academic Press.<br />
2. Davies, P.J., <strong>Plant</strong> Hormones. 2nd ed. 1995, Dordrecht: Kluwer<br />
Academic Publishers.<br />
3. Díaz, J., A.t. Have, and J.A.L.v. Kan, The Role of Ethylene and<br />
Wound Signaling in Resistance of Tomato to Botrytis cineria. <strong>Plant</strong><br />
Physiol., 2002. 129: p. 1341-1351.<br />
4. Forde, B.G., The role of long-distance signalling in plant responses to<br />
nitrate and other nutrients. J. Exp. Bot., 2002. 53(366): p. 39-43.<br />
5. Fosket, D.E., <strong>Plant</strong> Growth and Development, a Molecular Approach.<br />
1994, San Diego: Academic Press.<br />
6. Hansen, H. and K. Grossmann, Auxin-Induced Ethylene Triggers<br />
Abscisic Acid Biosynthesis and Growth Inhibition. <strong>Plant</strong> Physiol.,<br />
2000. 124: p. 1437-1448.<br />
7. Odjakova, M. and C. Hadjiivanova, The Complexity of Pathogen<br />
Defense in <strong>Plant</strong>s. Bulg. J. <strong>Plant</strong> Physiol., 2001. 27(1-2): p. 101-109.<br />
8. Sakakibara, H., Nitrate-specific and cytokinin-mediated nitrogen<br />
signaling pathways in plants. J. <strong>Plant</strong> Res., 2003. 116(3):<br />
p. 253-257.<br />
9. Wingler, A., et al., Regulation of Leaf Senscence by Cytokinin,<br />
Sugars, and Light. <strong>Plant</strong> Physiol., 1998. 116: p. 329-335.<br />
10. Takei, K., et al., Multiple routes communicating nitrogen availability<br />
from roots to shoots: a signal transduction pathway mediated by<br />
cytokinin. J. Exp. Bot., 2002. 53(370): p. 971-977.<br />
Pending:<br />
4001 W. Sam Houston Pkwy, N. Suite 100<br />
Houston, TX 77043<br />
713.461.1493<br />
1.800.539.5283<br />
www.stollerusa.com<br />
Use of plant hormones for insect and disease resistance<br />
© Copyright 2009 by StollerUSA. Duplication in any form without written permission is unlawful.<br />
Use of plant hormones applied to the roots of plants to manipulate<br />
and enhance physiological growth characteristics<br />
11. Snyder, C. and B. Thompson, Efficient Fertilizer Use. 2003.<br />
p. website.<br />
12. Essential Nutrients in <strong>Plant</strong>s.<br />
13. Trace Element Supplements.<br />
14. Marschner, H., Mineral Nutrition of Higher <strong>Plant</strong>s. 2nd ed. 1995:<br />
Harcourt Publishers Ltd. 912.<br />
15. Chen, S.-x. and P. Schopfer, Hydroxyl-radical production in physio<br />
logical reaction. Eur. J. Biochem., 1999. 260: p. 726-735.<br />
16. Olsen, A., et al., N(6)-Furfuryladenine, kinetin, protects against<br />
Fenton reaction-mediated oxidative damage to DNA. Biochem.<br />
Biophys. Res. Commun., 1999. 265(2): p. 499-502.<br />
17. Jiang, M. and J. Zhang, Role of abscissic acid in water stress-induced<br />
antioxidant defense in leaves of maize seedlings. Free Radic. Res.,<br />
2002. 36(9): p. 1001-1015.<br />
18. Price, A.H., N.M. Atherton, and G.A. Hendry, <strong>Plant</strong>s under droughtstress<br />
generate activated oxygen. Free Radic. Res. Commun., 1989.<br />
8(1): p. 61-66.<br />
19. Davies, K.J., Oxidative stress: the paradox of aerobic life. Biochem.<br />
Soc. Symp., 1995. 61: p. 1-31.<br />
20. Vranova´, E., D. Inze´, and F. Van Breusegem, Signal transduction<br />
during oxidative stress. J. Exp. Bot., 2002. 53(372): p. 1227-1236.<br />
21. Dean, F.W., Fertilizer Compositions Including Chelated Metal Ions.<br />
1999, Stoller Enterprises, Inc.: US.<br />
6386-1