References

References
Cohen, Y., Gisi, U. & Niderman, T. (1993). Local and systemic protection against Phytophthora infestans induced in pota- to and tomato plants by jasmonic acid and jasmonic acid methylester. Phytopathology, 83, 1054-1062.
Cohen
1054
83
Phytopathology
1993
Kansas State University Research and Extension Horticulture. (1997). Problem: tobacco mosaic virus of tomato. [Online] Available http://www.oznet.ksu.edu/- dp_hfrr/extensn/problems/to-mtotmv.htm.
Laxalt, A.M., Cassia, R.O., Sanllorenti, P.M., Madrid, E.A., Andreu, A.B., Daleo, G.R., Conde, R.D. & Lamattina, L. (1996). Accumulation of cytosolic glyceraldehyde-3-phos- phate dehydrogenase RNA under biological stress condi- tions and elicitor treatments in potato. Plant Molecular Biology, 30, 961-972.
Laxalt
961
30
Plant Molecular Biology
1996
Lyon, G.D., Newton, A.C. & Reglinski, T. (1991). A novel sys- tem for controlling plant disease. SCRI Annual Report for 1990: 68-69.
Lyon
68
1990
SCRI Annual Report for
1991
Lyon, G.D. (1999). Plant/pathogen interactions at the cellu- lar level. [Online] Available http://www.scri.sari.ac.uk/TiPP/celltxt.htm.
Lyon, G.D. & Newton, A.C. (2000). Induced plant disease resistance. [Online] Available http://www.scri.sari.ac.uk/TiPP/yeast2.htm.
McDaniel, L., Maratos, M. & Farabaugh,J. (1998). Infection of plants by tobacco mosaic virus. The American Biology Teacher, 60, 434-439
McDaniel
434
60
The American Biology Teacher
1998
National Research Council. (1996). National Science Education Standards. Washington, DC: National Academy Press.
National Research Council
National Science Education Standards
1996
Purdue University Center for New Crops & Plant Products. (1999). Bean (common). [Online] Available http://new- crop.hort.purdue.edu/newcrop/Crops/BeanCommon.html.
Purdue University Center for New Crops & Plant Products. (1998). Phaseolus vulgaris L. [Online] Available http://- newcrop.hort.purdue.edu/newcrop/duke_energy/Phaseolus- _vulgaris.html.
Reglinski, T., Lyon, G.D. & Newton, A.C. (1994). Induction of resistance mechanisms in barley by yeast-derived elici- tors. Annals of Applied Biology, 124, 509-517.
Reglinski
509
124
Annals of Applied Biology
1994
Reglinski, T., Lyon, G.D. & Newton, A.C. (1995). The control of Botrytis cinerea and Rhizoctonia solani on lettuce usiIng elicitors extracted from yeast cell walls. Journal of Plant Diseases and Protection, 102, 257-266.
Reglinski
257
102
Journal of Plant Diseases and Protection
1995
Research School of Biological Sciences. (1998). 71.0.1.0.001 tobacco mosaic virus. [Online] Available http://www.res.- bbsrc.ac.uk/mirror/auz/ICTVdB/71010001.htm.
University of Wisconsin. (1990). Alternative field crops man- ual - fieldbean. [Online] Available http://Newcrop.- hort.purdue.edu/newcrop/afcm/fieldbean.html.
Vidal, S., de Leon, I.P., Denecke, J. & Palva, E.T. (1997). Salicylic acid and the plant pathogen Erwinia carotovora induce defense genes via antagonistic pathways. The Plant Journal, 11, 115-123.
Vidal
115
11
The Plant Journal
1997
Xiong, Z. (2000). Interactions between plant genes and viral genes I. genes and mechanisms of plant resistance. [Online] Available http://Ag.Arizona.edu/~zxiong/- plp611/lect19.html.
Zehnder, G.W., Changbin, Y., Murphy, J.F., Sikora, E.J., Kloepper, J.W., Schuster, D.J. & Polston, J.E. (1998). Microbe-induced resistance: a novel strategy for control of insect-transmitted diseases in vegetables. [Online] Available http://www.ipmworld.umn.edu/chapters/zehn- der.htm.
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