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Molecular Microbiology Research (Online) 2013, Vol.3 No.3 20-29
ISSN 1027-5595
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oxysporium
f. sp. pisi and
Pythium ultimum
, Journal of Phytopathology,
86: 114-128
Chen C., Belanger R.R., Benhamor N., and Paulitz, T., 2000, Defense
enzymes induced in cucumber roots by treatment with Plant growth
promoting rhizobacteria (PGPR) and
Pythium aphanidermatum
,
Physiological and Molecular Plant pathology, 56: 13-23
http://dx.doi.org/10.1006/pmpp.1999.0243
Cherif M., Arfaoui A., and Rhaiem A., 2007, Phenolic compounds and their
role in bio-control and resistance of chickpea to fungal pathogenic
attacks, Tunisian Journal of Plant Protection, 2: 7-21
Dickerson D.P., Pascholati S.F., Hagerman A.E., Butler L.G., and Niholson
R.L., 1984, Phenylalanine ammonia lyase and hydroxyl cinnamate:
CoA ligase in maize mesocotyls inoculated with
Helminthosporium
maydis
or
Helminthosporium carbonum
, Physiological and Molecular
Plant pathology, 25: 111-123
Giannospolitis C.N., and Ries, S.K., 1977, Superoxide dismutase, Plant
physiology, 59: 309-314
Gomez K.A., and Gomez, A.A., 1984, Statistical procedures for Agricultural
Research, John Wiley and Sons, New York, pp.680
Govindappa M., Lokesh S., Ravishankar Rai V., Rudra Naik V., and Raju
S.G., 2010, Induction of systemic resistance and management of
safflower
Macrophomina phaseolina
root - rot disease by biocontrol
agents, Archives of Phytopathology and Plant Protection, 43(1): 26-40
http://dx.doi.org/10.1080/03235400701652227
Grant J.J., and Loake G.J., 2000, Role of reactive oxygen intermediates and
cognate redox signaling in disease resistance, Plant physiology, 124:
21-29
http://dx.doi.org/10.1104/pp.124.1.21
PMid:10982418 PMCid:PMC1539275
Hammerschmidt R., and Kuc J.A., 1982, Lignification as a mechanism for
induced systemic resistance in cucumber. Physiological and Molecular
Plant pathology, 20: 61-71
Harish S., 2005, Molecular biology and diagnosis of
Banana bunchy
top
virus and its management through induced systemic resistance.
Ph.D.(Ag.,)Thesis, TNAU, Coimbatore-3, India. pp.126
Jayaraman K.S., Ramanuja M.N., Vijayaraghavan P.K., and Vaidyanathan
C.S., 1984, Oxidative enzyme in pearl millet, Food Chemistry, 24: 203
http://dx.doi.org/10.1016/0308-8146(87)90152-X
Karthikeyan G., Doraisamy S., and Rabindran, R., 2009,
Pseudomonas
fluorescens
mediated systemic resistance against Urdbean leaf crinkle
virus in blackgram (Vigna mungo), Archives of Phytopathology and
Plant Protection, 42(3): 201-212
http://dx.doi.org/10.1080/03235400600982519
Kavitha K., Mathiyazhagan S., Sendhilvel V., Nakkeeran S., Chandrasekar
G., and Dilantha Fernando W.G., 2005, Broad spectrum action of
phenazine against active and dormant structures of fungal pathogens
and root knot nematode, Archives of phytopathology and plant
protection, 38(1): 69-76
Mathiyazhagan S., Kavithaa, K., Nakkeeran, S., Chandrasekara, G.,
Manianb K., Renukadevi P., Krishnamoorthy A.S., and Fernandoc,
W.G.D. 2009., PGPR mediated management of stem blight of
Phyllanthus amaranthus
(schum and thonn) Caused by
Corynespora
cassiicola
(berk and curt) wei, Archives of Phytopathology and Plant
Protection, 37: 183-199
http://dx.doi.org/10.1080/03235400410001730658
Maurhofer M., Hase C., Meucoly P., Metraux J.P., and Defago G., 1994,
Induction of systemic resistance of tobacco necrosis virus by the
root-colonizing
Pseudomonas fluorescens
strain CHAO Influence of
the
gac
, a gene and of pyoverdine production, Phytopathology, 84: 139-146
http://dx.doi.org/10.1094/Phyto-84-139
Mayer A.M., Harel E., and Shaul, R.B., 1965, Assay of catechol oxidase, a
critical comparison of methods, Phytochemistry, 5: 783-789
http://dx.doi.org/10.1016/S0031-9422(00)83660-2
Meena B., Ramomoorthy V., Marimuthu T., and Velazhahan R., 2000,
Pseudomonas fluorescens
systemic resistance against late leaf spot of
groundnut. Journal of Mycological Plant Pathology, 30(2): 151-158
Orozco - Cardenas M.L., Narvaez -Vasquez J., and Ryan C.A., 2001,
Hydrogen peroxide acts as a second messenger for the induction of
defense genes in tomato plants in response to wounding, systemin, and
methyl jasmonate, Plant Cell, 13: 179-191
http://dx.doi.org/10.2307/3871162
http://dx.doi.org/10.1105/tpc.13.1.179
PMid:11158538 PMCid:PMC102208
Paramathma M., Venkatachalam P., Sampathrajan A., Vairavan K., Jude
Sudhagar R., Parthiban K.T., Subramanian P., and Kulanthaisamy P.,
2006, Cultivation of Jatropha and biodiesel production. Sri Sakthi
Promotional Litho Process, Coimbatore, India, pp.40
Radjacommare R., Ramanathan A., Kandan A., Harish S., Thambidurai G.,
Sible G.V., Ragupathi T., and Samiyappan, R., 2004, PGPR mediates
induction of pathogensis related proteins (PR) against the infection of
blast pathogen in resistant and susceptible ragi (
Eleusine coracana
(L.).
Gaertner) cultivars, Plant pathology, 3: 106-111
Ramamoorthy V., Reguchender T., and Samiyappan R., 2002, Induction of
defense related proteins in tomato roots treated with
Pseudomonas
fluorescens
Pf1 and Fusarium oxysporum f.sp. Lycopersici, Plant soil,
239: 55-68
http://dx.doi.org/10.1023/A:1014904815352
Rangaswami G., 1972, Disease of crop plants in India, Prentice Hall of India
(Pvt). Ltd., New Delhi, pp.505
Scandalios J.G., 1994, Regulation and properties of plant catalases. In
Causes of photo- oxidative stress and amelioration of defense systems
in plants, The American Phytopathological Society, 20: 697-706
Sindhu J.S., Ravi S., and Minocha J.L., 1984, Peroxidases isozyme patterns
in primary trisomics of pearl millet, Theoretical Applied Genetics, 68:
179-182
Thaler J.S., Stout M.J., Karban R., and Duffey S.S., 1996, Exogenous
jasmonates stimulates stimulate insect wounding in tomato plants,
Lycopersicon esculentum
, in the laboratory and field, J. Chemistry and
Ecology, 22: 1767-1781
http://dx.doi.org/10.1007/BF02028503
PMid:24227107
Van Loon L.C., 1997, Induced resistance in plants and the role of
pathogenesis related proteins, European Journal of Plant Pathology,
103: 753-765
http://dx.doi.org/10.1023/A:1008638109140
Viswanathan R., and Samiyappan R., 1999, Induction of systemic resistance
by plant growth-promoting rhizobacteria against red rot disease in