Full Length Research Paper
References
Azevedo RA, Alas RM, Smith RJ, Lea PJ (1998). Response of antioxidant enzymes to transfer from elevated carbon dioxide to air and ozone fumigation, in the leaves and roots of wild-type and a catalase-deficient mutant of barley. Physiol. Plant. 104:280-292. |
|
Beauchamp CH, Fridovich I (1971). Superoxide dismutase: Improved assays and an assay applicable to acrylamide gels. Anal. Biochem. 44:276-287. |
|
Benhamou N, Rey P, Cherif M, Hockenhull J, Tily Y (1997). Treatment with mycoparasite Pythium olingandrum triggers induction of defense related reaction in tomato roots when challenged with Fusarium oxysporum f. sp. lycopersici. Phytopathol. 87:108-122. |
|
Chaparro–Giraldo A, Barata RM, Chabregas SM, Azevedo RA, Silva–Filho MC (2000). Soybean leghemoglobin targeted to potato chloroplasts influences growth and development of transgenic plants. Plant Cell Rep.19:961-965. |
|
Chen C, Belanger RR, Benhamou N, Paulitz TC (2000). Defense enzymes induced in cucumber roots by treatment with plant growth-promoting rhizobacteria (PGPR) and Pythium aphanidermatum. Physiol. Mol. Plant Pathol. 56:13-23. |
|
Choudhari SS, Solanke, NS, Kareppa, BM (2012). Integrated management of root rot disease of mulberry caused by Fusarium solani. Multilogic Sci. 2:135-139. |
|
Dennis C, Webster J (1971). Antagonist properties of species group of Trichoderma. I. Production of non-volatile antibiotics. Trans. Br. Mycol. Soc. 57:25-39. |
|
Dickerson DP, Pascholati SF, Hagerman AE, Butler LG, Niholson RL (1984). Phenylalanine ammonia lyase and hydroxyl cinnamate: CoA ligase in maize mesocotyls inoculated with Helminthosporium maydis or Helminthosporium carbonum. Physiol. Plant Pathol. 25:111-123. |
|
Giannospolitis CN, Ries SK (1977). Superoxide dismutase. Plant Physiol. 59:309-314. |
|
Hammerschmidt R, Kuc JA (1982). Lignification as a mechanism for induced systemic resistance in cucumber. Physiol. Plant Pathol. 20:61-71. |
|
Jayaraman KS, Ramanuja MN, Vijayaraghavan PK, Vaidyanathan CS (1984). Oxidative enzyme in pearl millet. Food Chem. 24:203-207. |
|
Jones JD, Dangl JL (2006). The plant immune system. Nature 444:323-329. |
|
Kashyap PL, Dhiman JS (2009). Induction of resistance in cauliflower against Alternariablight using potassium and phosphonic salts. Asian Aust. J. Pl. Sci. Biotechnol. 3:66-70. |
|
Laemmli UK (1970). Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature 227:680-685. |
|
Manikandan R, Raguchander T (2014). Fusarium oxysporum f. sp. lycopersici retardation through induction of defensive response in tomato plants using a liquid formulation of Pseudomonas fluorescens (Pf1). Euro. J. Plant Pathol. 140:469-480. |
|
Mayer AM, Harel E, Shaul RB (1965). Assay of catechol oxidase, a critical comparison of methods. Phytochemistry 5:783-789. |
|
Nawrocka J, Snochowska M, Gajewska E, Pietrowska E, Szczech M, Małolepsza U (2011). Activation of defense responses in cucumber and tomato plants by selected polish Trichoderma strains. Veg. Crops Res. Bull. 75:105-116. |
|
Misato T, Yamayuchi I (1972). Environmental toxicology of pesticides. Elsevier Inc., Pennsylvania, USA. 587 p. |
|
Parthasarathy S, Jaiganesh V, Rajalakshmi J, Priyanka R, Venkatesh A (2015). Implication of induced systemic resistance in blackgram (Vignamungo (L.) Hepper) by plant activator compounds. Adv. Appl. Res. 7:1-5. |
|
Pramer D, Schmidt EL (1956). Experimental Soil Microbiology, Buffer Publ. Co., Minneapolis, USA. 107 p. |
|
Ramamoorthy V, Samiyappan R (2001). Induction of defense-related genes in Pseudomonas fluorescens treated chilli plants in response to infection by Colletotrichum capsici. J. Mycol. Plant Pathol. 31:146-155. |
|
Ramamoorthy V, Viswanathan R, Raguchander T, Prakasam V, Samiyappan R (2001). Induction of systemic resistance by plant growth promoting rhizobacteria in crop plants against pests and diseases. Crop Prot. 20:1-11. |
|
Saikia R, Singh BP, Kumar R, Arora DK (2005). Detection of pathogenesis-related proteins chitinase and β-1,3-glucanase in induced chickpea. Curr. Sci. 89:659-663. |
|
Sriram S, Manasa SB, Savitha MJ (2009). Potential use of elicitors from Trichoderma in induced systemic resistance for the management of Phytophthora capsici in red pepper. Biol. Control. 23:449-456. |
|
Siddaramaiah AL, Hegde RK (1990). A new root rot, bud and leaf blight of mulberry seedlings from India. Indian J. Seric. 27(2):161-168. |
|
Sindhu JS, Ravi S, Minocha JL (1984). Peroxidases isozyme patterns in primary trisomics of pearl millet. Theor. Appl. Genet. 68:179-182. |
|
Sundaramoorthy S, Karthiba L, Raguchander T, Samiyappan S (2013). Ecofriendly approaches for potential microbial bioagents in management of sheath rot disease in rice caused by Sarocladium oryzae (Sawada). Plant Pathol. J. 12:98-103. |
|
Thilagavathi R, Saravanakumar D, Ragupathy N, Samiyappan R (2007). Integration of biological control for the management of dry root rot (Macrophomina phaseolina) disease in green gram. Phytopathol. Mediterr. 46:157-167. |
|
Van Loon LC, Bakker PAHM, Van der Heijdt WHW, Wendehenne D, Pugin A (2008). Earlyresponses of tobacco suspension cells to rhizobacterial elicitors of induced systemic resistance. Mol. Plant Microbe Int. 21:1609-1621. |
|
Vera-Estrell R, Blumwald E, Higgins VJ (1993). Non – specific glycopeptide elicitors of Cladosporium fulvum: Evidence for involvement of active oxygen species in elicitor induced effects on tomato cell suspensions. Physiol. Mol. Plant Pathol. 42:9-22. |
|
Vinale F, Sivasithamparam K, Ghisalberti EL, Marra R, Woo SL, Wafaa M, Haggag SA, Abo-Sedera (2005). Characteristics of three Trichoderma species in peanut haulms compost involved in biocontrol of cumin wilt disease. Int. J. Agric. Biol. 15:123-127. |
|
Vitoria AP, Lea PJ, Azevedo RA (2001). Antioxidant enzymes responses to cadmium in radish tissues. Phytochemistry 57:710-710. |
|
Welinder KG (1992). Superfamily of plant, fungal and bacterial peroxidases. Curr. Opin. Struc. Biol. 2:388-393. |
|
Zieslin N, Ben-Zaken R (1993). Peroxidase activity and presence of phenolic substances in peduncles of rose flowers. Plant Physiol. Biochem. 31:333-339. |
Copyright © 2024 Author(s) retain the copyright of this article.
This article is published under the terms of the Creative Commons Attribution License 4.0