Proc Aust Soc Sugar Cane Technol 1999, 21:79–86. 28. Whipps JM: Microbial interactions and biocontrol in the rhizosphere. J Exp Bot 2001, 52:487–511.PubMedCrossRef 29. Gómez-Luna CBL0137 in vitro BE, De la Luz Ruiz-Aguilar GM, VázquezCilengitide -Marrufo G, Dendooven L, Olalde-Portugal V: Enzyme activities and metabolic profiles of soil microorganisms at KILN sites in Quercus spp. temperate forests of central Mexico. Appl Soil Ecol 2012, 52:48–55.CrossRef 30. Puglisi E, Del Re AAM, Rao MA, Gianfreda L: Development and validation of numerical indexes integrating enzyme
activities of soils. Soil Biol Biochem 2006, 38:1673–1681.CrossRef 31. Gomez E, Garland J, Conti M: Reproducibility in the response of soil bacterial community-level physiological profiles from a land use intensification gradient. Appl Soil Ecol 2004, 26:21–30.CrossRef 32. Papatheodorou EM, Efthimiadou E, Stamou GP: Functional diversity of soil bacteria as affected by management practices
and phenological Pevonedistat manufacturer stage of Phaseolus vulgaris . Eur J Soil Biol 2008, 44:429–436.CrossRef 33. Preston-Mafham J, Boddy L, Randerson PF: Analysis of microbial community functional diversity using sole-carbonsource utilization profiles – a critique. FEMS Microb Ecol 2002, 42:1–14. 34. Singh G, Mukerji KG: Root Exudates as determinant of rhizospheric microbial biodiversity. In Microbial activity in the rhizosphere. Volume 7. Edited by: Mukerji KG, Manoharachary C, Singh J. Berlin: Springer; 2006:39–53.CrossRef 35. Hadacek F, Gunther FF: Plant root carbohydrates affect growth behaviour of endophytic microfungi. FEMS Microbiol Ecol 2002, 41:161–170.PubMedCrossRef 36. Foyer CH, Mullineaux PM: Causes of photooxidative stres and amelioration of defense dystems in Plants. Boca Raton: CRC Press; 1994. 37. Baker CJ, Orlandi EW: Active oxygen in plant pathogenesis.
Annu Rev Phytopathol 1995, 33:299–321.PubMedCrossRef 38. Härndahl U, Hall RB, Osteryoung KW, Vierling E, Bornman JF, Sundby C: The chloroplast small Nabilone heat shock protein undergoes oxidation-dependent conformational changes and may protect plants from oxidative stress. Cell Stress Chaperon 1999, 4:129–138.CrossRef 39. Groom QJ, Torres MA, Fordham-Skelton AP, Hammond-Kosack KE, Robinson NJ, Jones JD: rbohA, a rice homologue of the mammalian gp91phox respiratory burst oxidase gene. Plant J 1996, 10:515–522.PubMedCrossRef 40. Jelenska J, van Hal JA, Greenberg JT: Pseudomonas syringae hijacks plant stress chaperone machinery for virulence. PNAS 2010, 107:13177–13182.PubMedCrossRef 41. Walden AR, Walter C, Gardner RC: Genes expressed in pinus radiata male cones include homologs to anther-specific and pathogenesis response genes. Plant Physiol 1999, 121:1103–1116.PubMedCrossRef 42. Pontier D, Godiard L, Marco Y, Roby D: hsr203J, a tobacco gene whose activation is rapid, highly localized and specific for incompatible plant/pathogen interactions. Plant J 1994, 5:507–521.PubMedCrossRef 43.