Generally, ethylene is an essential

Generally, ethylene is an essential metabolite for the normal growth and development of plants (Khalid et al. 2006). This plant growth hormone is produced endogenously by approximately all plants and is also produced by different biotic and abiotic processes in soils and is important in inducing multifarious physiological changes in plants. Apart from being a plant growth regulator, ethylene has also been established as a stress hormone (Saleem et al., 2007). Under stress conditions like those generated by salinity, drought, water logging, heavy metals and pathogenicity, the endogenous level of ethylene is significantly increased which negatively affects the overall plant
growth. For instance, the high concentration of ethylene induces defoliation and other cellular processes that may lead to reduced crop performance (Saleem et al., 2007; Bhattacharyya and Jha, 2012). Plant growth promoting rhizobacteria which possess the enzyme, 1-aminocyclopropane-1-carboxylate (ACC) deaminase, facilitate plant growth and development by decreasing ethylene levels, inducing salt tolerance and reducing drought stress in plants (Nadeem et al., 2007; Zahir et al., 2008). Currently, bacterial strains exhibiting ACC deaminase activity have been identified in a wide range of genera
such as Acinetobacter, Achromobacter, Agrobacterium, Alcaligenes, Azospirillum, Bacillus, Burkholderia, Enterobacter, Pseudomonas, Ralstonia, Serratia and Rhizobium etc.(Shaharoona et al., 2007a,b; Nadeem et al., 2007; Zahir et al., 2008; Zahir et al., 2009; Kang et al., 2010). Such rhizobacteria take up the ethylene precursor ACC and convert it into 2-oxobutanoate and NH3 (Arshad et al., 2007) (Fig. 6). Several forms of stress are relieved by ACC deaminase producers,such as effects of phytopathogenic microorganisms(viruses, bacteria, and fungi etc.), and resistance to stress from
polyaromatic hydrocarbons, heavy metals, radiation, wounding,insect predation, high salt concentration, draft, extremes of temperature, high light intensity, and flooding (Glick, 2012; Lugtenberg and Kamilova, 2009). As a result, the major noticeable effects of seed/ root inoculation with ACC deaminase-producing rhizobacteria are the plant root elongation,promotion of shoot growth, and enhancement in rhizobial nodulation and N, P and K uptake as well as mycorrhizal colonization in various crops (Nadeem et al., 2007; Shaharoona et al., 2008; Nadeem et al., 2009; Glick, 2012).