1. IntroductionBacillus thuringiens

1. Introduction

Bacillus thuringiensis (Bt), is a species of Gram positive, crystal- liferous, sporulating soil bacterium of the family Bacillaceae (Saadaoui et al., 2010). The parasporal crystal (Cry and Cyt) proteins of Bt show specific insecticidal activity against insects belonging to the orders Coleoptera, Diptera, Lepidoptera, Homo- ptera, Hymenoptera and Mallophaga (as well as some inverte- brates) but are benevolent to the environment (Schnepf et al.,
1998; Li and Bouwer, 2012; Elleuch et al., 2015; Neethu et al.,
2015). Commercial Bt based bioinsecticides used worldwide are applied at 10–50 g/acre or about 1020 molecules/acre, while chem- ical pesticides such as organophosphates and pyrethroids are applied about 8 1024 molecules/acre and 3 1022 molecules/ acre respectively. Thus, molecular potency of these toxins is
80,000 times better than organophosphates and 300 times greater than synthetic pyrethroids (Feitelson et al., 1992). Ever since the cloning of first cry gene (cry1Aa) from B. thuringiensis spp. kurstaki HD-1 (Schnepf and Whiteley, 1981), 304 such cry holotypes protein genes have been reported (Crickmore et al., 2016; 15th

⇑ Corresponding author.
E-mail address: iarulselvibiotech@gmail.com (P.I. Arulselvi).

December 2016, http://www.btnomenclature.info/). These insecti- cidal crystal protein genes are the chief resources for production of insect-resistant transgenic plants (Romeis et al., 2006). Genetically engineered crops that produce insecticidal proteins of Bt for the control of pests have been planted on greater than 560 million hec- tares worldwide since 1996 (James, 2013). However there have been some tribulations with this approach, for instance narrow insecticidal range and evolution of insect resistance (Sumerford et al., 2012; Pardo-López et al., 2013; Gassmann et al., 2014). A lat- est study of 24 cases, with each case relating to responses of single pest species in one country to an individual Bt toxin, demonstrated that the practical influence of field-evolved resistance can differ from none to severe, based on the magnitude, incidence and spatial distribution of resistance (Bravo et al., 2011; Tabashnik et al., 2013,
2014). Hence, isolation of new Bt strains with novel toxins is of sig- nificance for providing alternatives to these problems.
The cry2A-type genes encode 60–75 kDa proteins and are potential candidates for insect resistance management as these exhibit a wide spectrum of toxicity, different modes of action com- pared to other Cry proteins and small size of toxin (Schnepf et al.,
1998; Sasaki et al., 1997; Alcantara et al., 2004).
Valley Kashmir that is often referred as Terrestrial Paradise on
Earth is situated at northern western tip of Himalayan biodiversity

http://dx.doi.org/10.1016/j.jip.2016.02.005
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