DiscussionThe aim of the present in

DiscussionThe aim of the present investigation was to obtain high fre-quency shoot organogenesis from callus. There are some reportsavailable on micropropagation of another species Torenia fournieri(Tanimota and Harada, 2013; Sun et al., 2013). However, there isno report available on micropropagation of T. bicolor. Therefore, arapid micropropagation system is important for the speedy mul-Fig. 4. Field transplantation of T. bicolor.(A) Transplanted plant one year after transfer to field. Bar = 2.1 cm.(B) An enlarged view of a flower developed one year after transplantation of T. bicolor.Bar = 2.5 cm.tiplication and conservation of this endemic plant. We have usedseveral explants for callus induction as a preliminary study. How-ever, the satisfactory result was obtained with internodal explantsonly. Therefore, only the internodal explants were used for thepresent study. Similar results on superiority of intermodal explantson callus induction and shoot organogenesis have been reported inother systems like Hypencum bupleuroides (Cirak et al., 2007) andRosa hybrid (Hsia and Korban, 1996). The optimum plant growthregulator combination for callus induction was 4.0 M 2, 4-D and0.5 M Kn. This study is in agreement with other systems where2, 4-D and Kn induced callus has been reported in other systemslike Benincasa hispida (Thomas and Sreejesh, 2004), Zoysia japonica(Liu et al., 2009), Rhinacanthus nasutus (Cheruvathur and Thomas,2014a) and Desmodium gangeticum (Cheruvathur et al., 2013). Inthis study, the light yellow, friable calli formed on all plant growthregulator combinations exhibited organic potential.In the present study, MS medium supplemented with 4.0 M BAand 1.0 M NAA was optimum for shoot organogenesis from callus.The present report is in agreement with several previous reportswhere an auxin-cytokine combination provided maximum shootinduction response from callus. In Ruta graveolens the highest shootorganogenesis from callus was noted on MS medium supplementedwith 7.5 M BA and 1.0 M NAA (Ahmad et al., 2010). The rootderived callus of Rhinacanthus nasutus gave optimum shoot regen-eration when subcultured on MS medium augmented with 5.0 MBA and 0.7 M NAA (Cheruvathur et al., 2013). In another study,