Chemical elicitors versus secondary metabolite production in vitro using plant cell, tissue and organ cultures: recent trends and a sky eye view appraisal

Abstract

Plant secondary biosynthetic pathways are exceedingly inducible by elicitors and facilitate enhanced metabolite production using plant cell tissue and organ cultures. Elicitors can regulate large number of control points and trigger the expression of key genes with increased cellular activities at biochemical and molecular level involving signal compounds. A large number of chemical elicitors viz: jasmonic acid (JA), methyl jasmonate (MeJA), salicylic acid (SA), acetyl salicylic acid (ASA), ethylene (ET) and ethrel (Ethe), heavy metals (HM), many types of chemical compounds (natural or synthetic) and their combinations are used for elicitation studies. Cell suspensions and hairy roots are commonly used culture systems followed by adventitious roots and multiple shoots for elicitation experiments. Amongst the elicitors and concentrations used 100 µM MeJA was found optimum for secondary metabolite enhancement in majority of experiments compared to SA and JA. Elicitor treatments promoted yield enhancements starting from 1.0 to maximum of 2230-fold across plant species studied. Elicitors singly with media additives, combination of elicitors and elicitors other than signal compounds along with hormones were found beneficial for enhanced secondary metabolite production. Further, a combination of target gene over expression and elicitor treatment also supported higher secondary product yield. The present communication presents information exclusively about the use of chemical elicitors for secondary metabolites production in vitro covering approximately more than a decade of research at one place in one review. Further, this extensive appraisal will be useful for the understanding and manipulation of secondary metabolites for enhanced production in vitro.