Issue Description


Authors : Bipin D. Lade,Dayanand P. Gogle, Diskha B. Lade,Shirin D. Lade

Page Nos : 145-149

Description :
Phylogenetic studies based diversification of plants species has been carried out using morphological, phytochemicals, secondary metabolites and molecular characterization that are exploited substantially for interpreting the morphological differences, genetic similarities and diversity. Now scientist extensively research for designing, characterisation, fabrication and controlling shape and size at nanometer for claiming application of nano-materials, in cross disciplinary fields. Thus, in light of above scenario, we would like to propose the use different size and shape of nanoparticles fabricated by particular plant extract for deducing inter-intra classification amongst plants. In taxonomic view, the variable size, shape, numbers and concentration of nanoparticles that are synthesized using plants ability to reduce metallic salt to nanoparticles would be used for definite classification among various families, different genus and at species level. The plant material contents such as phytochemicals exampleflavonoid, which are present in various concentrations in plants (plant specific), and the oxidation-reduction potentials of metals and flavonoids could play major role. Thus in that case is it possible to use plant (flavonoids) based nanoparticles for phylogenetic analysis. Beside, the type of metallic salt used for synthesis would produce particular types size, and shape of NP. The various range of extract could be utilized by keeping the other parameters such as temperature, light, experimentation set up constant. The algorithm for external classification, similarly the algorithm for biochemical compound, molecular data, phyto based nanoparticles could be combine into single algorithm to classify the plants into different important categories.In short, the nanoparticles formed using various plant extract are assessed for their capability to classify plants and nano based classification will support current biochemical, molecular aspect and improved our understanding in plant taxonomy

Date of Online: 30 Sep 2018