Direct colony PCR for rapid identification of varied microalgae from freshwater environment

Abstract

Molecular identification of microalgal species is vital and involves sequencing of specific markers present in the genome, which are unique to a genus. PCR is a vital tool for identification of microalgae; the preparation of template DNA for PCR by traditional methods requires large amount of algal cells and a time-consuming process. One simple way to reduce these complications is to use the microalgal colonies directly for amplification of required DNA fragments from the genome. In this study, a simple cell-disrupting method, using autoclaved glass powder, has been used for direct colony PCR of microalgae. Four morphologically different microalgal strains were chosen from freshwater samples, and the PCR amplification reaction was evaluated with three different molecular markers (rbcL, internal transcribed spacer 2, and 18S rDNA). PCR amplification was optimized with less number of cells (0.04 × 105), minimal quantity of glass powder (0.5 mg), and in the presence of Milli-Q water for internal transcribed spacer marker. The isolated strains were identified as Desmodesmus sp. JQ782747, Coelastrum proboscideum JQ898144, Chlorella sorokiniana JQ898145, and Scenedesmus sp. JQ782746 based on sequence similarity. This direct microalgal colony PCR proves to be a simple and rapid method for detection of varied microalgal species.