A rapid and cost-effective method of genomic DNA isolation from cyanobacterial culture, mat and soil suitable for genomic fingerprinting and community analysis

This study presents a phenol and lysozyme free protocol for genomic DNA isolation of cyanobacteria from culture, mats and soil. For an efficient and pure DNA isolation from cyanobacteria having tough cell wall, extra steps of glass beading and Sepharose 4B purification were added. The modified method gave a higher yield of DNA than the phenol: chloroform extraction method. Four parameters selected for purity testing of the isolated DNA were: (i) restriction digestion with Hind III, (ii) randomly amplified polymorphic DNA-PCR of axenic culture of cyanobacteria to assess phylogenetic relatedness, (iii) denaturing gradient gel electrophoretic (DGGE) analysis of cyanobacterial mat and soil to ascertain the applicability of the isolated DNA for community analysis, and (iv) sequencing of partial 16S rDNA of Hapalosiphon intricatus BHULCR1, Anabaena doliolum LCR1, Anabaena oryzae LCR2, Aulosira fertilissima LCR4, and Tolypothrix tenuis LCR7 and BLAST analysis to confirm their cyanobacterial identity. Data generated from above analyses lead us to conclude that the modified method in question is rapid, cost effective, health and time conscious and promising for genetic fingerprinting and community analysis of cyanobacteria from diverse habitats.