Main Article Content
The levels of yield and purity of genomic DNA from five tomato cultivars subjected to two DNA extraction techniques
Abstract
Isolation of good quality genomic DNA from different plant materials is an important prerequisite for many molecular techniques related to both basic and applied research in the areas of plant molecular biology, crop improvement, biodiversity studies and conservation of genetic materials. Therefore, the need to extract reasonably pure DNA of both good quality and quantity for the downstream successful DNA-based diagnostic techniques is required. In this study, yield and purity of the extracted DNAs, using Dellaporta et al. (1983) and the use of Zymo Research Plant/Seed DNA MiniPrep Kit (ZR kit), were quantified with Nanodrop spectrophotometer and on agarose gel after polymerase chain reaction (PCR) amplification. The results of the DNA yield and purity were in the range of 24.42 to 1430.52 ng/μl and 1.11 to 2.00, respectively. The outstanding DNA yield in Kerewa cultivar in yield (1430.52 ng/μl) and purity (1.99) makes it appropriate for downstream DNA-based diagnostic techniques in biotechnology research. On agarose gel DNA bands appeared to be compact with negligible smearing with Dellaporta et al. method indicating good quality of DNA. The results demonstrated that good yield of very pure, intact, high quality genomic DNA could be obtained from tomato leaves using the method of Dellaporta et al.
Keywords: DNA, extraction, purity, tomato, yield.