Abstract:
Background: Cathepsin K, encoded by CtsK gene involves in bone remodeling through
ossification. Besides this orthopaedic importance, it demonstrates other physiological
importances including metastasis of prostate, ovarian, breast cancers and human growth
regulation. Therefore, it is a timely concern that further molecular characterization be done on
CtsK gene to facilitate further biomedical research and other aspects such as recombinant
production of Cathespin K.
Objectives: To develop an optimized protocol for isolation of DNA from human blood and
PCR amplification of a catalytic domain of CtsK gene.
Methodology: Genomic DNA was extracted from four human blood samples using
FlexiGene®-QIAGen®, by subjecting blood to action of cell lysis, denaturation and
resuspension buffers. Incubation time and number of 70% ethanol washings, volumes of
isopropanol added were increased and absorbance of eluted DNA was measured
spectrophotometricaly. PCR amplification of a catalytic domain of CtsK gene using forward
primer 5‟ACGCGTCGACGTGTACCATCAGTACCTCGCAC3‟ and reverse primer
5‟ACGCAAGCTTCTTCCAAAGTGCATCGTTACAC3‟ was done. PCR conditions were
optimized as; 94 ºC initial denaturation, 94 ºC denaturation, 55 ºC annealing, 72 ºC elongation,
72 ºC final elongation and 4 ºC final hold for 3 minutes, 30 seconds, 30 seconds, 40 seconds,
5 minutes and infinite, respectively.
Results: Extracted DNA showed a concentration of nearly 500 ng/µL which increased
drastically upon addition of more isopropanol to better pellet out DNA. İn terms of purity,
A260/A280 ratio for DNA revealed to be between 1.7 and 1.8 while A260/A230 revealed to be
between 1.7 and 2.2, reflecting optimum purity. As a result of optimization of PCR conditions,
expected band size, as a clearband of size 265bp (between 200bp-300bp) was generated in 1.5%
TAE-agarose gel, which was verified to be a catalytic domain of Cathepsin K by previous
literature.
Conclusions: An optimized protocol for extraction of quality DNA with high concentration was
developed successfully and a catalytic domain of CtsK gene was successfully amplified.