Cloning of Enhancer of Zeste Homolog 2 in Forward...

Title: Cloning of Enhancer of Zeste Homolog 2 in forward orientation into Escherichia Coli using histidine-tagged pbluescript II KS+. Abstract Enhancer of Zeste Homolog 2 locus is intensely over expressed in breast and prostate cancer and it’s been established that its promoter inhibition by p53 has led to reduced cell proliferation and invasion (Bracken, 2003; Xiao, 2011). Objective is to clone a forward orientated EZH2 insert into a his-tagged pbluescript. Cloning EZH2 into a histidine-tagged pbluescript in a forward orientation potentially allows isolation of protein via Affinity Chromatography or Chromatin Immunoprecipitation therefore its role, effects and targets in the genome can be established. Resultant Recombinant plasmids in†¦show more content†¦Its locus is particularly amplified in these noted tumours leading to the progression of these cancers, it can be suppressed by p53 (tumour/ proliferation suppressor) which represses the EZH2 promoter, resulting inhibition of cell proliferation and invasion (Bracken, 2003; Xiao, 2011). The vital components and techniques of gene cloning are as follows, the DNA sequence that contains the desired gene (EZH2) is amplified by Polymerase chain reaction. PCR was established by Kary Mullis in 1985, popularly known to amplify target sequences of DNA (EZH2) to a billion fold in several hours using thermophilic polymerases (Taq) ,primers and other cofactors (Sambrook and Russell, 2001). Three crucial steps are involved which are Denaturation (at 95 °), Annealing of the forward and reverse primers (55-65 °) and lastly primer extension (at 72 °). After amplification the desired sequence is integrated into the circular vector (pbluescript) forming the recombinant molecule. For the compatibility of the insert and vector, both were digested with (EcoR1) so the same cohesive ends are generated in both, making it easier to ligate. EcoR1 is a restriction enzyme that belongs to the type II endonuclease class which cuts within dsDNA at its recognition site â€Å"GAATTC† (Clark 2010; Sambrook and Russell, 2001). Agarose Gel electrophoresis uses electric fields and ethidium bromide (under UV