ABSTRACT
Objective To evaluate the quantitative technique of real-time amplification refractory mutation system quantitative PCR( RT ARMS-qPCR)in the detection of the mitochondrial DNA A3243G mutation load.To investigate the mutation load in different tissues in patients with mitochondrial encephalomyopathy with lactic acidosis and stroke-like episodes (MELAS).Methods Wild type and mutant-type (A3243G) of mitochondrial DNA were cloned into plasmid pMD18-T to construct express vectors. Thirteen standard controls having different proportions of mutation loads were developed by mixing wild-type and mutant-type cloned plasmid DNA in different ratios. The mutation loads in the tissues of blood, muscle, hair follicles and urine from seven patients with MELAS and one carrier, and blood samples in 53 unaffected subjects were detected by lit ARMS-qPCR and PCR-RFLP. ResultsIn standard controls, there was a linear correlation between the expected values and results of mutation loads detected by both methods of PCR-RFLP (R21 = 0. 885 ) and RT ARMS-qPCR (R22 = 0. 991 ) . The results detected by RT ARMS-qPCR were closer to the expected values. The detection of mutation loads in tissues from the patients revealed higher values by liT ARMS-qPCR method than by PCR-RFLP and RT ARMS-qPCR was more sensitive in detecting the lower A3243G mutation load. The mutation load in muscle, hair follicles or urinary sedimem is higher than that in leukoeytas.Conclusion The RT ARMS-qPCR provides a convenient,rapid, sensitive and reliable quantitative detection of heteroplasmic mutant mtDNA A3243G in different tissues.