ABSTRACT
Mitochondria, the power house of cells, are important organelles in eukaryotic cells. Having their own unique and complete DNA (mtDNA) and genetic system, mitochondria play an essential role in cellular energy metabolism, intracel?lular signaling and apoptotic pathways, as well as many other biological functions, which are closely related with cellular met?abolic network. A disruption of mitochondrial genes can therefore result in mitochondrial dysfunction and human diseases, thus they have been widely used in molecular biology, development biology, genetics, forensic identification and clinical diag?nosis. Consequently, sequencing mitochondrial genome has shown great significance in mitochondrial structure and function research. In this review, research progress in mitochondrial genome sequencing method is summarized, mainly focusing on Sanger sequencing, long-PCR and next-generation sequencing. Also rolling circle amplification and indirect sequencing of mtDNA are reviewed. The ambiguities caused by numts in indirect sequencing are mentioned and resolved.
ABSTRACT
Objective To investigate the clinical manifestation, biochemically detected data, and radiographic features of a pedigree with suspected mitochondrial encephalomyopathy, lactic acidosis, and stroke-like episodes (MELAS) syndrome, and to explore the correlations between the clinical features and the mutant heteroplasmy levels of mitochondrial genome. Methods The personal details, histories of stroke-like episodes and seizures within the proband and 11 members in the maternal lineage of the family were collected. Routine blood examinations and plasma lactate levels before and after movements of these family members were detected, followed by cephalic MRI examinations. Polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) and DNA sequencing were used to detect and validate the A3243G point mutation in mitochondrial genome, and real-time PCR were used to quantify the mutation proportion of A3243G. Results Typical symptoms of MELAS such as seizures, stroke-like episodes and hyperlactacidemia and atypical symptoms such as growth failure, exercise intolerance, fevers and migraines were observed on several members in the pedigree. Cephalic MRI findings performed during episode periods were in accord with the typical radiographic features of MELAS and cerebellar atrophy was commonly observed. Family members on the maternal side all harbored the point mutation on 3243 site in mitochondrial genome. Meanwhile, patients with higher heteroplasmy levels relatively manifested more typically and severely according to the clinical observation. Conclusions The pedigree is diagnosed with maternal inheritance of MELAS syndrome. The main cause can be attributed to a mitochonorial A3243G mutation.The mutant heteroplasmy levels of hemocytes in peripheral blood are positively associated with genetic relationship, seizure anticipation, plasma lactate data and other clinical features.