Enzymatic tools for mitochondrial genome manipulation.

Mutations in mitochondrial DNA (mtDNA) can manifest phenotypically as a wide range of neuromuscular and neurodegenerative pathologies that are currently only managed symptomatically without addressing the root cause. A promising approach is the development of molecular tools aimed at mtDNA cutting or editing. Unlike nuclear DNA, a cell can have hundreds or even thousands of mitochondrial genomes, and mutations can be present either in all of them or only in a subset.

Polymer Kernels as Compact Carriers for Suspended Cardiomyocytes.

Induced pluripotent stem cells (iPSCs) constitute a potential source of patient-specific human cardiomyocytes for a cardiac cell replacement therapy via intramyocardial injections, providing a major benefit over other cell sources in terms of immune rejection. However, intramyocardial injection of the cardiomyocytes has substantial challenges related to cell survival and electrophysiological coupling with recipient tissue. Current methods of manipulating cell suspensions do not allow one to control the processes of adhesion of injected cells to the tissue and electrophysiological coupling with surrounding cells.