Harmonin homology domain-mediated interaction of RTEL1 helicase with RPA and DNA provides insights into its recruitment to DNA repair sites.

The regulator of telomere elongation helicase 1 (RTEL1) plays roles in telomere DNA maintenance, DNA repair, and genome stability by dismantling D-loops and unwinding G-quadruplex structures. RTEL1 comprises a helicase domain, two tandem harmonin homology domains 1&2 (HHD1 and HHD2), and a Zn2+-binding RING domain. In vitro D-loop disassembly by RTEL1 is enhanced in the presence of replication protein A (RPA).

Emerging roles of Sirtuin 2 in cardiovascular diseases.

Sirtuins are a family of NAD -dependent deacetylases implicated in a wide variety of age-associated pathologies, including cardiovascular disorders. Among the seven mammalian sirtuins, SIRT2 modulates various cellular processes through the deacetylation or deacylation of their target proteins. Notably, the levels of SIRT2 in the heart decline with age and other pathological conditions, leading to cardiovascular dysfunction.

Isolation and Culture of Neonatal Murine Primary Cardiomyocytes.

The cardiomyocyte is the main cell type in the heart responsible for its contractile function. Culturing primary cardiomyocytes from mammalian sources to study their function remains challenging as they are terminally differentiated and cease to multiply soon after birth. The major technical hurdles associated with primary cardiomyocyte culture include attaining high yields, obtaining healthy/viable cells that show spontaneous contractions upon culture, and avoiding contamination by non-myocyte cardiac cell types such as fibroblasts and endothelial cells.