Prevalence and penetrance of pathogenic and likely pathogenic and gene variants linked to familial hypercholesterolemia and increased risk of ischemic heart disease.

Background: Familial hypercholesterolemia (FH) is a prevalent hereditary disorder, with its monogenic form linked to an elevated risk of early-onset ischemic heart disease. Evaluating the prevalence and penetrance of pathogenic and likely pathogenic variants associated with this disorder would provide valuable information supporting routine FH screening of the general population. Such informed screening would facilitate early identification of at-risk individuals, enabling timely intervention and management.

RECQ4-MUS81 interaction contributes to telomere maintenance with implications to Rothmund-Thomson syndrome.

Replication stress, particularly in hard-to-replicate regions such as telomeres and centromeres, leads to the accumulation of replication intermediates that must be processed to ensure proper chromosome segregation. In this study, we identify a critical role for the interaction between RECQ4 and MUS81 in managing such stress. We show that RECQ4 physically interacts with MUS81, targeting it to specific DNA substrates and enhancing its endonuclease activity.

Long-Term Kidney Transplant Graft Survival: Single-Center Experience.

Objectives: We aimed to examine kidney transplant graft survival over 10 years using retrospective analysis.

Materials And Methods: Deidentified data of 429 patients extracted from the institution's statistical database were analyzed using descriptive statistics methods and analysis of variance.

Results: Graft survival rates at 3, 5, and 10 years were 89.

Human senataxin is a bona fide R-loop resolving enzyme and transcription termination factor.

Prolonged pausing of the transcription machinery may lead to the formation of three-stranded nucleic acid structures, called R-loops, typically resulting from the annealing of the nascent RNA with the template DNA. Unscheduled persistence of R-loops and RNA polymerases may interfere with transcription itself and other essential processes such as DNA replication and repair. Senataxin (SETX) is a putative helicase, mutated in two neurodegenerative disorders, which has been implicated in the control of R-loop accumulation and in transcription termination.

DDX17 helicase promotes resolution of R-loop-mediated transcription-replication conflicts in human cells.

R-loops are three-stranded nucleic acid structures composed of an RNA:DNA hybrid and displaced DNA strand. These structures can halt DNA replication when formed co-transcriptionally in the opposite orientation to replication fork progression. A recent study has shown that replication forks stalled by co-transcriptional R-loops can be restarted by a mechanism involving fork cleavage by MUS81 endonuclease, followed by ELL-dependent reactivation of transcription, and fork religation by the DNA ligase IV (LIG4)/XRCC4 complex.