Overview
The DNA damage response is a network of cellular pathways that detect, signal, and repair damage to DNA molecules, maintaining genomic stability and preventing mutations that can lead to disease. Research published in DNA And RNA Research addresses multiple dimensions of this response system, including the molecular characterization of RNA-binding proteins involved in DNA damage signaling, structural and functional analysis of variants in BRCA1 that affect DNA repair capacity, and mechanisms by which oxidative stress causes telomere attrition despite antioxidant defenses. Published studies examine how cancer cells acquire resistance to apoptosis triggered by DNA damage, the redox properties of phytochemicals and their effects on DNA integrity, and regulatory pathways in colorectal cancer that influence genomic stability. Additional work explores defective cellular pathways in neurodegenerative conditions and hematopoietic disruption caused by DNA-damaging chemotherapy agents. The journal also features evolutionary and comparative genomic analyses examining chromosomal organization and compositional features of genes involved in maintaining genome integrity across species. Understanding DNA damage response mechanisms is essential for developing targeted cancer therapies, predicting disease susceptibility from genetic variants, and identifying interventions that preserve genomic stability during aging and environmental stress.
Research published in this journal
9 peer-reviewed articles, ranked by relevance. Each links to its DOI.
Functional, Structural and Contextual Analysis of a Variant of Uncertain Clinical Significance in BRCA1: c.5434C->G (p. Pro1812Ala)
Oxidative Telomere Attrition, Nutritional Antioxidants and Biological Aging
Mechanisms Associated with Acquisition of Resistance to Butyrate-Induced Apoptosis in Colorectal Cancer Cells Using Gene Expression Analysis
A Study on Redox Potential of Phytochemicals and their Impact on DNA
GR-RNF43 Regulation in Colorectal Cancer
Robust Sampling of Defective Pathways in Parkinson Disease
Lineage-Specific Disruption of Hematopoiesis by Oxaliplatin: Mechanisms of Erythropoietin Resistance and Immune Suppression
The Chromosomal and Functional Clustering of Markedly Divergent Human-Mouse Orthologs Run Parallel to their Compositional Features
How this research is being cited
The 9 articles above have been cited 30 times in the scholarly literature. Citation data via OpenAlex and Crossref, updated Jun 2026.
-
2026 · Molecular Pain
-
2025 · Scientifica
-
N. Munir et al. · 2025 · Scientifica
-
2023 · CPT Pharmacometrics & Systems Pharmacology
-
2023 · CPT: Pharmacometrics & Systems Pharmacology
-
2022 · International Journal of Molecular Sciences
-
2022 · Current Neuropharmacology
-
Enrique J. deAndrés-Galiana et al. · 2022 · International Journal of Molecular Sciences
A sample of recent works citing this journal's research on Dna Damage Response, linking to each citing work.