Genetic Determinants of Radiosensitivity: Evidence of Radioresistance-Associated SNP Enrichment in Occupational Workers Chronically Exposed to Low-Dose Radiation
Dauren Botbayev, Kamalidin Sharipov, Ayaz Belkozhayev, Bakhytzhan Alzhanuly, Ulbossyn Yerkinbek, Daulet Sharipov, Alexandr Gulyayev, Sayagul Kairgeldina, Kanat Tekebayev, Gulnur Zhunussova, Madina Baurzhan

TL;DR
This study finds that workers exposed to low-dose radiation show genetic variants linked to increased radioresistance, particularly in TP53 and CDKN1A genes.
Contribution
The study identifies specific SNPs associated with radioresistance in occupational workers exposed to chronic low-dose radiation.
Findings
Four SNPs in TP53 and CDKN1A were significantly enriched in radiation-exposed workers.
The strongest genetic deviations were observed in Russian workers from Stepnogorsk.
These SNPs are linked to improved DNA repair and cell-cycle regulation.
Abstract
Background: Interindividual radiosensitivity is largely driven by genetic regulation of DNA damage recognition, repair, and cell-cycle control. TP53 and CDKN1A (p21) are key genomic markers associated with differential responses to ionizing radiation. Methods: This study investigated eight functional SNP markers across several key genes involved in DNA damage responses and cellular stress regulation, including TP53, CDKN1A/p21, APC, VEGF, XPD, and RAD51, in occupational groups exposed to chronic low-dose ionizing radiation at the Stepnogorsk Mining Chemical Combine and the Balkashinskoye uranium deposit. Genotyping was performed using PCR-based assays followed by restriction fragment length polymorphism (RFLP) analysis. Allele and genotype frequencies were compared between radiation-exposed workers and matched controls within Kazakh and Russian ethnic subgroups. Statistical differences…
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Taxonomy
TopicsEffects of Radiation Exposure · Cancer-related Molecular Pathways · Carcinogens and Genotoxicity Assessment
