The aim is to investigate the frequency of genotypes and alleles of the SLC2A9 gene rs734553 polymorphism, the level of serum uric acid (sUA) and metabolites of purine metabolism in patients with arterial hypertension (AH) and atrial fibrillation (AF), as well as in healthy individuals. Material and methods. The study included 154 patients: 50 were healthy individuals (group 0), of which 22 (44%) were men and 28 (56%) were women aged 50 [45;53] years and 104 were patients with AH and AF (main group), of which 94 (90.4%) were men and 10 (9.6%) were women aged 55 [45; 61] years. The main group was divided into subgroups: subgroup I – patients with AF without a history of AH and other rhythm disorders (n=13); subgroup II – patients with AH in combination with AF (n=68); subgroup III – patients with AH without a history of AF or other rhythm disturbances (n=23). Hyperuricemia was detected in 34 (22.1%) patients, normal uric acid levels were revealed in 120 (77.9%) patients. All patients were studied using clinical, laboratory, instrumental and molecular genetic research methods. The level of sUA was determined by the enzymatic colorimetric method. Serum xanthine oxidase was measured using a method based on a solid phase sandwich-type enzyme-linked immunosorbent assay. Metabolites of purine metabolism in blood plasma were measured using the method of high-performance liquid chromatography. The SLC2A9 gene rs734553 polymorphism was determined using the polymerase chain reaction with real-time detection of results. Results. The patients with AH and AF, as compared to healthy individuals, had more severe disturbances of purine metabolism, characterized by higher concentration of sUA (330 [283; 412] µmol/l and 197 [161; 229] µmol/l (p<0.001), respectively). Also, in contrast to the group of healthy individuals, the group of patients with AH and AF demonstrated an increase in the level of adenosine (p=0.001), and a decrease in the levels of hypoxanthine and xanthine (p<0.001). There were no statistically significant differences in xanthine oxidase activity level (p>0.05), however, in 54% of patients in the main group it was higher than normal values. The dominant allele A and the dominant genotype A/A of the SLC2A9 gene rs734553 polymorphism (75%, p=0.005; 64%, p=0.001, respectively) occurred significantly more often in healthy individuals, while the recessive allele C and the heterozygous genotype A/C were found significantly more often in the group of patients with AH and AF (41.3%, p=0.005; 48.1%, p=0.003, respectively). The C/C genotype (41.7%, p=0.001) was significantly more common in patients with AH in combination with AF and hyperuricemia, compared to patients with AH combined with AF without hyperuricemia as well as healthy individuals (6.8%; 14%, p=0.001, respectively). Patients with AH in combination with AF and the C/C genotype were characterized by a significantly higher level of sUA (p=0.003) compared to patients with the A/A genotype. Conclusions. A statistically significant predominance of the recessive allele C of the SLC2A9 gene rs734553 polymorphism was established in patients with AH and AF compared with healthy individuals (p=0.005). In patients with AH in combination with AF and hyperuricemia, the C/C genotype was significantly more common (41.7%, p=0.001). Patients with AH in combination with AF and the C/C genotype were characterized by a significantly higher level of sUA (p=0.003) compared to patients with the A/A genotype.