Clinical Characteristics and Genetic Variants in Children with Mutation-Associated Disorders.

PAX2 serves as a critical transcription factor integral to the process of embryogenesis. Variations in the gene could result in the aberrant development of numerous organs. Despite the identification of numerous mutations within the gene, the correlation between specific genotypes has yet to be fully clarified. The objective of this study was to examine the clinical phenotypes and genotypes associated with mutation-induced disorders in pediatric patients of Chinese descent. The aim of our study was to forecast the pathogenic potential of these genetic mutations and to ascertain possible correlations between genotypic variations and the clinical manifestations of disorders linked to mutations. We recruited 14 pediatric subjects with mutations, meticulously examining the clinical characteristics and genetic alterations present in these individuals. Computational techniques were utilized to evaluate the pathogenicity, stability, and biophysical characteristics. A range of computational tools were employed for this assessment, including PredictSNP, MAGPIE, iStable, Align GVGD, ConSurf, and SNP effect. The age at onset ranged from prenatal to 12 years. Five patients progressed to end-stage renal disease. Proteinuria and bilateral renal hypoplasia were observed in 92% of cases. Ocular and auditory abnormalities were also noted. We identified eleven different mutations, including five novel variants not previously reported in the literature. We predicted that all mutations, with the exception of p.F27-L33 del and N188S, exhibited high pathogenicity scores. In particular, R117P and R140W are strongly associated with disease pathogenicity and are likely to cause more significant damage than other gene mutants. This study expands the mutational and phenotypic spectrum of -related disorders in the pediatric population. The identification of five novel variants enhances our understanding of the genetic basis of these conditions. Despite recurrent mutations, marked phenotypic heterogeneity persists, underscoring the need for further research.