Matrin 3 (MATR3) is a DNA- and RNA-binding nuclear matrix protein. It contributes to the regulation of transcription, alternative intron splicing, mRNA export from the nucleus and mRNA stabilization. Mutations in MATR3 have been linked to the development of some neurodegenerative diseases such as ALS (amyotrophic lateral sclerosis) and FTD (frontotemporal dementia). These diseases are characterized by increased nuclear concentration of MATR3, its irregular localization in the cytoplasm or aggregate formation. This thesis consists of laboratory work and bioinformatic work. Within the scope of the laboratory work, we deleted the BioID2 marker from vectors pcDNA3.1-MATR3-BioID2-HA and pcDNA3.1-ALS-MATR3-BioID2-HA using the IVA cloning method and thus produced vectors pcDNA3.1-MATR3-HA and pcDNA3.1-ALS-MATR3-HA. MATR3 with mutation S85C inhibits the formation of stress granules, which form as a result of a physiological response to cellular stress, and thus contributes to ALS pathology. We could have further used these vectors for (co)transfection of mamallian cell lines. In this way, we could have determined how MATR3 and MATR3 with mutation S85C, which is characteristic of ALS, affect the formation of stress granules. Within the scope of bioinformatic work, we analyzed the phylogeny of MATR3. We examined the evolution of MATR3 in mammals and compared it to the evolution of mammalian species. We found that the phylogenetic relationships of MATR3 mostly match the evolution of mammalian species. The phylogenetic tree based on the nucleotide sequences of MATR3 mRNA showed the best matching with mammalian evolution. In the phylogenetic analysis based on the amino acid sequences of MATR3 in mammals, the bootstrap values were too low to reliably determine the evolutionary relationships. We tried to explain the phylogenetic relationships of specific orders that were inconsistent with mammalian evolution by aligning these nucleotide sequences and identifying divergence points. We also analyzed the evolution of MATR3 in vertebrates, where the best phylogenetic tree was obtained using amino acid sequences, as these sequences were more diverse.