Tímea Pintér scite author profile

The coupling of nucleotide biosynthesis and genome integrity plays an important role in ensuring faithful maintenance and transmission of genetic information. The enzyme dUTPase is a prime example of such coupling, as it generates dUMP for thymidylate biosynthesis and removes dUTP for synthesis of uracil‐free DNA. Despite its significant role, the expression patterns of dUTPase isoforms in animals have not yet been described. Here, we developed a detailed optimization procedure for RT‐qPCR‐based isoform‐specific analysis of dUTPase expression levels in various organs of adult mice. Primer design, optimal annealing temperature, and primer concentrations were specified for both nuclear and mitochondrial dUTPase isoforms, as well as two commonly used reference genes, GAPDH and PPIA. The linear range of the RNA concentration for the reverse transcription reaction was determined. The PCR efficiencies were calculated using serial dilutions of cDNA. Our data indicate that organs involved in lymphocyte production, as well as reproductive organs, are characterized by high levels of expression of the nuclear dUTPase isoform. On the other hand, we observed that expression of the mitochondrial dUTPase isoform is considerably increased in heart, kidney, and ovary. Despite the differences in expression levels among the various organs, we also found that the mitochondrial dUTPase isoform shows a much more uniform expression pattern as compared to the reference genes GAPDH and PPIA.

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The Creation of a Multiallele Knockout Genotype in Rabbit Using CRISPR/Cas9 and Its Application in Translational Medicine

Pintér

Geiszt

Petheő

et al. 2020

Applied Sciences

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Nonrodent animal models have recently become more valuable in preclinical studies. The limitation of nonrodent animal models is that they must demonstrate relatively reliable and predictable responses in addition to representing complex etiologies of a genetically diverse patient population. In our study, we applied CRISPR/Cas9 technology to produce transgenic rabbits. This approach can be useful for creating genetically divergent and homogeneous populations for studies in translational medicine. NADPH oxidase 4 (NOX4) is a promising therapeutic target, as it is linked to several pathologies including stroke, atherosclerosis, and lung and kidney fibrosis. NOX4 knockout (KO) rabbit lines were created in order to study the in vivo effects resulting from a lack of NOX4 protein and loss of gene function. One of the knockout founders was a germline multiallelic knockout male. Its offspring segregated into three distinct NOX4 knockout and a wild-type lines. Mosaicism is a relatively frequent phenomenon in rabbit transgenesis. Our results point to the possible application of mosaicism in preclinical studies. However, careful planning and evaluation of results are necessary. The predicted off-target sites were studied as well, and no signs of off-target events were detected.

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Hungarian indigenous Tsigai, a promising breed for excellent heat tolerance and immunity

Astuti

Bagi

Bodrogi

et al. 2023

Saudi Journal of Biological Sciences

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Tímea Pintér

Evaluation of critical design parameters for RT‐qPCR‐based analysis of multiple dUTPase isoform genes in mice

The Creation of a Multiallele Knockout Genotype in Rabbit Using CRISPR/Cas9 and Its Application in Translational Medicine

Hungarian indigenous Tsigai, a promising breed for excellent heat tolerance and immunity

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