Genotoxicity Study of Vitex megapotamica (Spreng.) Moldenke.

Vitex megapotamica (Spreng) Moldenke is commonly known as tarumã, it is an important medicinal and edible fruit plant. It is native to regions of tropical and subtropical climate in greater proportion than temperate zones and widely distributed in Central America, South America, Asia, and Africa. In Brazil, it is present in the Atlantic Forest and Cerrado biomes. Despite its widespread use, there are no minimum standards for quality control or information on genotoxicity. Therefore, the aim of this study was to present a detailed description of the short-term genotoxicity assays of V. megapotamica and to provide parameters of a preparation routinely used in traditional folk medicine. For genotoxicity assays, five groups were used with eight wistar rats in each group. For this, three doses of the V. megapotamica extract in doses (100, 300, and 900 mg/kg) or negative control (filtered water) were administered orally and positive control cyclophosphamide monohydrate (20 mg/kg; Sigma-Aldrich®) was applied by the intraperitoneal route after 24 h. At the end, whole blood was collected in a tube containing EDTA for the comet test and later the animals were euthanized. For the micronucleus test, femurs were removed, and bone marrow was collected. In the comet assay, V. megapotamica crude extract did not show significant DNA damage at all doses tested. The micronucleus assay showed no significant increase in the frequency of inducing micronuclei at any dose examined. It can be concluded that the safety parameters in genotoxicity studies reveal that V. megapotamica has no toxicity, which characterizes the important quality control of this plant species.

Biomonitoreo Genético en Trabajadores del Servicio de Radiología del Hospital Nacional Policial Luis N. Sáenz / Genetic Biomonitoring In Workers Of The Radiology Service Of National Police Hospital Luis N. Sáenz

Objetivo: Evaluar el efecto genotóxico en trabajadores expuestos a Rayos X en el Servicio de Radiología del Hospital Nacional Luis N. Sáenz PNP. Materiales y métodos. El tipo de estudio fue observacional, prospectivo, transversal, analítico, utilizando el ensayo cometa como técnica de análisis. La población de estudio fue de 20 trabajadores expuestos a los Rayos X y 20 personas sin exposición. Resultados. La media de longitud de migración de ADN dañado en el grupo control fue de 1,28±0.38 µm y 10,39±9.44 µm para el grupo expuesto, se compararon las medias de los grupos, obteniéndose p=0,001 significativo. El análisis de correlación para el daño de ADN, años de exposición y dosis recibida, se encontró una correlación significativa (p<0,05). Para la correlación del daño de ADN con la edad, no se encontró significancia estadística (p>0,05). Conclusiones. Los rayos X a bajas dosis permisibles pueden causar daño en la integridad del ADN, teniendo correlación con los primeros años de exposición en el personal que trabaja en el servicio radiología. Palabras clave: Genotóxico, exposición, rayos X, ensayo cometa.

Objective: To evaluate the genotoxic effect on workers exposed to X-rays in the Radiology Service of the Luis N. Sáenz National Hospital PNP. Materials and methods. The type of study was observational, prospective, cross-sectional, analytical, using the comet assay as an analysis technique. The study population was 20 workers exposed to X-rays and 20 people without exposure. Results The mean length of migration of damaged DNA in the control group was 1.28 ± 0.38 µm and 10.39 ± 9.44 µm for the exposed group, the means of the groups were compared, obtaining p = 0.001 significant. The correlation analysis for DNA damage, years of exposure and dose received, a significant correlation was found (p <0.05). For the correlation of DNA damage with age, no statistical significance was found (p> 0.05). Conclusions X-rays at low permissible doses can cause damage to DNA integrity, correlating with the first years of exposure of personnel working in the radiology service. Keywords: Genotoxic, exposure, X-ray, comet test.

Técnica do cometa para avaliação da integridade do DNA de espermatozoides caprinos criopreservados em ACP-101/102® / Comet technique to assess the DNA integrity of cryopreserved goat sperm in ACP-101/102®

Animal reproduction represents one of the most important factors, and the use of reproductive biotechnologies that help increase production is essential. The comet technique is the simple and quick way to detect pre-mutagenic lesions and assist in studies on environmental biomonitoring, toxicological genetics, biological radiation, DNA repair process and genetic ecotoxicology. The objective of this study was to evaluate the viability of DNA from sperm cells from goat semen submitted to the cryopreservation process in powdered coconut water (ACP101c/102c). The experiment was carried out at the Federal University of Piauí with two goats of reproductive age. The evaluation of the spermatic DNA integrity was performed using an immunofluorescence microscope. Classes from 0 to 3 were used, 0 being no damage and 3, the tail of the comet greater than twice the size of the nucleoid. The results obtained in the G2 test group (ACP 101c-102c) showed a slight tail formation, indicating a slight fragmentation of DNA. It was concluded that in the control group GC1 (TRIS + egg yolk of Gallu gallus domesticus) and experimental group (ACP 101c - 102c) there was no significant difference.

Técnica do cometa para avaliação da integridade do DNA de espermatozoides caprinos criopreservados em ACP-101/102® / Comet technique to assess the DNA integrity of cryopreserved goat sperm in ACP-101/102®

Animal reproduction represents one of the most important factors, and the use of reproductive biotechnologies that help increase production is essential. The comet technique is the simple and quick way to detect pre-mutagenic lesions and assist in studies on environmental biomonitoring, toxicological genetics, biological radiation, DNA repair process and genetic ecotoxicology. The objective of this study was to evaluate the viability of DNA from sperm cells from goat semen submitted to the cryopreservation process in powdered coconut water (ACP101c/102c). The experiment was carried out at the Federal University of Piauí with two goats of reproductive age. The evaluation of the spermatic DNA integrity was performed using an immunofluorescence microscope. Classes from 0 to 3 were used, 0 being no damage and 3, the tail of the comet greater than twice the size of the nucleoid. The results obtained in the G2 test group (ACP 101c-102c) showed a slight tail formation, indicating a slight fragmentation of DNA. It was concluded that in the control group GC1 (TRIS + egg yolk of Gallu gallus domesticus) and experimental group (ACP 101c - 102c) there was no significant difference.(AU)

Comet and cytogenetic tests as tools for evaluating genomic instability in seeds of Oryza sativa L. and Phaseolus vulgaris L. from gene banks

Abstract This study aimed to assess the feasibility of comet and cytogenetic tests as tools for evaluating genomic instability in seeds of Oryza sativa L. (rice) and Phaseolus vulgaris (beans) L. from gene banks. Rice and beans were exposed to methyl methanesulfonate (MMS) as a reference DNA damaging agent. Seeds of two accessions of rice and beans were obtained from Embrapa Rice and Beans - Brazil. Seed groups were imbibed in three concentrations of MMS for three periods of time to carry out cytogenetic tests, and for one period for the comet test. At concentrations of 10 and 15 mg/L, MMS induced cytotoxic and/or mutagenic effects in the meristematic cells of roots from all the accessions of both species. In the comet test, MMS induced genotoxic effects at all the concentrations in the evaluated accessions of rice and beans, except in one accession of beans at the lowest concentration (5 mg/L). Both species showed sensitivity to MMS. The comet test can be proposed for the measurement of genomic instability in accessions of rice and beans in gene banks, as being more sensitive than the cytogenetic tests used.