Assessment of protein and DNA polymorphisms in corn (Zea mays) under the effect of non-ionizing electromagnetic radiation

IF 2.1 4区生物学 Q2 Agricultural and Biological Sciences

Caryologia Pub Date : 2023-04-28 DOI:10.36253/caryologia-1716

E. Abdelhaliem, Hanan Abdalla, Ahmed Bolbol, Rania S. Shehata

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引用次数: 0

Abstract

Many reports highlight biological responses of crop plants after non-ionizing electromagnetic radiation (EMR) exposure based on the phenotypic and physiological levels. So, this study aimed to estimate genetic alterations in proteins, isozymes, and DNA banding patterns as well as the extent of nuclear DNA damage of economic corn (Zea mays) under the stress of EMR using accurate and reliable bioassays like sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), isozymes (Leucine- aminopeptidase, Esterases, Peroxidase, and Catalases), random amplified polymorphic DNA- polymerase chain reaction (RAPD-PCR), and Comet Assay, respectively. SDS-PAGE analysis showed distinct polymorphisms (96.66%) between EMR exposed and non-exposed corn seedlings depending on the number and type of bands, their intensities as well as molecular weight which ranged from (60.27 to 192.35 kDa), gain, and loss of bands. The four isozymes generated varies isozymatic polymorphisms based on relative front, zymogram number, and optical intensities. RAPD analysis generated 85 amplified DNA products with high polymorphism values ranged from 90.91 to 100% based on primers, band type, DNA sizes which ranged from 153 to 1008-bp, lose, gain, and intensity of DNA bands. Comet Assay scored highest extent of loosed DNA from nuclei (DNA damage) reached the value of (tailed ratio 20%) at EMR exposed corn nuclei for 5 days compared to non-exposed nuclei which reached the value of (tailed ratio 3%). This study concluded that each EMR exposure time had unique interaction with proteins, isozymes, and DNA of corn cells exhibiting wide range of genotoxic stress and subsequently, adversely effect on growth and yield of this sensitive crop plants.

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非电离电磁辐射作用下玉米(Zea mays)蛋白质和DNA多态性评价

许多报道强调了作物在非电离电磁辐射(EMR)暴露后的表型和生理水平的生物反应。因此，本研究旨在利用准确可靠的生物测定方法，如十二烷基硫酸钠-聚丙烯酰胺凝胶电泳(SDS-PAGE)、同工酶(亮氨酸-氨基肽酶、酯酶、过氧化物酶和过氧化氢酶)、随机扩增多态性DNA-聚合酶链反应(RAPD-PCR)和Comet Assay，分别评估EMR胁迫下经济玉米(Zea mays)蛋白质、同工酶、DNA带带模式的遗传改变以及核DNA损伤程度。SDS-PAGE分析显示，EMR暴露玉米幼苗与非EMR暴露玉米幼苗在条带数量和类型、条带强度、条带的分子量(60.27 ~ 192.35 kDa)、条带的增益和损失等方面存在明显的多态性(96.66%)。四种同工酶根据相对前沿、酶谱数和光强度产生不同的同工酶多态性。根据引物、条带类型、条带大小(153 ~ 1008bp)、条带损失、增益和条带强度，RAPD分析得到85个扩增产物，多态性值在90.91 ~ 100%之间。Comet Assay的评分显示，与未暴露的玉米核相比，EMR暴露5天的玉米核中最大的DNA松散程度(DNA损伤)达到(尾比20%)的值，而未暴露的玉米核达到(尾比3%)的值。本研究得出结论，每个EMR暴露时间与玉米细胞的蛋白质、同工酶和DNA具有独特的相互作用，表现出广泛的遗传毒性胁迫，并随后对这种敏感作物的生长和产量产生不利影响。

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来源期刊

Caryologia 生物-遗传学

CiteScore

1.60

自引率

23.80%

发文量

审稿时长

12 months

期刊介绍： Caryologia is devoted to the publication of original papers, and occasionally of reviews, about plant, animal and human karyological, cytological, cytogenetic, embryological and ultrastructural studies. Articles about the structure, the organization and the biological events relating to DNA and chromatin organization in eukaryotic cells are considered. Caryologia has a strong tradition in plant and animal cytosystematics and in cytotoxicology. Bioinformatics articles may be considered, but only if they have an emphasis on the relationship between the nucleus and cytoplasm and/or the structural organization of the eukaryotic cell.