Nucleus

Noorah Abdulaziz Othman Alkubaisi, Nagwa Mohammed Amin Aref
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Abstract

In our application of AuNPs on the leaf surface, we were pushing the Barley Yellow Dwarf Virus (BYDV-PAV) source and Gold nanoparticles (AuNPs) into the plant cell system up on the events of systemic plant defense response. In the infected host cell, the viral coat protein is the first obvious in the cytoplasm. When nanoparticles are applied on leaf surfaces, a large surface area relative to their volume happens. AuNPs solutions are more active and dispersed ooplasm. The correlation between Zeta potential value and Zeta sizer is inverse proportion. Filaments are visible in the nucleopores, the nuclear outline is distorted, and massive clumping of heterochromatin begins as declared. It was mostly found in or around regions of ribosome-associated filaments. Our present study combines TEM and nucleus content in the presence of AuNPS to explore the level of repair mechanism illustrating in TEM micrographs, showing Polyploidy nucleus and segregated chromatin. Multi membranous structure, imaging the AuNPs inside and around the nucleus and Pseudo crystal array is enveloped in an endoplasmic reticulum cisterna (ER).
在叶片表面应用AuNPs的过程中,我们将大麦黄矮病毒(BYDV-PAV)源和金纳米颗粒(AuNPs)推入植物细胞系统,使植物产生系统的防御反应。在被感染的宿主细胞中,病毒外壳蛋白首先在细胞质中表现明显。当纳米颗粒被应用于叶片表面时,相对于它们的体积会产生较大的表面积。AuNPs溶液是更活跃和分散的卵浆。Zeta电位值与Zeta浆料呈反比关系。核孔中可见细丝,核轮廓扭曲,异染色质开始大量聚集。它主要在核糖体相关纤维的区域或周围发现。本研究结合透射电镜和AuNPS存在下的细胞核含量,探讨了TEM显微镜下的修复机制水平,显示了多倍体细胞核和分离的染色质。多膜结构,成像细胞核内部和周围的aunp,伪晶体阵列被内质网池(ER)包裹。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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