pyroninophilic

简明释义

英[ˌpaɪrəˌnɪnəˈfɪlɪk]美[ˌpaɪrəˌnɪnəˈfɪlɪk]

adj. 嗜焦宁的

英英释义

单词用法

同义词

反义词

例句

1.PALS was thinner and the arrangement of its lymphocytes was loose. There were more pyroninophilic cells in PALS.

PALS较薄，淋巴细胞的排列亦松散，其中嗜派若宁细胞含量较多。

2.PALS was thinner and the arrangement of its lymphocytes was loose. There were more pyroninophilic cells in PALS.

PALS较薄，淋巴细胞的排列亦松散，其中嗜派若宁细胞含量较多。

3.In histological examinations, pyroninophilic areas often correspond to regions of active protein synthesis.

在组织学检查中，亲吡罗红的区域通常对应于活跃的蛋白质合成区域。

4.Histopathologists often look for pyroninophilic staining patterns to assess cellular activity.

组织病理学家通常寻找亲吡罗红的染色模式来评估细胞活动。

5.The presence of pyroninophilic cells in the sample suggested a response to the treatment.

样本中存在亲吡罗红的细胞表明对治疗的反应。

6.Researchers found that the pyroninophilic nature of the tissue samples helped in identifying cancerous growths.

研究人员发现，组织样本的亲吡罗红的特性有助于识别癌性生长。

7.The study revealed that the cells were pyroninophilic, indicating a high level of RNA content.

研究表明这些细胞是亲吡罗红的，这表明它们具有高水平的RNA含量。

作文

In the realm of biology, understanding cellular characteristics is crucial for various fields including genetics, pathology, and biotechnology. One such characteristic that has garnered attention is the phenomenon of pyroninophilic cells. These are cells that exhibit a strong affinity for pyronin dyes, which are used in histological staining to visualize nucleic acids within the cell. The term pyroninophilic itself derives from the combination of 'pyronin,' a type of dye, and 'philic,' meaning loving or having an affinity for something. This unique property allows researchers to distinguish between different types of cells and their activities, particularly in the context of RNA presence and synthesis.The significance of pyroninophilic cells lies primarily in their ability to indicate active protein synthesis. When cells are stained with pyronin dyes, those that are pyroninophilic will absorb the dye and appear bright under a microscope, indicating a high concentration of RNA. This is especially important in studies involving cancer, where the rate of cell division and RNA production can provide insights into tumor aggressiveness and potential treatment responses.For instance, in a recent study examining the effects of certain chemotherapeutic agents on tumor cells, researchers utilized the pyroninophilic staining technique to evaluate the impact on RNA levels. The results revealed that the treated cells showed a significant decrease in pyroninophilic activity, suggesting that the drugs effectively inhibited RNA synthesis and, consequently, protein production. Such findings not only enhance our understanding of cancer biology but also pave the way for developing more targeted therapies.Moreover, the concept of pyroninophilic cells extends beyond oncology. In developmental biology, for example, researchers often rely on this staining technique to identify stem cells and their differentiation pathways. Stem cells are known for their capacity to proliferate and differentiate into various cell types, and their pyroninophilic nature can be indicative of their active state. By analyzing these cells, scientists can gain insights into tissue regeneration and repair mechanisms, which could lead to breakthroughs in regenerative medicine.In addition to its applications in research, the understanding of pyroninophilic cells has implications in clinical diagnostics. Pathologists frequently utilize histological staining techniques to diagnose diseases based on cellular characteristics. The presence of pyroninophilic cells in a biopsy sample could suggest an active infection or a malignancy, guiding further diagnostic and therapeutic interventions. Thus, the study of pyroninophilic cells not only enhances our scientific knowledge but also has practical applications in improving patient outcomes.In conclusion, the term pyroninophilic encapsulates a vital aspect of cellular biology that helps researchers and clinicians alike understand the dynamics of cell function and disease progression. By leveraging the unique properties of pyroninophilic cells, we can uncover critical insights into cellular behavior, leading to advancements in medical research and improved therapeutic strategies. As we continue to explore the intricacies of biology, the role of pyroninophilic cells will undoubtedly remain a focal point in our quest for knowledge and innovation.

在生物学领域，理解细胞特征对于遗传学、病理学和生物技术等多个领域至关重要。其中一个受到关注的特征是pyroninophilic细胞的现象。这些细胞对吡啶染料表现出强烈的亲和力，这种染料用于组织学染色，以可视化细胞内的核酸。术语pyroninophilic本身源于'pyronin'（一种染料）和'philic'（意为喜爱或对某事物有亲和力）的组合。这一独特的特性使研究人员能够区分不同类型的细胞及其活动，特别是在RNA存在和合成的背景下。pyroninophilic细胞的重要性主要体现在它们指示活跃蛋白质合成的能力。当细胞用吡啶染料染色时，那些pyroninophilic的细胞会吸收染料，并在显微镜下显示出明亮的颜色，表明RNA的浓度很高。这在涉及癌症的研究中尤其重要，因为细胞分裂和RNA产生的速率可以提供有关肿瘤侵袭性和潜在治疗反应的见解。例如，在最近一项研究中，研究人员利用pyroninophilic染色技术评估某些化疗药物对肿瘤细胞的影响。结果显示，处理过的细胞在pyroninophilic活性上显著降低，表明这些药物有效抑制了RNA合成，从而抑制了蛋白质生产。这些发现不仅增强了我们对癌症生物学的理解，还为开发更具针对性的治疗方法铺平了道路。此外，pyroninophilic细胞的概念超越了肿瘤学。在发育生物学中，研究人员经常依赖这种染色技术来识别干细胞及其分化途径。干细胞以其增殖和分化成各种细胞类型的能力而闻名，而它们的pyroninophilic特性可能表明它们处于活跃状态。通过分析这些细胞，科学家可以获得关于组织再生和修复机制的见解，这可能导致再生医学的突破。除了在研究中的应用，pyroninophilic细胞的理解还在临床诊断中具有重要意义。病理学家经常利用组织学染色技术，根据细胞特征来诊断疾病。在活检样本中出现pyroninophilic细胞可能提示活跃的感染或恶性肿瘤，从而指导进一步的诊断和治疗干预。因此，研究pyroninophilic细胞不仅增强了我们的科学知识，还有助于改善患者的治疗效果。总之，术语pyroninophilic概括了细胞生物学的一个重要方面，帮助研究人员和临床医生了解细胞功能和疾病进展的动态。通过利用pyroninophilic细胞的独特特性，我们可以揭示有关细胞行为的重要见解，从而推动医学研究的进步和改进治疗策略。随着我们继续探索生物学的复杂性，pyroninophilic细胞的作用无疑将成为我们追求知识和创新的重点。