cytochemical

简明释义

英[ˌsaɪtəʊˈkɛmɪkəl]美[ˌsaɪtəˈkɛmɪkəl]

adj. 细胞化学的

英英释义

单词用法

同义词

反义词

例句

1.The hMSCs in induced culture showed cytochemical staining for ALP and osteocalcin expression.

诱导培养细胞碱性磷酸酶染色，骨钙素免疫组化染色阳性。

2.The activity of succinate dehydrogenase(SDH) was assayed with cytochemical method.

以细胞化学法测定琥珀酸脱氢酶（SDH）的活性。

3.Methods A morphologic study and HLA DR, S 100 and CD44 expressions by cytochemical and immunocytochemical techniques were performed for cytologic diagnosis of thyroid diseases in 938 samples with FNA.

方法用免疫细胞化学方法观察938例甲状腺细针抽吸标本涂片中各种甲状腺疾病的细胞形态及HLA-DR、S-100和CD44蛋白表达。

4.Methods: Routine electron microscopic technique and cytochemical methods of hydrogen peroxide were performed.

方法：应用了常规电镜技术及过氧化氢细胞化学方法。

5.It indicated that white tongue coating and yellow tongue coating have different features in cytochemical changes which were in accordance with the syndrome differentiations.

提示白苔、黄苔有各自不同的细胞化学变化特点，并与辨证结果基本一致。

6.Cytochemical analysis demonstrated that chromosomal DNA at the specific irradiated region was impaired.

细胞化学分析证明，受激光照射的染色体区段的DNA遭到了损伤。

7.The cytochemical 细胞化学的 analysis revealed important insights into the disease progression.

该细胞化学的分析揭示了疾病进展的重要见解。

8.The study employed various cytochemical 细胞化学的 techniques to analyze the tissue samples.

该研究采用了多种细胞化学的技术来分析组织样本。

9.Understanding cytochemical 细胞化学的 properties is crucial for developing targeted therapies.

理解细胞化学的特性对于开发靶向疗法至关重要。

10.The cytochemical 细胞化学的 markers were used to identify cancerous cells in the biopsy.

这些细胞化学的标记被用来识别活检中的癌细胞。

11.Researchers used cytochemical 细胞化学的 staining to differentiate between cell types in the sample.

研究人员使用细胞化学的染色方法来区分样本中的细胞类型。

作文

Cytochemistry is an essential branch of science that focuses on the chemical composition of cells and the biochemical processes that occur within them. The term cytochemical refers to the methods and techniques used to study the chemical constituents of cells, which can include proteins, nucleic acids, lipids, and carbohydrates. Understanding cytochemical processes is crucial for various fields, including biology, medicine, and biotechnology. In recent years, advancements in cytochemical techniques have allowed scientists to explore cellular functions at unprecedented levels. For instance, fluorescence microscopy, a cytochemical technique, enables researchers to visualize specific molecules within cells by tagging them with fluorescent dyes. This has opened new avenues for studying cellular dynamics and interactions in real-time. By employing such cytochemical techniques, scientists can identify how cells respond to different stimuli, which is vital for understanding diseases like cancer or infections.Moreover, the role of cytochemical analysis extends beyond basic research. In clinical settings, cytochemical tests are routinely used to diagnose various diseases. For example, blood smears analyzed through cytochemical staining can reveal abnormalities in blood cells that may indicate conditions such as leukemia or anemia. These diagnostic tools are invaluable, as they provide critical information that can guide treatment plans and improve patient outcomes.The integration of cytochemical methods with other technologies, such as genomics and proteomics, has further enhanced our understanding of cellular mechanisms. By combining cytochemical data with genetic information, researchers can gain insights into how specific genes influence cellular behavior and contribute to disease progression. This multidisciplinary approach is paving the way for personalized medicine, where treatments can be tailored to the unique cytochemical profiles of individual patients.Furthermore, educational institutions are increasingly emphasizing the importance of cytochemical studies in their curricula. Students pursuing degrees in biology or biomedical sciences are taught the fundamentals of cytochemical analysis, preparing them for careers in research, healthcare, or industry. As the demand for skilled professionals in these areas continues to grow, a solid foundation in cytochemical techniques will be essential for future scientists.In conclusion, the study of cytochemical properties is fundamental to our understanding of life at the cellular level. It not only aids in basic scientific research but also plays a critical role in clinical diagnostics and therapeutic developments. As technology advances, the field of cytochemical research will undoubtedly continue to evolve, offering new insights and applications that could revolutionize our approach to health and disease management. Thus, fostering a deeper understanding of cytochemical processes is vital for both current and future generations of scientists, as it lays the groundwork for innovative solutions to some of the most pressing challenges in medicine and biology today.

细胞化学是科学的一个重要分支，专注于细胞的化学成分及其内部发生的生化过程。术语cytochemical指的是用于研究细胞化学成分的方法和技术，这些成分可以包括蛋白质、核酸、脂质和碳水化合物。理解cytochemical过程对生物学、医学和生物技术等多个领域至关重要。近年来，cytochemical技术的进步使科学家能够以前所未有的水平探索细胞功能。例如，荧光显微镜作为一种cytochemical技术，使研究人员能够通过将特定分子标记为荧光染料来可视化细胞内的特定分子。这为实时研究细胞动态和相互作用开辟了新的途径。通过采用这样的cytochemical技术，科学家可以识别细胞如何响应不同的刺激，这对理解癌症或感染等疾病至关重要。此外，cytochemical分析的作用超越了基础研究。在临床环境中，cytochemical测试被常规用于诊断各种疾病。例如，通过cytochemical染色分析的血液涂片可以揭示血细胞中的异常，这可能表明白血病或贫血等情况。这些诊断工具非常宝贵，因为它们提供了关键的信息，可以指导治疗方案并改善患者的结果。cytochemical方法与基因组学和蛋白质组学等其他技术的结合进一步增强了我们对细胞机制的理解。通过将cytochemical数据与遗传信息结合，研究人员可以深入了解特定基因如何影响细胞行为并促进疾病进展。这种多学科的方法为个性化医学铺平了道路，在这种医学中，治疗可以根据个体患者独特的cytochemical特征量身定制。此外，教育机构越来越强调在课程中研究cytochemical的重要性。攻读生物学或生物医学科学学位的学生学习cytochemical分析的基础知识，为他们在研究、医疗或工业领域的职业生涯做好准备。随着这些领域对熟练专业人员的需求不断增长，扎实的cytochemical技术基础对未来的科学家来说将是必不可少的。总之，研究cytochemical特性是我们理解细胞水平生命的基础。它不仅有助于基础科学研究，还在临床诊断和治疗开发中发挥着关键作用。随着技术的进步，cytochemical研究领域无疑将继续发展，提供新的见解和应用，可能会革新我们对健康和疾病管理的方式。因此，加深对cytochemical过程的理解对当前和未来的科学家都是至关重要的，因为这为应对今天医学和生物学中一些最紧迫的挑战奠定了基础。