cytochemistry
简明释义
英[ˌsaɪtəʊˈkemɪstrɪ]美[saɪtəˈkeməstri]
n. 细胞化学,显微生物化学
英英释义
单词用法
细胞化学染色 | |
细胞化学方法 | |
细胞化学标记 | |
进行细胞化学研究 | |
应用细胞化学技术 | |
进行细胞化学分析 |
同义词
| 细胞化学 | Cytochemistry is vital for understanding cellular processes. | 细胞化学对理解细胞过程至关重要。 |
反义词
| 细胞病理学 | Cytopathology focuses on the study of disease at the cellular level. | 细胞病理学专注于细胞层面的疾病研究。 | |
| 分子生物学 | Molecular biology examines the interactions between various cellular systems. | 分子生物学研究各种细胞系统之间的相互作用。 |
例句
1.Cytochemical and immunohistochemical characteristics of spermatogonial stem cell of culture in vitro were studied with cytochemistry and immunohistochemistry.
应用细胞化学、免疫组织化学方法研究了体外培养小鼠精原干细胞的细胞化学和免疫组织化学特性。
2.Conclusion The HMSC can be isolated with density-grad centrifugal and anchoring screening. The method to identify HMSC with immunocytochemistry, cytochemistry and electron microscopy is effective.
结论:利用密度梯度离心和贴壁筛选的方法可以分离hmsc,联合应用免疫细胞化学、细胞化学和电镜等技术手段鉴定HMSC的方法有效。
3.The acidophilic granules in the proximal convoluted tubule of the kidney in Tilapia nilotica were studied by electron microscopy, enzyme histochemistry and enzyme cytochemistry.
用电镜和酶组织化学技术探明了尼罗罗非鱼(Tilapianilotica)肾近曲小管细胞嗜酸性颗粒的结构实质、来源和存在意义。
4.The structure and function of PM were observed with quantitative cytochemistry, lectinaffinitive cytochemistry, transmission and scanning electron microscope and phagocytic test.
采用定量酶细胞化学、凝集素亲合细胞化学、透射电镜、扫描电镜及吞噬实验观察P M的结构和功能变化。
5.Methods: The chemistry and cytochemistry techniques were used.
方法:化学法和细胞化学法。
6.The apoptotic cells were detected using immune-fluorescence cytochemistry technology.
免疫荧光细胞化学方法检测移植肠凋亡细胞;
7.Using cytochemistry (细胞化学), scientists can determine enzyme activity within cells.
通过使用cytochemistry(细胞化学),科学家可以确定细胞内的酶活性。
8.In cancer research, cytochemistry (细胞化学) helps identify abnormal cell types.
在癌症研究中,cytochemistry(细胞化学)有助于识别异常细胞类型。
9.The study of cell structures often relies on techniques from cytochemistry (细胞化学) to visualize specific components.
细胞结构的研究通常依赖于来自cytochemistry(细胞化学)的技术来可视化特定成分。
10.The application of cytochemistry (细胞化学) is crucial in diagnosing certain diseases.
应用cytochemistry(细胞化学)在某些疾病的诊断中至关重要。
11.Researchers employ cytochemistry (细胞化学) to study the effects of drugs on cellular processes.
研究人员利用cytochemistry(细胞化学)研究药物对细胞过程的影响。
作文
Cytochemistry is a specialized branch of science that focuses on the chemical composition and processes within cells. Understanding cytochemistry (细胞化学) is crucial for various fields, including biology, medicine, and biotechnology. The study of cytochemistry involves analyzing the distribution and activity of cellular components such as proteins, nucleic acids, and lipids. By utilizing specific staining techniques and biochemical assays, researchers can visualize and quantify these components, leading to deeper insights into cellular function and pathology.One of the significant applications of cytochemistry (细胞化学) is in diagnosing diseases. For instance, cancer research heavily relies on cytochemistry to identify abnormal cell structures and functions. By examining the chemical markers present in cancerous cells, scientists can develop targeted therapies that are more effective and less harmful than traditional treatments. This approach not only enhances our understanding of cancer biology but also paves the way for personalized medicine, where treatments are tailored to the individual characteristics of each patient's disease.Moreover, cytochemistry (细胞化学) plays a vital role in developmental biology. Researchers use cytochemistry techniques to trace the lineage of cells during embryonic development. By marking specific cell types with fluorescent tags or other indicators, scientists can observe how cells differentiate and migrate, providing insights into developmental processes and potential congenital disorders. This knowledge is essential for advancing regenerative medicine, where understanding cell behavior can lead to innovative therapies for repairing damaged tissues.In addition to its applications in health sciences, cytochemistry (细胞化学) is also integral to environmental studies. Scientists analyze the chemical composition of cells from various organisms to assess the impact of pollutants and climate change on ecosystems. For example, by studying the cellular responses of aquatic organisms to contaminants, researchers can gauge the health of marine environments and develop strategies for conservation.Furthermore, the field of cytochemistry (细胞化学) is continually evolving with advancements in technology. Techniques such as mass spectrometry and high-throughput screening have revolutionized the way researchers study cellular components. These innovations allow for more comprehensive analyses, enabling scientists to uncover intricate details about cellular functions that were previously inaccessible. As the tools and methods in cytochemistry advance, so too does our capacity to understand the complexities of life at the cellular level.In conclusion, cytochemistry (细胞化学) is a fundamental discipline that bridges various scientific fields and has far-reaching implications for human health, environmental sustainability, and our understanding of life's processes. As we continue to explore the chemical underpinnings of cells, the insights gained from cytochemistry will undoubtedly lead to significant advancements in science and medicine. Therefore, fostering interest and education in this field is essential for future generations of scientists who will tackle the challenges of tomorrow.
