growth inhibition ratio

简明释义

生长抑制率

英英释义

例句

1.In this experiment, we calculated the growth inhibition ratio 生长抑制比 to evaluate the effectiveness of the new treatment.

在这个实验中，我们计算了生长抑制比以评估新治疗的有效性。

2.The study measured the growth inhibition ratio 生长抑制比 of the bacteria in the presence of various antibiotics.

这项研究测量了在不同抗生素存在下细菌的生长抑制比。

3.Researchers found a significant correlation between the growth inhibition ratio 生长抑制比 and the concentration of the drug used.

研究人员发现，所用药物浓度与生长抑制比之间存在显著相关性。

4.The growth inhibition ratio 生长抑制比 was significantly lower in the control group compared to the treated group.

与处理组相比，控制组的生长抑制比显著较低。

5.A higher growth inhibition ratio 生长抑制比 indicates that the compound is more effective at preventing cell division.

更高的生长抑制比表明该化合物在阻止细胞分裂方面更有效。

作文

In the field of biology and pharmacology, understanding the mechanisms that regulate cell growth is crucial for developing effective treatments for various diseases, particularly cancer. One important concept in this context is the growth inhibition ratio, which is a quantitative measure used to evaluate the effectiveness of a substance in inhibiting the growth of cells. The growth inhibition ratio can provide insights into how certain drugs or compounds affect cellular proliferation, enabling researchers to identify potential therapeutic agents.The growth inhibition ratio is typically calculated by comparing the growth of treated cells to that of control cells under similar conditions. For instance, if a specific drug is applied to a culture of cancer cells, researchers will measure the number of cells after treatment and compare it to the number of cells in a control group that did not receive the drug. This comparison allows for the calculation of the growth inhibition ratio, which is expressed as a percentage. A higher ratio indicates a more significant inhibition of cell growth, suggesting that the substance tested may be an effective treatment option.Understanding the growth inhibition ratio is essential not only for evaluating the efficacy of new drugs but also for understanding the underlying biological processes that govern cell growth. It can help researchers determine the optimal dosage and timing for drug administration, as well as identify any potential side effects that may arise from treatment. Moreover, the growth inhibition ratio can be used to compare the effectiveness of different compounds, aiding in the selection of the most promising candidates for further development.In addition to its applications in drug development, the growth inhibition ratio can also be utilized in environmental studies. For example, researchers may investigate the impact of pollutants on the growth of aquatic organisms by measuring the growth inhibition ratio of these organisms when exposed to various concentrations of contaminants. This information is vital for assessing the ecological risks associated with environmental pollutants and for establishing guidelines to protect ecosystems.Furthermore, the growth inhibition ratio can have implications beyond the laboratory setting. In agriculture, for instance, understanding how certain herbicides inhibit the growth of weeds compared to crops can guide farmers in making informed decisions about pest management strategies. By optimizing the use of these chemicals, farmers can minimize their impact on non-target species while maximizing crop yields.In conclusion, the growth inhibition ratio is a fundamental metric in both biological research and practical applications. Its ability to quantify the effectiveness of various substances in inhibiting cell growth makes it an invaluable tool for scientists and researchers. Whether in the context of drug development, environmental studies, or agricultural practices, the growth inhibition ratio provides critical insights that can drive innovation and improve outcomes across multiple fields. As research continues to evolve, the importance of this ratio will undoubtedly grow, leading to more effective treatments and sustainable practices in our ever-changing world.

在生物学和药理学领域，理解调节细胞生长的机制对于开发有效的治疗各种疾病（尤其是癌症）至关重要。在这个背景下，一个重要的概念是生长抑制比率，这是一个用于评估某种物质抑制细胞生长效果的定量指标。生长抑制比率可以提供关于某些药物或化合物如何影响细胞增殖的见解，使研究人员能够识别潜在的治疗剂。生长抑制比率通常通过将处理细胞的生长与在类似条件下的对照细胞的生长进行比较来计算。例如，如果将特定药物应用于癌细胞培养中，研究人员将测量处理后细胞的数量，并将其与未接受药物的对照组中的细胞数量进行比较。这种比较允许计算出生长抑制比率，其以百分比表示。更高的比率表示细胞生长抑制更显著，表明所测试的物质可能是有效的治疗选择。理解生长抑制比率不仅对于评估新药的有效性至关重要，还对于理解支配细胞生长的基本生物过程也很重要。它可以帮助研究人员确定药物给药的最佳剂量和时间，以及识别治疗中可能出现的任何副作用。此外，生长抑制比率可用于比较不同化合物的有效性，从而帮助选择最有前景的候选药物进行进一步开发。除了在药物开发中的应用外，生长抑制比率还可以用于环境研究。例如，研究人员可以调查污染物对水生生物生长的影响，通过测量这些生物在暴露于各种浓度的污染物时的生长抑制比率。这些信息对于评估与环境污染物相关的生态风险以及制定保护生态系统的指导方针至关重要。此外，生长抑制比率在实验室之外也可能具有重要意义。在农业中，了解某些除草剂如何抑制杂草生长与作物生长的比较，可以指导农民就害虫管理策略做出明智的决策。通过优化这些化学品的使用，农民可以最大限度地减少对非目标物种的影响，同时最大化作物产量。总之，生长抑制比率是生物研究和实际应用中的一个基本指标。它量化各种物质抑制细胞生长的有效性，使其成为科学家和研究人员不可或缺的工具。无论是在药物开发、环境研究还是农业实践方面，生长抑制比率提供了关键的见解，可以推动创新并改善多个领域的结果。随着研究的不断发展，这一比率的重要性无疑会增加，从而在我们不断变化的世界中带来更有效的治疗和可持续的实践。