cybrid

简明释义

英[ˈsaɪbrɪd]美[ˈsaɪbrɪd]

n. [遗][农学] 胞质杂种

英英释义

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例句

1.Results indicated that the resultant cybrid cells are characterized by the appearance of hemoglobin and its expression might be served as a marker for the cybrids.

果与电镜和流式细胞光度计的实验结果一致，表明珠蛋白基因产物血红蛋白住杂交细胞中，能够表达并成为融合细胞的标志。

2.Results indicated that the resultant cybrid cells are characterized by the appearance of hemoglobin and its expression might be served as a marker for the cybrids.

果与电镜和流式细胞光度计的实验结果一致，表明珠蛋白基因产物血红蛋白住杂交细胞中，能够表达并成为融合细胞的标志。

3.The research team developed a new type of cybrid 细胞杂交体 that combines the strengths of both plant and animal cells.

研究团队开发了一种新的cybrid 细胞杂交体，结合了植物细胞和动物细胞的优点。

4.In biotechnology, a cybrid 细胞杂交体 can be used to produce proteins that are difficult to synthesize in traditional ways.

在生物技术中，cybrid 细胞杂交体可用于生产传统方法难以合成的蛋白质。

5.Scientists are exploring the potential of cybrids 细胞杂交体 for creating new forms of sustainable energy.

科学家们正在探索cybrids 细胞杂交体在创造新型可持续能源方面的潜力。

6.The use of cybrids 细胞杂交体 in agriculture could lead to crops that are more resistant to diseases.

在农业中使用cybrids 细胞杂交体可能会导致作物对疾病的抵抗力更强。

7.Researchers are studying how cybrids 细胞杂交体 can help in the production of biofuels.

研究人员正在研究cybrids 细胞杂交体如何帮助生产生物燃料。

作文

In the rapidly evolving field of biotechnology, the term cybrid refers to a hybrid cell that is created by fusing a cytoplast from one cell with the nucleus of another. This innovative concept has opened up new avenues for research and applications in medicine, genetics, and cellular biology. The creation of cybrid cells allows scientists to combine the desirable traits of different organisms, potentially leading to breakthroughs in treatment and understanding of various diseases. One of the most significant advantages of cybrid technology is its potential in regenerative medicine. By utilizing the unique properties of cybrid cells, researchers can develop therapies that may help repair or replace damaged tissues and organs. For example, if scientists were to create a cybrid cell that possesses the regenerative abilities of stem cells but is derived from a patient’s own cells, it could significantly reduce the risk of rejection and complications associated with organ transplants. Moreover, cybrid cells can serve as powerful tools for studying genetic diseases. By incorporating the nucleus of a disease-affected cell into a healthy cytoplast, researchers can observe how the disease manifests and progresses. This approach not only enhances our understanding of the underlying mechanisms of various genetic disorders but also aids in the development of targeted treatments. The implications of cybrid technology extend beyond medical applications. In agriculture, for instance, cybrid cells can be used to create crops that are more resilient to environmental stressors such as drought or disease. By fusing the genetic material of a hardy plant with that of a high-yield crop, scientists can produce varieties that are both productive and sustainable. This innovation could play a crucial role in addressing food security issues in the face of climate change. However, the creation and use of cybrid cells raise ethical considerations that must be addressed. The manipulation of genetic material and the fusion of cells from different species present challenges in terms of bioethics and regulatory frameworks. It is essential for scientists, policymakers, and the public to engage in discussions about the responsible use of cybrid technology to ensure that its benefits are realized without compromising ethical standards. In conclusion, the concept of cybrid cells represents a fascinating intersection of science and ethics, offering immense potential for advancements in medicine and agriculture. As we continue to explore the possibilities that cybrid technology presents, it is imperative that we remain mindful of the ethical implications and strive for a balance between innovation and responsibility. The future of cybrid research holds promise, and with careful consideration, it may lead to significant improvements in human health and sustainability.

在快速发展的生物技术领域，术语cybrid指的是一种通过将一个细胞的细胞质与另一个细胞的细胞核融合而创建的杂合细胞。这一创新概念为医学、遗传学和细胞生物学的研究和应用开辟了新的途径。cybrid细胞的创建使科学家能够结合不同生物体的优良特性，潜在地导致对各种疾病的治疗和理解的突破。 cybrid技术的一个显著优势是其在再生医学中的潜力。通过利用cybrid细胞的独特性质，研究人员可以开发出有助于修复或替代受损组织和器官的疗法。例如，如果科学家能够创造出具有干细胞再生能力但来源于患者自身细胞的cybrid细胞，这将显著降低排斥反应和器官移植相关并发症的风险。 此外，cybrid细胞可以作为研究遗传疾病的强大工具。通过将受疾病影响的细胞的细胞核与健康细胞质结合，研究人员可以观察疾病是如何表现和进展的。这种方法不仅增强了我们对各种遗传疾病潜在机制的理解，还帮助开发针对性的治疗方案。 cybrid技术的影响超越了医学应用。例如，在农业中，cybrid细胞可用于创造对环境压力（如干旱或疾病）更具韧性的作物。通过将一种耐寒植物的遗传物质与高产作物的遗传物质融合，科学家可以生产出既高产又可持续的品种。这一创新可能在应对气候变化带来的粮食安全问题方面发挥关键作用。 然而，创建和使用cybrid细胞带来了必须解决的伦理考虑。对遗传物质的操控和不同物种细胞的融合在生物伦理和监管框架方面提出了挑战。科学家、政策制定者和公众之间就cybrid技术的负责任使用进行讨论至关重要，以确保其好处得以实现而不妨碍伦理标准。 总之，cybrid细胞的概念代表了科学与伦理的迷人交汇，提供了在医学和农业领域取得巨大进展的巨大潜力。随着我们继续探索cybrid技术所呈现的可能性，我们必须时刻关注伦理影响，并努力在创新与责任之间保持平衡。cybrid研究的未来充满希望，通过谨慎的考虑，可能会带来人类健康和可持续性的显著改善。