autogenetic cutting

简明释义

1. 气切; 2. 气割;

英英释义

例句

1.During the workshop, we learned how autogenetic cutting can enhance surgical techniques.

在研讨会上，我们学习了如何利用自生切割来增强外科技术。

2.In tissue engineering, autogenetic cutting is crucial for promoting natural healing.

在组织工程中，自生切割对于促进自然愈合至关重要。

3.Doctors prefer autogenetic cutting methods for their lower risk of complications.

医生们更喜欢自生切割方法，因为其并发症风险较低。

4.The surgeon explained that the procedure involved autogenetic cutting to minimize recovery time.

外科医生解释说，该手术涉及自生切割以最小化恢复时间。

5.The research paper highlighted the benefits of autogenetic cutting in regenerative medicine.

研究论文强调了自生切割在再生医学中的好处。

作文

In the realm of genetics, the term autogenetic cutting refers to a process where genetic material is cut or modified in a way that is self-derived or self-originating. This concept can be particularly fascinating when we consider its implications in various fields such as biotechnology, medicine, and even agriculture. The ability to manipulate genetic material has opened up new avenues for research and development, allowing scientists to create organisms with desirable traits or to study the functions of specific genes. One of the most significant applications of autogenetic cutting is in the field of gene therapy. Gene therapy involves altering the genes inside an individual's cells to treat or prevent disease. By utilizing techniques that enable autogenetic cutting, researchers can effectively target and modify faulty genes responsible for certain genetic disorders. This not only holds the potential to cure diseases but can also lead to advancements in personalized medicine, where treatments are tailored to individual genetic profiles.Moreover, the agricultural sector has also benefited from the principles of autogenetic cutting. Farmers and scientists can now engineer crops to be more resistant to pests, diseases, and environmental changes. This genetic modification process allows for the creation of plants that can thrive in less-than-ideal conditions, thereby improving food security around the globe. For instance, genetically modified organisms (GMOs) often utilize techniques akin to autogenetic cutting to enhance crop yields and nutritional value.However, the practice of autogenetic cutting is not without controversy. Ethical concerns arise regarding the manipulation of genetic material, especially when it comes to human genes. Questions about the long-term effects of such modifications, potential unintended consequences, and the moral implications of 'playing God' are hotly debated topics among scientists, ethicists, and the general public alike. It is crucial for ongoing discussions to address these ethical dilemmas while balancing scientific progress and societal values.In conclusion, autogenetic cutting serves as a powerful tool in modern science, providing possibilities that were once deemed impossible. Its applications in gene therapy and agriculture illustrate the profound impact this technique can have on enhancing human health and food production. Nevertheless, as we move forward with such technologies, it is imperative to engage in thoughtful dialogue about the ethical considerations involved. The future of autogenetic cutting holds great promise, but it must be navigated with care and responsibility to ensure that it benefits humanity as a whole.

在遗传学领域，术语自生切割指的是一种遗传物质以自我衍生或自我起源的方式被切割或修改的过程。当我们考虑其在生物技术、医学甚至农业等各个领域的影响时，这一概念尤其引人入胜。操纵遗传物质的能力为研究和开发开辟了新途径，使科学家能够创造具有理想特征的生物体或研究特定基因的功能。自生切割的一个重要应用是在基因治疗领域。基因治疗涉及改变个体细胞内的基因，以治疗或预防疾病。通过利用能够实现自生切割的技术，研究人员可以有效地针对并修改导致某些遗传疾病的有缺陷基因。这不仅有可能治愈疾病，还可以推动个性化医学的发展，即根据个体的遗传特征量身定制治疗方案。此外，农业部门也受益于自生切割的原理。农民和科学家现在可以对作物进行工程改造，使其更能抵御害虫、疾病和环境变化。这种基因修改过程使得创造能够在不理想条件下生长的植物成为可能，从而改善全球的粮食安全。例如，转基因生物（GMO）往往利用类似于自生切割的技术来提高作物产量和营养价值。然而，自生切割的做法并非没有争议。关于遗传物质操控的伦理问题，特别是当涉及到人类基因时，令人担忧。关于此类修改的长期影响、潜在的意外后果以及“玩上帝”的道德含义等问题，都是科学家、伦理学家和公众普遍热议的话题。在推进这些技术的同时，持续的讨论对于平衡科学进步与社会价值观至关重要。总之，自生切割作为现代科学中的一项强大工具，提供了曾经被认为不可能的可能性。它在基因治疗和农业中的应用展示了这一技术对改善人类健康和粮食生产的深远影响。然而，随着我们向前推进这些技术，务必进行深入的伦理考量讨论。自生切割的未来充满希望，但必须谨慎和负责任地导航，以确保它惠及全人类。