transgene

简明释义

英[ˈtrændʒiːn]美[ˈtrænsˌdʒin;ˈtrænzˌdʒin]

n. [遗] 转基因；输异基因

英英释义

单词用法

同义词

反义词

例句

1.The functional strength was correlated with the level of transgene expression.

其功能的强弱与其表达量相关。

2.The functional strength was correlated with the level of transgene expression.

其功能的强弱与其表达量相关。

3.A transgene can be used to produce insulin in genetically modified bacteria.

可以使用转基因在基因改造的细菌中生产胰岛素。

4.The transgene responsible for the trait was identified in the laboratory.

负责该性状的转基因在实验室中被鉴定出来。

5.Researchers are studying the effects of a specific transgene on crop yield.

研究人员正在研究特定转基因对作物产量的影响。

6.Scientists introduced a new transgene into the corn to enhance its resistance to pests.

科学家将一个新的转基因引入玉米，以提高其对害虫的抗性。

7.The transgene was inserted into the plant genome using Agrobacterium-mediated transformation.

该转基因通过农杆菌介导的转化插入植物基因组中。

作文

In recent years, the field of genetics has made tremendous strides, particularly with the advent of genetic engineering. One of the most significant concepts that have emerged from this field is the idea of a transgene (转基因), which refers to a gene or genetic material that has been artificially inserted into an organism's genome. This process allows scientists to introduce new traits or characteristics into plants, animals, and even human cells, leading to numerous applications in agriculture, medicine, and research.The concept of transgene (转基因) technology has revolutionized the way we approach food production. For instance, genetically modified organisms (GMOs) are created by inserting specific transgenes (转基因) that confer desirable traits such as pest resistance, drought tolerance, or enhanced nutritional content. These modifications can lead to higher crop yields and reduced reliance on chemical pesticides, which is crucial for sustainable agriculture in the face of a growing global population.Moreover, transgene (转基因) technology has significant implications in the field of medicine. Researchers are exploring the use of transgenes (转基因) to develop gene therapies for various genetic disorders. By introducing a functional copy of a gene into a patient's cells, it may be possible to correct genetic defects and alleviate symptoms of diseases like cystic fibrosis or hemophilia. This innovative approach holds the promise of transforming how we treat chronic illnesses and inherited conditions.However, the use of transgene (转基因) technology is not without controversy. Critics argue that the long-term effects of introducing foreign genes into organisms are not fully understood and could pose risks to human health and the environment. Concerns about biodiversity loss, the emergence of resistant pests, and potential allergenicity of GMOs have led to calls for stricter regulations and labeling of genetically modified products. Public perception plays a significant role in the acceptance of transgene (转基因) technology, and many consumers remain wary of GMOs.Despite these challenges, the potential benefits of transgene (转基因) technology cannot be overlooked. As the world grapples with issues like climate change and food security, the ability to engineer crops that can withstand harsh conditions or provide essential nutrients becomes increasingly vital. Furthermore, ongoing research into the ethical implications and safety assessments of transgene (转基因) technology aims to address public concerns while fostering innovation.In conclusion, the term transgene (转基因) encapsulates a powerful tool in modern science that has the potential to reshape our world. From enhancing agricultural productivity to paving the way for groundbreaking medical therapies, transgene (转基因) technology offers exciting possibilities. However, it is essential to balance these advancements with careful consideration of ethical and environmental implications to ensure that we harness this technology responsibly for the benefit of society.