recombined
简明释义
英[ˌriː.kəmˈbaɪnd]美[ˌriː.kəmˈbaɪnd]
adj. 调配的;调制的
v. 调配;重新结合(recombine 的过去分词)
英英释义
Recombined refers to the process of combining or assembling again elements that were previously separated or mixed. | recombined指的是将之前分开的或混合的元素再次组合或组装的过程。 |
单词用法
重新组合的DNA | |
重新组合的基因 | |
重新组合的元素 | |
从多个来源重新组合而成 | |
重新组合的结构 | |
重新组合成一种新形式 |
同义词
| 重新组装 | 这些组件被重新组装以创建一个新设备。 | ||
| 重建 | 这些数据是从原始来源重建的。 | ||
| 混合 | 这些成分被混合在一起形成面糊。 | ||
| 合并 | 这两家公司合并以增强市场存在感。 |
反义词
| 分开的 | 这些组件被分开以便于分析。 | ||
| 拆解的 | 机器被拆解以进行维修。 |
例句
1.Which, when the individual components are recombined, forms the following complete uri?
当各个组件被重新组合起来时,形成如下所示的完整uri。
2.Over the next two months, the exhibition will be periodically updated, with the pieces recombined and reorganized to suggest different storylines.
在接下来的两个月半内,展览将通过周期性的内容更新生长,借由作品间不同的排列组合方式交织上演。
3.The recombined frames show off both the rich star field and faint details of the comet.
重组的图像既突出富于恒星的星野,也能展现彗星暗弱的细节。
4.Part of one gene could be recombined with part of other gene to give one normal gene.
一个基因的一部分和另一个基因的一部分能重组而产生一个正常基因。
5.The SDS gel electrophoresis analysis shows that the expression of EPSPS recombined protein is over 55% and the purified EPSPS recombined protein reached as 90%.
SDS电泳分析结果表明EPSPS重组蛋白的表达量在55%以上,纯化的EPSPS重组蛋白纯度可以达到90%。
6.The reaction process of monomers in plasma showed that the monomers were broken to free radical pieces in plasma, then these pieces recombined into the products.
由产物分析推断了单体在等离子态下经历的反应历程。
7.After the experiment, the researchers recombined the data to find new patterns.
实验结束后,研究人员重新组合数据以寻找新的模式。
8.The software allows users to recombined different audio tracks for a unique sound.
该软件允许用户重新组合不同的音轨,以获得独特的声音。
9.The DNA strands were recombined to create a new genetic sequence.
DNA链被重新组合以创建一个新的基因序列。
10.In the lab, scientists recombined various chemical compounds to test their reactions.
在实验室中,科学家们重新组合了各种化合物以测试它们的反应。
11.The artist recombined elements from various styles to create a new masterpiece.
艺术家重新组合了来自不同风格的元素,以创造出一幅新杰作。
作文
In the world of genetics, the concept of recombination plays a crucial role in the diversity of life. When organisms reproduce, their genetic material can be mixed and matched in various ways, leading to new combinations of genes. This process is known as genetic recombination, where segments of DNA are broken and joined to other segments. The term recombined refers to the result of this mixing process, where the original genetic sequences have been altered to create something new. For example, in sexually reproducing organisms, the offspring inherit a mix of genes from both parents, resulting in traits that may not be present in either parent. This natural phenomenon is essential for evolution, as it allows populations to adapt to changing environments over generations.In agriculture, scientists have harnessed the power of recombined DNA to create genetically modified organisms (GMOs). By selecting specific genes from one organism and inserting them into another, researchers can enhance desirable traits such as pest resistance or drought tolerance in crops. This technology has revolutionized farming practices, enabling farmers to produce more food with fewer resources. However, the use of GMOs has sparked debates about safety, ethics, and environmental impacts. Critics argue that recombined genes could lead to unforeseen consequences in ecosystems, while proponents emphasize the potential benefits of increased food security.Moreover, the concept of recombined genetic material extends beyond plants and animals. In medicine, researchers are exploring gene therapy, which involves altering the genes inside a person's cells to treat or prevent disease. By introducing recombined genes that can correct genetic disorders, scientists hope to provide new treatments for conditions that currently have no cure. This emerging field holds great promise but also raises ethical questions regarding the manipulation of human DNA.The implications of recombined genetics are vast, affecting not only biological research but also our understanding of inheritance and evolution. As we continue to study the intricacies of DNA and its functions, the ability to manipulate genetic material will likely lead to groundbreaking discoveries. However, with such power comes responsibility. It is essential for scientists, policymakers, and the public to engage in discussions about the ethical implications of recombined DNA technologies.In conclusion, the term recombined encapsulates a fundamental process in genetics that has far-reaching consequences across various fields. From enhancing agricultural productivity to advancing medical treatments, the ability to combine genetic materials opens up new horizons for innovation. As we navigate the complexities of this science, it is vital to balance the benefits of recombined technologies with careful consideration of their ethical and ecological impacts. The future of genetics is bright, and understanding the significance of recombined DNA will be key to unlocking its full potential.
在遗传学的世界中,重组的概念在生命的多样性中发挥着至关重要的作用。当生物体繁殖时,它们的遗传物质可以以各种方式混合和匹配,从而导致基因的新组合。这个过程被称为基因重组,其中DNA片段被打破并连接到其他片段。术语recombined指的是这种混合过程的结果,其中原始的遗传序列已被改变以创建新的东西。例如,在有性繁殖的生物中,后代从两个父母那里继承了一种基因的混合,导致可能在任何一个父母身上都不存在的特征。这种自然现象对进化至关重要,因为它使种群能够随着世代的变化而适应不断变化的环境。在农业中,科学家们利用recombined DNA的力量创造了转基因生物(GMO)。通过选择来自一种生物的特定基因并将其插入另一种生物,研究人员可以增强作物的耐虫害或耐旱等理想特性。这项技术彻底改变了农业实践,使农民能够用更少的资源生产更多的食物。然而,转基因生物的使用引发了关于安全性、伦理和环境影响的辩论。批评者认为,recombined基因可能会导致生态系统中无法预见的后果,而支持者则强调了增加粮食安全的潜在好处。此外,recombined遗传材料的概念不仅限于植物和动物。在医学领域,研究人员正在探索基因治疗,这涉及改变一个人细胞内的基因以治疗或预防疾病。通过引入可以纠正遗传疾病的recombined基因,科学家希望为目前没有治愈方法的疾病提供新的治疗。这一新兴领域充满希望,但也引发了关于操纵人类DNA的伦理问题。recombined遗传学的影响是巨大的,影响着生物研究以及我们对遗传和进化的理解。随着我们继续研究DNA及其功能的复杂性,操纵遗传材料的能力可能会导致突破性的发现。然而,拥有如此强大的力量也伴随着责任。科学家、政策制定者和公众必须参与关于recombined DNA技术伦理影响的讨论。总之,术语recombined概括了遗传学中的一个基本过程,该过程在各个领域具有深远的影响。从增强农业生产力到推动医学治疗,结合遗传材料的能力为创新开辟了新天地。在我们驾驭这一科学的复杂性时,平衡recombined技术的好处与对其伦理和生态影响的仔细考虑至关重要。遗传学的未来是光明的,理解recombined DNA的重要性将是解锁其全部潜力的关键。
