mutants

简明释义

英[ˈmjuːtənts]美[ˈmjuːtənts]

n. [遗]突变体（mutant 的复数）

英英释义

单词用法

同义词

反义词

例句

1.This will be the age of mutants.

这将是变种人的时代。

2.In addition, the number of thylakoid membranes in these mutants decreased and their chloroplasts were smaller.

此外，在这些突变体中，类囊体膜的数量也有所降低，它们的叶绿体亦相对较小。

3.Infested folk swarm at night. By day, the unfortunate mutants must remain burrowed to avoid UV radiation.

被感染的家伙们在夜晚才扎堆活动，在白天的时候，那些倒霉的变异体们必须躲在地底以避免紫外线辐射。

4.However, there is no useful serum marker that can predict early emergence of mutants during LAM therapy.

然而，在拉米夫定的治疗过程中，并没有有效的血清标志物能预测变异的早期发生。

5.We are mutants.

我们是突变种。

6.The Mutants believe we are an ally now, use them.

变异人现在相信我们是盟友了，利用他们。

7.Objective To construct N-linked glycosylation site mutants of hantavirus.

目的构建汉坦病毒糖基化位点的突变体。

8.Scientists are studying the effects of radiation on 突变体 to understand genetic changes.

科学家们正在研究辐射对突变体的影响，以了解基因变化。

9.In the lab, they discovered several new 突变体 that exhibit unique properties.

在实验室，他们发现了几种新的突变体，展现出独特的特性。

10.The comic book features a team of superheroes who are 突变体 with special abilities.

这本漫画书讲述了一组拥有特殊能力的超级英雄，他们是突变体。

11.Researchers are investigating how 突变体 can resist diseases in plants.

研究人员正在调查如何使植物中的突变体抵抗疾病。

12.The film depicts a dystopian world where 突变体 are hunted by the government.

这部电影描绘了一个反乌托邦的世界，在那里突变体被政府追捕。

作文

In the realm of science fiction and biology, the term mutants (突变体) often evokes images of extraordinary beings with enhanced abilities or distinct characteristics. These mutants (突变体) are frequently depicted in popular media as a result of genetic alterations, whether through natural processes or experimental interventions. The concept of mutants (突变体) raises intriguing questions about the nature of evolution, adaptation, and the ethical implications of genetic manipulation. Historically, the idea of mutants (突变体) can be traced back to the early studies of genetics. Scientists like Gregor Mendel laid the groundwork for understanding heredity, but it was not until the discovery of DNA that the true potential for mutants (突变体) became apparent. With advancements in genetic engineering, the ability to create and study mutants (突变体) has expanded significantly. For instance, researchers can now induce mutations in organisms to observe how these changes affect their traits and behaviors. In literature and film, mutants (突变体) are often portrayed as individuals possessing superhuman abilities, such as telepathy, super strength, or the power to manipulate elements. Iconic franchises like "X-Men" showcase a diverse range of mutants (突变体), each with unique powers that reflect their personal struggles and societal challenges. These narratives not only entertain but also serve as a metaphor for diversity and acceptance, highlighting the importance of embracing differences among individuals. From a scientific perspective, the study of mutants (突变体) can lead to significant breakthroughs in medicine and agriculture. For example, scientists have developed genetically modified crops that are more resistant to pests and diseases, effectively creating mutants (突变体) that can thrive in challenging environments. Additionally, understanding the mechanisms behind genetic mutations can pave the way for innovative treatments for genetic disorders in humans. By studying how certain mutants (突变体) adapt to their surroundings, researchers can identify potential therapeutic targets for diseases. However, the creation and manipulation of mutants (突变体) also raise ethical concerns. The prospect of designing 'designer babies' or creating organisms with specific traits sparks debates about the boundaries of science and morality. Questions arise regarding the potential consequences of playing God with genetics and the implications for biodiversity. As we delve deeper into the world of mutants (突变体), it is crucial to consider the ethical frameworks that guide our research and applications. In conclusion, the concept of mutants (突变体) serves as a fascinating intersection between science fiction and real-world science. While they may be seen as fantastical beings in popular culture, the underlying principles of mutation and adaptation are very much grounded in biological reality. As we continue to explore the genetic landscape, the implications of mutants (突变体) will undoubtedly play a significant role in shaping our understanding of life itself. Whether through the lens of entertainment or scientific inquiry, the study of mutants (突变体) invites us to reflect on the complexities of existence and the potential for change.

在科学幻想和生物学的领域中，术语mutants（突变体）常常唤起对拥有超凡能力或独特特征的非凡生物的想象。这些mutants（突变体）通常在流行媒体中被描绘为遗传改变的结果，无论是通过自然过程还是实验干预。mutants（突变体）的概念引发了关于进化、本能适应以及基因操控伦理含义的有趣问题。 历史上，mutants（突变体）的概念可以追溯到早期的遗传学研究。像格里戈尔·孟德尔这样的科学家奠定了理解遗传的基础，但直到DNA的发现，mutants（突变体）的真正潜力才变得明显。随着基因工程的进步，创造和研究mutants（突变体）的能力显著扩大。例如，研究人员现在可以诱导生物体中的突变，以观察这些变化如何影响它们的特征和行为。 在文学和电影中，mutants（突变体）通常被描绘为拥有超人能力的个体，如心灵感应、超强力量或操控元素的能力。像《X战警》这样的经典系列展示了多样化的mutants（突变体），每个角色都有独特的能力，反映了他们个人的挣扎和社会挑战。这些叙事不仅提供娱乐，还作为多样性和接受的重要隐喻，强调了拥抱个体差异的重要性。 从科学角度来看，研究mutants（突变体）可以带来医学和农业的重大突破。例如，科学家们开发了对害虫和疾病更具抵抗力的转基因作物，有效地创造了能够在恶劣环境中生存的mutants（突变体）。此外，理解遗传突变背后的机制可以为人类遗传疾病的创新治疗铺平道路。通过研究某些mutants（突变体）如何适应其环境，研究人员可以确定潜在的治疗目标。 然而，创造和操控mutants（突变体）也引发了伦理担忧。设计“设计婴儿”或创造具有特定特征的生物体的前景引发了关于科学和道德界限的辩论。关于操控基因的后果以及对生物多样性的影响的问题浮出水面。当我们更深入地探讨mutants（突变体）的世界时，考虑指导我们研究和应用的伦理框架至关重要。 总之，mutants（突变体）的概念作为科学幻想与现实科学之间的迷人交汇点。尽管它们在流行文化中可能被视为奇幻生物，但突变和适应的基本原理在生物现实中是非常扎根的。随着我们继续探索遗传景观，mutants（突变体）的含义无疑将在塑造我们对生命本质的理解中发挥重要作用。无论通过娱乐还是科学探究，研究mutants（突变体）邀请我们反思生存的复杂性和变化的潜力。