monogenetic
简明释义
英[ˌmɒnəʊdʒɪˈnetɪk]美[ˌmɑːnoʊdʒɪˈnetɪk]
adj. 一元发生的;无性生殖的
英英释义
与单一祖先来源相关或衍生的。 | |
Describing a condition, trait, or species that originates from a single genetic lineage. | 描述一种条件、特征或物种,它源自单一的遗传谱系。 |
单词用法
单源物种 | |
单基因分析 | |
单基因模型 | |
单基因与多基因 | |
单基因进化 | |
单基因群体 |
同义词
| 单基因的 | Monogenic disorders are caused by mutations in a single gene. | 单基因疾病是由单个基因的突变引起的。 | |
| 单细胞的 | 单基因性状可以追溯到一个单一的祖先。 |
反义词
| 多基因的 | 多基因特征受到多个基因的影响。 | ||
| 多因素的 | Many diseases are considered multifactorial, involving both genetic and environmental factors. | 许多疾病被认为是多因素的,涉及遗传和环境因素。 |
例句
1.Of or relating to monogenesis; monogenetic.
单性生殖的、与之有关的;
2.FAP is a monogenetic disease and is caused by the mutation or deletion of the adenomatous polyposis coli (APC) gene which is found on chromosome 5.
FAP是一种单基因遗传病,是由APC基因的突变或缺失引起的(apc)基因是5号染色体上发现的。
3.FAP is a monogenetic disease and is caused by the mutation or deletion of the adenomatous polyposis coli (APC) gene which is found on chromosome 5.
FAP是一种单基因遗传病,是由APC基因的突变或缺失引起的(apc)基因是5号染色体上发现的。
4.Certain diseases are believed to be monogenetic 单基因的, meaning they are caused by mutations in a single gene.
某些疾病被认为是单基因的,这意味着它们是由单个基因的突变引起的。
5.Research on monogenetic 单基因的 disorders can lead to targeted therapies for patients.
对单基因的疾病的研究可以为患者提供针对性的治疗。
6.Genetic counseling often addresses monogenetic 单基因的 conditions in families with a history of such disorders.
遗传咨询通常处理有此类疾病历史的家庭中的单基因的疾病。
7.The monogenetic 单基因的 inheritance pattern is crucial for understanding genetic conditions.
理解遗传病的遗传模式对于了解单基因的遗传状况至关重要。
8.Some forms of cancer are not monogenetic 单基因的, but rather involve multiple genes and environmental factors.
某些类型的癌症不是单基因的,而是涉及多个基因和环境因素。
作文
The concept of evolution has long fascinated scientists and laypeople alike. One intriguing aspect of this field is the idea of species origination. Many species are thought to have arisen from a single common ancestor, a notion encapsulated in the term monogenetic (单源的). This idea posits that certain species can trace their lineage back to one original form, which then diversified over time into various species we see today. Understanding monogenetic processes is crucial for comprehending how biodiversity arises and evolves within ecosystems.To illustrate the significance of monogenetic evolution, consider the case of the domestic dog. All domestic dogs are believed to have descended from a single species of wolf, making their origin monogenetic. Over thousands of years, through selective breeding by humans, these wolves transformed into the diverse breeds we are familiar with today, from Chihuahuas to Great Danes. This transformation showcases the power of monogenetic evolution, as it highlights how a single ancestral species can give rise to a multitude of forms adapted to different environments and human needs.Furthermore, the implications of monogenetic theories extend beyond just animal species. In the realm of plants, many agricultural crops also exhibit monogenetic origins. For instance, all modern bananas are derived from a few wild ancestors, showcasing how monogenetic traits can lead to significant agricultural developments. This understanding aids farmers and scientists in improving crop yields and resilience against diseases, as they can identify and harness specific genetic traits that originated from those ancestral forms.However, the concept of monogenetic evolution does not come without its complexities. While some species clearly demonstrate monogenetic origins, others exhibit a more complicated evolutionary history involving multiple ancestral sources. This polyphyletic nature of some species challenges the simplistic view of evolution and suggests that while monogenetic mechanisms play a significant role, they are part of a larger tapestry of evolutionary processes.Moreover, the study of genetics has revolutionized our understanding of monogenetic evolution. Advances in DNA sequencing technology allow researchers to trace the genetic lineage of various organisms more accurately than ever before. By analyzing genetic markers, scientists can confirm or refute hypotheses regarding monogenetic ancestry and explore how genetic mutations and adaptations have shaped the evolution of species over time.In conclusion, the idea of monogenetic evolution serves as a fundamental concept in the study of biology and ecology. It emphasizes the importance of common ancestry in the diversification of life on Earth. As we continue to explore and understand the intricate relationships among species, the insights gained from monogenetic studies will undoubtedly enhance our appreciation for the complexity and beauty of the natural world. This knowledge not only informs scientific research but also deepens our connection to the living organisms that share our planet, reminding us of the shared heritage that binds all life together.
进化的概念一直吸引着科学家和普通人。这个领域一个引人入胜的方面是物种起源的想法。许多物种被认为是由一个共同的祖先产生的,这一概念通过术语monogenetic(单源的)来概括。这个想法认为,某些物种可以追溯到一个原始形式,然后随着时间的推移多样化成我们今天看到的各种物种。理解monogenetic过程对理解生物多样性如何在生态系统中产生和演变至关重要。为了说明monogenetic进化的重要性,考虑一下家犬的案例。所有家犬都被认为是从一种狼演变而来的,因此它们的起源是monogenetic的。经过数千年的选择性繁殖,这些狼转变为我们熟悉的各种品种,从吉娃娃到大丹犬。这种转变展示了monogenetic进化的力量,因为它强调了一个祖先物种如何衍生出适应不同环境和人类需求的多种形式。此外,monogenetic理论的影响不仅限于动物物种。在植物领域,许多农业作物也表现出monogenetic的起源。例如,所有现代香蕉都源自几种野生祖先,展示了monogenetic特征如何导致显著的农业发展。这种理解帮助农民和科学家提高作物产量和抗病能力,因为他们可以识别和利用那些来自祖先形式的特定遗传特征。然而,monogenetic进化的概念并非没有复杂性。虽然某些物种清楚地展示了monogenetic起源,但其他物种则表现出更复杂的进化历史,涉及多个祖先来源。这种一些物种的多源性挑战了进化的简单观点,并表明,尽管monogenetic机制发挥了重要作用,但它们是更大进化过程的一部分。此外,遗传学的研究彻底改变了我们对monogenetic进化的理解。DNA测序技术的进步使研究人员能够比以往更准确地追踪各种生物体的遗传谱系。通过分析遗传标记,科学家可以确认或反驳关于monogenetic祖先的假设,并探索遗传突变和适应如何随着时间的推移塑造物种的进化。总之,monogenetic进化的概念是生物学和生态学研究中的一个基本概念。它强调共同祖先在地球生命多样化中的重要性。随着我们继续探索和理解物种之间错综复杂的关系,从monogenetic研究中获得的见解无疑将增强我们对自然界复杂性和美丽的欣赏。这种知识不仅为科学研究提供了信息,还加深了我们与分享地球的生物体之间的联系,提醒我们所有生命之间的共同遗产。
