embryology
简明释义
英[ˌembriˈɒlədʒi]美[ˌembriˈɑːlədʒi]
n. [胚] 胚胎学
复 数 e m b r y o l o g i e s
英英释义
The branch of biology that studies the formation, early growth, and development of living organisms, particularly embryos. | 生物学的一个分支,研究生物体的形成、早期生长和发育,尤其是胚胎。 |
单词用法
发育胚胎学 | |
比较胚胎学 | |
分子胚胎学 | |
实验胚胎学 | |
胚胎学原理 | |
胚胎学的应用 | |
胚胎学领域 | |
胚胎学研究 |
同义词
反义词
| 衰老 | The study of senescence helps us understand the aging process. | 衰老研究帮助我们理解衰老过程。 | |
| 成熟 | Maturity in organisms leads to complex behaviors and adaptations. | 生物的成熟导致复杂的行为和适应。 |
例句
1.The classical literature of embryology documents these patterns in detail for the zygote.
学的经典文献详细地报道了合子的这些式样。
2.These photos were published in the August issue of Anatomy & Embryology.
这些照片被发表在同年八月刊的《解剖学和胚胎学杂志》上。
3.SETTING: Department of Histology and Embryology, School of Basic Medical Science, Jilin University.
单位:吉林大学基础医学院组织与胚胎学教研室。
4.The experience and lesson we obtained will be used for reference to application of TBL in teaching of Histology and Embryology in the future.
这些经验和教训可为今后TBL模式在组织学与胚胎学教学中的应用提供有益的借鉴。
5.Objective: to study the role of multi-media teaching in histology and embryology and improve the teaching quality of histology and embryology.
前言:目的探讨多媒体教学在组织胚胎学中的作用。
6.Lea proteins and Lea genes were one of the hot fields in plant embryology and stress physiology.
LEA蛋白与Lea基因是当前植物胚胎学以及逆境生理学研究的热点之一。
7.In medical school, students learn about embryology 胚胎学 to prepare for careers in pediatrics.
在医学院,学生们学习胚胎学 embryology以为儿科职业做准备。
8.Research in embryology 胚胎学 helps scientists develop new reproductive technologies.
在胚胎学 embryology方面的研究帮助科学家开发新的生殖技术。
9.Understanding embryology 胚胎学 is essential for IVF specialists.
理解胚胎学 embryology对试管婴儿专家至关重要。
10.The principles of embryology 胚胎学 are applied in genetic engineering.
在基因工程中应用了胚胎学 embryology的原理。
11.The study of embryology 胚胎学 is crucial for understanding congenital disorders.
对胚胎学 embryology的研究对于理解先天性疾病至关重要。
作文
Embryology is a fascinating field of biology that studies the development of embryos from fertilization to the fetal stage. The term embryology (胚胎学) encompasses various processes that occur during early development, including cell division, differentiation, and organ formation. Understanding embryology (胚胎学) is crucial for several reasons, especially in medicine, genetics, and developmental biology.Firstly, the study of embryology (胚胎学) provides insights into congenital disorders. Many birth defects arise during the early stages of development when the embryo is particularly vulnerable. By examining how embryos develop normally, scientists can identify what goes wrong in abnormal cases. This knowledge is essential for developing preventive measures and treatments for these conditions.Secondly, embryology (胚胎学) plays a vital role in reproductive medicine. Techniques such as in vitro fertilization (IVF) rely heavily on our understanding of embryonic development. Through embryology (胚胎学), specialists can improve the success rates of fertility treatments by selecting the healthiest embryos for implantation. This has not only helped countless couples achieve their dreams of parenthood but has also paved the way for advancements in genetic screening and manipulation.Moreover, the field of embryology (胚胎学) is closely linked to stem cell research. Stem cells have the potential to develop into any cell type in the body, making them invaluable for regenerative medicine. By studying how embryos form and differentiate, researchers can learn how to manipulate stem cells for therapeutic purposes. This could lead to breakthroughs in treating diseases such as Parkinson's, diabetes, and spinal cord injuries.In addition to its medical applications, embryology (胚胎学) also raises important ethical questions. As we gain the ability to manipulate embryonic development, issues surrounding cloning, genetic modification, and designer babies come to the forefront. Society must grapple with the moral implications of these technologies, balancing scientific advancement with ethical considerations.Furthermore, embryology (胚胎学) enhances our understanding of evolutionary biology. By comparing the embryonic development of different species, scientists can trace the evolutionary relationships between organisms. This comparative approach sheds light on how certain traits have evolved over time and helps us understand the fundamental principles of life itself.In conclusion, embryology (胚胎学) is a critical field that intersects with various aspects of science and society. Its implications extend beyond the laboratory, influencing medical practices, ethical debates, and our understanding of life’s complexities. As research continues to advance, the knowledge gained from embryology (胚胎学) will undoubtedly lead to further discoveries and innovations that could shape the future of medicine and biology. It is essential for students and professionals alike to appreciate the significance of this field and its potential to impact human health and ethical standards in profound ways.
胚胎学是生物学的一个迷人领域,研究从受精到胎儿阶段的胚胎发育。术语embryology(胚胎学)涵盖了早期发育过程中发生的各种过程,包括细胞分裂、分化和器官形成。理解embryology(胚胎学)对于医学、遗传学和发育生物学等多个领域至关重要。首先,embryology(胚胎学)的研究提供了对先天性疾病的洞察。许多出生缺陷在发育的早期阶段出现,此时胚胎特别脆弱。通过检查正常胚胎的发育过程,科学家可以识别异常情况中的问题。这一知识对于制定预防措施和治疗方案至关重要。其次,embryology(胚胎学)在生殖医学中发挥着重要作用。体外受精(IVF)等技术在很大程度上依赖于我们对胚胎发育的理解。通过embryology(胚胎学),专家可以通过选择最健康的胚胎进行植入来提高生育治疗的成功率。这不仅帮助无数夫妇实现了成为父母的梦想,也为基因筛查和操控的进步铺平了道路。此外,embryology(胚胎学)与干细胞研究密切相关。干细胞有潜力发展成身体中的任何细胞类型,使其在再生医学中具有不可或缺的价值。通过研究胚胎是如何形成和分化的,研究人员可以学习如何操控干细胞以用于治疗目的。这可能导致在治疗帕金森病、糖尿病和脊髓损伤等疾病方面的突破。除了医学应用,embryology(胚胎学)还引发了重要的伦理问题。随着我们获得操控胚胎发育的能力,克隆、基因修改和设计婴儿等问题浮出水面。社会必须应对这些技术的道德影响,在科学进步与伦理考量之间取得平衡。此外,embryology(胚胎学)增强了我们对进化生物学的理解。通过比较不同物种的胚胎发育,科学家可以追踪生物之间的进化关系。这种比较方法揭示了某些特征是如何随时间演变的,帮助我们理解生命本身的基本原则。总之,embryology(胚胎学)是一个关键领域,涉及科学和社会的各个方面。它的影响超越了实验室,影响着医学实践、伦理辩论以及我们对生命复杂性的理解。随着研究的不断推进,从embryology(胚胎学)获得的知识无疑将导致进一步的发现和创新,这可能会塑造医学和生物学的未来。学生和专业人士都必须认识到这一领域的重要性及其对人类健康和伦理标准产生深远影响的潜力。
