regulative egg

简明释义

蝶卵

英英释义

例句

1.Researchers are studying the properties of the regulative egg 调节卵 to understand cellular differentiation.

研究人员正在研究 调节卵 regulative egg 的特性，以理解细胞分化。

2.The scientist explained how the regulative egg 调节卵 can develop into different types of cells depending on environmental factors.

科学家解释了如何通过环境因素影响 调节卵 regulative egg 的发育，形成不同类型的细胞。

3.The concept of the regulative egg 调节卵 is essential in developmental biology courses.

在发育生物学课程中，调节卵 regulative egg 的概念是必不可少的。

4.In embryology, the regulative egg 调节卵 plays a crucial role in ensuring proper development.

在胚胎学中，调节卵 regulative egg 在确保适当发育方面起着至关重要的作用。

5.During the lecture, the professor highlighted the significance of the regulative egg 调节卵 in regenerative medicine.

在讲座中，教授强调了 调节卵 regulative egg 在再生医学中的重要性。

作文

In the realm of biology, the concept of the regulative egg refers to a type of egg that has the capacity to develop into a complete organism even when some of its cells are removed or damaged. This phenomenon is particularly significant in the study of embryonic development, as it highlights the remarkable ability of certain organisms to adapt and compensate for cellular loss. The regulative egg serves as a fascinating example of how life can persist and thrive despite challenges during the early stages of development.The significance of the regulative egg can be observed in various species, particularly in amphibians like frogs. When a frog's egg is fertilized, it undergoes a series of divisions and differentiations to form the embryo. If some cells are lost during this process, the remaining cells can often reorganize themselves to ensure that all necessary structures are formed. This adaptability is crucial for survival, as it ensures that even if part of the developing organism is compromised, it can still grow into a viable frog.Moreover, the study of regulative eggs extends beyond amphibians. In mammals, for instance, the early stages of embryo development also exhibit some level of regulation. While mammals do not have the same degree of cellular plasticity as amphibians, they still demonstrate a level of compensation that allows for healthy development despite potential issues that may arise during the early cell divisions.Understanding the mechanisms behind the regulative egg can provide insights into developmental biology and regenerative medicine. Researchers are keenly interested in uncovering the genetic and molecular pathways that enable these eggs to regulate their development so effectively. By studying these processes, scientists hope to apply this knowledge to improve healing and regeneration in humans, potentially leading to breakthroughs in treating injuries or degenerative diseases.Furthermore, the concept of the regulative egg can also be metaphorically applied to various aspects of life and society. Just as these eggs can adapt and overcome challenges, individuals and communities often find ways to thrive despite adversity. This resilience can be seen in many contexts, such as in education, where students learn to adjust their learning strategies to succeed despite obstacles. Similarly, in business, companies that face setbacks often regroup and innovate, demonstrating a form of regulatory adaptation akin to that of the regulative egg.In conclusion, the regulative egg is a remarkable biological concept that illustrates the adaptability and resilience of life. Its implications stretch from the microscopic world of embryonic development to broader societal themes of overcoming challenges. By studying the regulative egg, we not only gain insight into the intricate processes of life but also inspire ourselves to embrace resilience in our own lives. Whether in nature or in human endeavors, the ability to adapt and thrive is a powerful testament to the strength of life itself.

在生物学领域，调节卵的概念是指一种具有能力的卵，即使其某些细胞被移除或损坏，也能发育成完整的有机体。这一现象在胚胎发育研究中尤为重要，因为它突显了某些生物在细胞损失时适应和补偿的非凡能力。调节卵作为生命在早期发育阶段尽管面临挑战仍能持续和繁荣的迷人例子。调节卵的重要性可以在各种物种中观察到，尤其是在两栖动物如青蛙中。当青蛙的卵子受精后，它经历了一系列分裂和分化以形成胚胎。如果在此过程中一些细胞丢失，剩余的细胞通常可以重新组织自己，以确保所有必要结构的形成。这种适应能力对生存至关重要，因为它确保即使发育中的有机体的部分受到损害，它仍然可以成长为一个可行的青蛙。此外，调节卵的研究不仅限于两栖动物。在哺乳动物中，例如，胚胎发育的早期阶段也表现出一定程度的调节。虽然哺乳动物的细胞可塑性没有两栖动物那么高，但它们仍然表现出一定程度的补偿，允许健康的发展，尽管在早期细胞分裂中可能出现问题。理解调节卵背后的机制可以为发育生物学和再生医学提供见解。研究人员对揭示这些卵能够如此有效地调节其发展的遗传和分子通路非常感兴趣。通过研究这些过程，科学家希望将这些知识应用于改善人类的愈合和再生，潜在地导致治疗伤害或退行性疾病的突破。此外，调节卵的概念也可以隐喻地应用于生活和社会的各个方面。正如这些卵能够适应并克服挑战，个人和社区往往也能找到在逆境中繁荣的方法。这种韧性可以在许多背景中看到，例如在教育中，学生学习调整他们的学习策略，以便在面对障碍时取得成功。同样，在商业中，面临挫折的公司往往会重新集结并创新，展示出一种类似于调节卵的调节适应形式。总之，调节卵是一个非凡的生物学概念，展示了生命的适应性和韧性。它的影响从微观的胚胎发育世界延伸到更广泛的社会主题，如克服挑战。通过研究调节卵，我们不仅深入了解生命的复杂过程，还激励自己在生活中拥抱韧性。无论是在自然界还是在人类事业中，适应和繁荣的能力都是生命本身力量的有力证明。