unipotent

简明释义

英[ˌjuːnɪˈpəʊt(ə)nt]美[,juːnɪ'pəʊtənt]

adj. （细胞）单能性的；只能一个方向发展的

英英释义

单词用法

同义词

反义词

例句

1.In this paper, we introduce the notion of an intuitionistic fuzzy ideal of a unipotent quasigroups, and then some related results are investigated.

引入幂零拟群的直觉模糊理想的概念，得到一些结论。

2.In this paper, we introduce the notion of an intuitionistic fuzzy ideal of a unipotent quasigroups, and then some related results are investigated.

引入幂零拟群的直觉模糊理想的概念，得到一些结论。

3.We introduce the notion of an intuitionistic fuzzy ideal of a unipotent quasigroup.

我们引入幂零拟群的直觉模糊理想的概念。

4.The stem cells in the skin are considered to be unipotent 单能的 because they can only differentiate into skin cells.

皮肤中的干细胞被认为是unipotent 单能的，因为它们只能分化为皮肤细胞。

5.Researchers are studying unipotent 单能的 progenitor cells for their potential in regenerative medicine.

研究人员正在研究unipotent 单能的祖细胞在再生医学中的潜力。

6.In contrast to pluripotent cells, unipotent 单能的 cells have a more limited differentiation capacity.

与多能细胞相比，unipotent 单能的细胞的分化能力更有限。

7.Certain types of muscle stem cells are classified as unipotent 单能的 due to their ability to only form muscle tissue.

某些类型的肌肉干细胞被归类为unipotent 单能的，因为它们只能形成肌肉组织。

8.The identification of unipotent 单能的 cells can help scientists understand tissue regeneration better.

识别unipotent 单能的细胞可以帮助科学家更好地理解组织再生。

作文

In the fascinating world of biology, the term unipotent refers to a type of stem cell that has the capacity to differentiate into only one cell type. This characteristic makes unipotent stem cells unique and crucial for specific functions in the body. Unlike pluripotent or multipotent stem cells, which can develop into multiple cell types, unipotent stem cells have a more limited potential. However, their importance should not be underestimated. For instance, consider the skin. The epidermis, the outer layer of skin, is primarily composed of keratinocytes, which are produced by unipotent stem cells located in the basal layer of the epidermis. These stem cells continually divide and give rise to new keratinocytes, ensuring the skin remains intact and functional. Without these unipotent stem cells, our skin would be unable to regenerate itself, leading to severe consequences for our overall health. Moreover, unipotent stem cells play a significant role in the maintenance and repair of tissues. For example, in the muscle tissue, there are satellite cells that act as unipotent stem cells. When muscle is damaged, these cells activate, proliferate, and differentiate into muscle fibers, thus facilitating the healing process. This capability is vital for athletes and individuals who engage in physical activities, as it helps them recover from injuries more efficiently. The study of unipotent stem cells has also opened doors to advancements in regenerative medicine. By understanding how these cells function, scientists can develop therapies that harness their potential for treating various diseases. For example, researchers are exploring ways to use unipotent stem cells to treat skin disorders, where the regeneration of healthy skin is necessary. This approach could lead to innovative treatments for conditions like burns, chronic wounds, and even certain types of skin cancer. Despite their limited differentiation potential, unipotent stem cells are essential players in the larger context of stem cell research. They provide insights into cell lineage and differentiation pathways, which are critical for understanding how tissues develop and maintain themselves. Furthermore, studying unipotent stem cells can shed light on various developmental processes and diseases, including cancer, where the regulation of cell differentiation goes awry. In conclusion, while the term unipotent may suggest a restricted ability to differentiate, it highlights the specialization and significance of certain stem cells in biological systems. Their role in tissue regeneration, maintenance, and potential therapeutic applications underscores their importance in both health and disease. As research continues to evolve, the understanding of unipotent stem cells will undoubtedly contribute to breakthroughs in medicine, offering hope for future treatments and improved health outcomes. Thus, the exploration of unipotent stem cells not only enhances our understanding of cellular biology but also paves the way for innovations in regenerative medicine, making them a vital area of study for scientists and medical professionals alike.

在生物学的迷人世界中，术语unipotent指的是一种干细胞，具有分化为仅一种细胞类型的能力。这一特性使得unipotent干细胞独特且对身体的特定功能至关重要。与能够发展成多种细胞类型的全能或多能干细胞不同，unipotent干细胞的潜力更为有限。然而，它们的重要性不容小觑。例如，考虑皮肤。表皮，即皮肤的外层，主要由角质形成细胞组成，这些细胞由位于表皮基底层的unipotent干细胞产生。这些干细胞不断分裂，产生新的角质形成细胞，确保皮肤保持完整和功能正常。如果没有这些unipotent干细胞，我们的皮肤将无法再生，从而导致我们整体健康的严重后果。此外，unipotent干细胞在组织的维持和修复中也发挥着重要作用。例如，在肌肉组织中，有卫星细胞充当unipotent干细胞。当肌肉受损时，这些细胞会激活、增殖并分化为肌肉纤维，从而促进愈合过程。这种能力对运动员和参与体育活动的人尤其重要，因为它帮助他们更有效地从伤害中恢复。对unipotent干细胞的研究也为再生医学的进步打开了大门。通过理解这些细胞的功能，科学家可以开发利用它们潜力的疗法来治疗各种疾病。例如，研究人员正在探索使用unipotent干细胞治疗皮肤疾病的方法，在这些疾病中，健康皮肤的再生是必要的。这种方法可能会导致针对烧伤、慢性伤口甚至某些类型皮肤癌的创新治疗。尽管它们的分化潜力有限，但unipotent干细胞在干细胞研究的更大背景中仍然是重要参与者。它们提供了关于细胞谱系和分化途径的见解，这对于理解组织如何发育和维持自身至关重要。此外，研究unipotent干细胞还可以揭示各种发育过程和疾病，包括癌症，在这些疾病中，细胞分化的调控出现问题。总之，尽管术语unipotent可能暗示分化能力的限制，但它突显了某些干细胞在生物系统中的专业化和重要性。它们在组织再生、维持及潜在治疗应用中的作用强调了它们在健康和疾病中的重要性。随着研究的不断发展，对unipotent干细胞的理解无疑将为医学突破做出贡献，为未来的治疗和改善健康结果带来希望。因此，探索unipotent干细胞不仅增强了我们对细胞生物学的理解，还为再生医学的创新铺平了道路，使其成为科学家和医疗专业人士都非常重要的研究领域。