mesoblastic

简明释义

英[ˌmɛzoʊˈblæstɪk]美[ˌmɛzoʊˈblæstɪk]

[昆] 中胚层的

英英释义

单词用法

同义词

反义词

例句

1.The DNA content and cell cycle in paraffin-embedded sections collected from 5 cases of congenital mesoblastic nephroma. 96 cases of nephroblastoma and 27 normal kidneys were studied by flow cytometry.

应用流式细胞术对5例先天性中胚层肾瘤、96例肾母细胞瘤和27例正常肾石蜡包埋组织进行了DNA含量和增殖活性分析。

2.The DNA content and cell cycle in paraffin-embedded sections collected from 5 cases of congenital mesoblastic nephroma. 96 cases of nephroblastoma and 27 normal kidneys were studied by flow cytometry.

应用流式细胞术对5例先天性中胚层肾瘤、96例肾母细胞瘤和27例正常肾石蜡包埋组织进行了DNA含量和增殖活性分析。

3.The final diagnosis was Congenital Mesoblastic Nephroma .

最终诊断为先天性中胚层肾瘤。

4.The mesoblastic 中胚层的 layer is crucial for the development of muscles and bones.

这个mesoblastic 中胚层的层对于肌肉和骨骼的发展至关重要。

5.The differentiation of stem cells into mesoblastic 中胚层的 lineages is a key area of study in developmental biology.

干细胞向mesoblastic 中胚层的谱系分化是发育生物学中的一个关键研究领域。

6.In fish, the mesoblastic 中胚层的 layer contributes to the formation of the circulatory system.

在鱼类中，mesoblastic 中胚层的层有助于循环系统的形成。

7.Research shows that mesoblastic 中胚层的 tissues can regenerate under certain conditions.

研究表明，在某些条件下，mesoblastic 中胚层的组织可以再生。

8.During embryonic development, the formation of blood cells occurs in the mesoblastic 中胚层的 phase.

在胚胎发育过程中，血细胞的形成发生在mesoblastic 中胚层的阶段。

作文

The study of embryonic development is a fascinating field that delves into the intricate processes that shape living organisms. Among the various stages of development, one significant phase is known as mesoderm formation. This phase is crucial because it gives rise to the mesoderm, one of the three primary germ layers in embryonic development. The term mesoblastic refers specifically to the type of development that involves the mesoderm. In animals, this layer is responsible for forming many vital structures, including muscles, bones, and the circulatory system.During the early stages of embryogenesis, cells undergo a series of divisions and differentiations. The mesodermal layer arises after the ectoderm and endoderm have been established. It is during this mesoblastic phase that the embryo begins to exhibit more complex structures. For instance, in vertebrates, it is during this time that the notochord forms, which is essential for the proper alignment of the vertebral column.The significance of mesoblastic development can be seen in its role in organogenesis, the process by which organs form. Each organ system in an organism is derived from the mesoderm in some way. For example, the heart and blood vessels originate from mesodermal cells that differentiate into cardiac and vascular tissues. Understanding how these processes occur is vital for developmental biology and medicine, particularly in regenerative therapies and understanding congenital defects.In addition to its importance in normal development, the concept of mesoblastic also extends to certain pathological conditions. For example, abnormalities in mesoderm formation can lead to various birth defects, such as congenital heart disease or skeletal malformations. This highlights the critical nature of the mesoderm and underscores the need for further research into the mechanisms regulating its development.Research into mesoblastic development has advanced significantly with the advent of modern technologies. Techniques such as gene editing and stem cell research have allowed scientists to manipulate mesodermal cells and study their behavior in controlled environments. This has opened up new avenues for understanding how mesodermal differentiation occurs and how it can be harnessed for therapeutic purposes.Moreover, the study of mesoblastic development is not limited to humans or mammals. In fact, researchers often look at model organisms like zebrafish or frogs, which provide valuable insights due to their transparent embryos and rapid development. By observing the mesodermal layer in these organisms, scientists can glean information that may be applicable to other species, including humans.In conclusion, the term mesoblastic encapsulates a critical aspect of embryonic development that has far-reaching implications in biology and medicine. By understanding how the mesoderm forms and functions, researchers can better comprehend the complexities of life itself, paving the way for advancements in health and disease treatment. The journey of studying mesoblastic development is ongoing, and it promises to reveal even more about the building blocks of life in the future.

胚胎发育的研究是一个迷人的领域，深入探讨了塑造生物体的复杂过程。在各种发育阶段中，一个重要的阶段被称为中胚层的形成。这个阶段至关重要，因为它产生了中胚层，这是胚胎发育中的三种主要胚层之一。术语mesoblastic特指涉及中胚层的发展类型。在动物中，这一层负责形成许多重要的结构，包括肌肉、骨骼和循环系统。在早期的胚胎发生阶段，细胞经历了一系列的分裂和分化。中胚层在外胚层和内胚层建立后形成。在这个mesoblastic阶段，胚胎开始表现出更复杂的结构。例如，在脊椎动物中，正是在这个时候，脊索形成，这是脊柱正确对齐所必需的。mesoblastic发展的重要性可以从其在器官发生中的作用中看出，器官发生是器官形成的过程。生物体中的每个器官系统都以某种方式源自中胚层。例如，心脏和血管起源于分化为心脏和血管组织的中胚层细胞。了解这些过程的发生对于发育生物学和医学至关重要，特别是在再生治疗和理解先天缺陷方面。除了在正常发育中的重要性外，mesoblastic的概念也扩展到某些病理条件。例如，中胚层形成的异常可能导致各种出生缺陷，如先天性心脏病或骨骼畸形。这突显了中胚层的重要性，并强调了进一步研究其发育调控机制的必要性。随着现代技术的出现，对mesoblastic发展的研究取得了显著进展。基因编辑和干细胞研究等技术使科学家能够操纵中胚层细胞，并在受控环境中研究其行为。这为理解中胚层分化如何发生以及如何利用这一过程进行治疗提供了新的途径。此外，mesoblastic发展的研究并不限于人类或哺乳动物。事实上，研究人员通常会观察斑马鱼或青蛙等模式生物，这些生物由于其透明的胚胎和快速的发育，提供了宝贵的见解。通过观察这些生物中的中胚层，科学家可以获取可能适用于其他物种（包括人类）的信息。总之，术语mesoblastic概括了胚胎发育的一个关键方面，这在生物学和医学中具有深远的意义。通过理解中胚层如何形成和发挥作用，研究人员可以更好地理解生命本身的复杂性，为健康和疾病治疗的进步铺平道路。对mesoblastic发展的研究之旅仍在继续，未来有望揭示更多关于生命构建块的知识。