mesodermal

简明释义

[ˈmesəʊˌdɜːməl][ˌmezəˈdɜːrməl]

adj. 中胚层的

英英释义

Relating to the mesoderm, which is the middle layer of tissue in an embryo that develops into muscles, bones, and the circulatory system.

与中胚层相关的,中胚层是胚胎中的中间组织层,发育成肌肉、骨骼和循环系统。

单词用法

mesodermal differentiation

中胚层分化

mesodermal layer

中胚层层

mesodermal structures

中胚层结构

mesodermal lineage

中胚层谱系

mesodermal derivatives

中胚层衍生物

mesodermal signaling pathways

中胚层信号通路

同义词

mesodermic

中胚层的

The mesodermal layer gives rise to muscles and bones.

中胚层层次产生肌肉和骨骼。

mesodermal tissue

中胚层组织

Mesodermic cells are crucial for organ development.

中胚层细胞对器官发育至关重要。

反义词

ectodermal

外胚层的

Ectodermal tissues include the skin and nervous system.

外胚层组织包括皮肤和神经系统。

endodermal

内胚层的

Endodermal layers form the lining of the gut and other internal organs.

内胚层形成肠道和其他内脏的衬里。

例句

1.Of the 153 cases, 48 were leiomyosarcomas, 47 mixed mesodermal sarcomas, 37 endometrial stromal sarcomas, 8 carcinosarcomas, 4 sarcoma botryoides, 1 fibrosarcoma, and 8 malignant lymphomas.

包括平滑肌肉瘤48例,中胚叶混合瘤47例,癌肉瘤8例,葡萄状肉瘤4例,内膜间质肉瘤37例,纤维肉瘤1例,恶性淋巴瘤8例。

2.The constituents of the dermis are mesodermal in origin except for nerves, which, like melanocytes, derive from the neural crest.

真皮的成分除神经外来源于中胚层。神经和黑素细胞一样来源于神经嵴。

3.CD44 is a family of trans-membrane glycoprotein that is widely expressed in many tissues derived from epithelial, mesenchymal, hematopoietic and mesodermal origins.

CD44是属于黏附因子家族的跨膜糖蛋白,它广泛表达于多种内皮细胞、间充质细胞、造血干细胞及中胚层来源的细胞和组织。

4.Surprisingly, restricted regions of the embryo generated both migrating neural crest cells and their derivative cell types, without any interaction with neural or mesodermal tissues.

令人惊讶的是,胚胎中局部区域产生了迁移的神经嵴细胞和他们衍生的细胞型,它们与神经或中胚层组织完全无关。

5.Of the 153 cases, 48 were leiomyosarcomas, 47 mixed mesodermal sarcomas, 37 endometrial stromal sarcomas, 8 carcinosarcomas, 4 sarcoma botryoides, 1 fibrosarcoma, and 8 malignant lymphomas.

包括平滑肌肉瘤48例,中胚叶混合瘤47例,癌肉瘤8例,葡萄状肉瘤4例,内膜间质肉瘤37例,纤维肉瘤1例,恶性淋巴瘤8例。

6.In some organisms, the mesodermal layer is responsible for forming the circulatory system.

在某些生物中,中胚层层负责形成循环系统。

7.Anomalies in mesodermal development can lead to congenital malformations.

中胚层发育异常可能导致先天性畸形。

8.The mesodermal layer gives rise to muscles and bones in vertebrates.

中胚层层为脊椎动物的肌肉和骨骼提供了来源。

9.Researchers are investigating how mesodermal cells differentiate into various tissue types.

研究人员正在调查中胚层细胞如何分化成各种组织类型。

10.The study of mesodermal tissues is crucial for understanding embryonic development.

中胚层组织的研究对于理解胚胎发育至关重要。

作文

The study of embryonic development is a fascinating field that reveals the intricate processes through which organisms form and differentiate. One of the key stages in this development is the formation of the three primary germ layers: ectoderm, endoderm, and mesodermal (中胚层的) layers. Each of these layers plays a crucial role in the formation of various tissues and organs in the body. The mesodermal layer, in particular, is responsible for giving rise to many vital structures, including muscles, bones, and the circulatory system.Understanding the significance of the mesodermal layer can help us appreciate how complex life forms evolve and function. During the early stages of embryonic development, cells undergo a process known as gastrulation, where they migrate and reorganize to form these three layers. The mesodermal layer arises between the ectoderm and endoderm, and its cells are multipotent, meaning they have the potential to develop into a variety of cell types.As development progresses, the cells within the mesodermal layer begin to specialize. Some will become notochord cells, which provide structural support to the developing embryo, while others will differentiate into somites, which eventually form vertebrae and associated musculature. Furthermore, the mesodermal layer is also responsible for the formation of the kidneys, gonads, and the heart, showcasing its essential role in creating the body's framework.Research into mesodermal (中胚层的) derivatives has significant implications for regenerative medicine and tissue engineering. Scientists are exploring ways to harness the potential of mesodermal stem cells to repair damaged tissues or even create new organs. By understanding how these cells differentiate and what signals guide their development, researchers hope to find innovative solutions to some of the most challenging medical issues we face today.Moreover, abnormalities during the formation of the mesodermal layer can lead to congenital disorders. For example, defects in mesodermal development can result in conditions such as spina bifida or congenital heart defects. This highlights the importance of early prenatal care and monitoring, as any disruption in this critical stage can have lasting effects on an individual's health.In conclusion, the mesodermal layer is a fundamental component of embryonic development, playing a pivotal role in forming various tissues and organs. Its study not only enhances our understanding of biology but also opens doors to advancements in medical science. As we continue to explore the complexities of the mesodermal layer and its derivatives, we move closer to unlocking the secrets of human development and improving healthcare outcomes for future generations.