blastogenesis
简明释义
英[ˌblæstəʊˈdʒenɪsɪs]美[ˌblæstəˈdʒenəsɪs]
n. 由发芽而再生殖;由胚种原形质相传的遗传性
复 数 b l a s t o g e n e s e s
英英释义
单词用法
胚芽发生过程 | |
生物学中的胚芽发生 | |
诱导胚芽发生 | |
胚芽发生的研究 |
同义词
| 胚母细胞形成 | Blastomere formation is a critical step in early embryonic development. | 胚母细胞形成是早期胚胎发育中的关键步骤。 | |
| 胚胎发生 | Embryogenesis involves multiple stages, including blastogenesis. | 胚胎发生涉及多个阶段,包括胚泡发生。 |
反义词
| 细胞凋亡 | Apoptosis is a vital process in maintaining tissue homeostasis. | 细胞凋亡是维持组织稳态的重要过程。 | |
| 坏死 | 坏死可能由于损伤或缺乏血液供应而发生。 |
例句
1.This paper discusses changes of RLGC, GPT, lymphocyte blastogenesis and active rosette forming cell in SD rats, induced by turbine noise of the submarine chaser.
在实验的基础上讨论了舰艇机舱噪声对SD大鼠肝糖原(RLGC)含量、肝谷丙转氨酶(GPT)活性和免疫功能的影响。
2.This paper discusses changes of RLGC, GPT, lymphocyte blastogenesis and active rosette forming cell in SD rats, induced by turbine noise of the submarine chaser.
在实验的基础上讨论了舰艇机舱噪声对SD大鼠肝糖原(RLGC)含量、肝谷丙转氨酶(GPT)活性和免疫功能的影响。
3.Peripheral blood mononuclear cells were collected at 10,35 days postinoculation(p. i) and used to conduct antigen specific blastogenesis assay.
感染后第10、35天分离外周血单个核细胞用于抗原特异细胞增殖实验;
4.Peripheral blood mononuclear cells were used to conduct antigen specific blastogenesis assay.
外周血单个核细胞用于抗原特异性胚芽生殖实验。
5.The process of blastogenesis 胚芽形成 is influenced by environmental factors such as temperature and light.
环境因素如温度和光照会影响blastogenesis 胚芽形成的过程。
6.In plants, blastogenesis 胚芽形成 is crucial for the development of new shoots and roots.
在植物中,blastogenesis 胚芽形成对新芽和根的发育至关重要。
7.The study of blastogenesis 胚芽形成 in amphibians reveals how they develop from embryos into complex organisms.
对两栖动物中blastogenesis 胚芽形成的研究揭示了它们如何从胚胎发育成复杂的生物。
8.Researchers are investigating the role of blastogenesis 胚芽形成 in the regeneration of tissues after injury.
研究人员正在调查blastogenesis 胚芽形成在受伤后组织再生中的作用。
9.Understanding blastogenesis 胚芽形成 can help improve techniques in developmental biology.
理解blastogenesis 胚芽形成可以帮助改善发育生物学中的技术。
作文
In the realm of biology, the term blastogenesis refers to the process of development and differentiation of cells, particularly in the early stages of organism formation. This phenomenon is crucial for understanding how complex organisms arise from a single fertilized egg. To explore this concept, we must delve into the mechanisms of cellular division and specialization that occur during embryonic development.During the initial stages of development, a zygote undergoes a series of divisions known as cleavage. These divisions lead to the formation of a multicellular structure called a blastula. At this point, the cells are still relatively undifferentiated, meaning they have not yet taken on specific functions or characteristics. It is during this stage that blastogenesis plays a vital role, as it sets the foundation for the subsequent processes that will lead to the formation of tissues and organs.As development progresses, the cells within the blastula begin to differentiate through a process known as gastrulation. This is where blastogenesis truly shines, as it involves the movement and rearrangement of cells to form three distinct layers: the ectoderm, mesoderm, and endoderm. Each of these layers will give rise to different structures within the organism. For example, the ectoderm will develop into the skin and nervous system, while the mesoderm will form muscles and the circulatory system.The significance of blastogenesis extends beyond just the formation of an embryo; it also provides insights into evolutionary biology. By studying the processes of blastogenesis across various species, scientists can trace the lineage and developmental pathways that have led to the diversity of life we see today. Understanding these processes not only enhances our knowledge of biology but also has practical implications in fields such as medicine and genetics.Moreover, disruptions in the blastogenesis process can lead to developmental disorders and congenital anomalies. For instance, if the differentiation of cells does not occur correctly, it may result in conditions such as spina bifida or other serious health issues. Therefore, research into blastogenesis is essential for developing therapeutic strategies to prevent or treat such conditions.In conclusion, blastogenesis is a fundamental biological process that governs the early stages of development in multicellular organisms. By understanding how cells divide, differentiate, and organize themselves, we can gain valuable insights into both normal development and potential medical challenges. The study of blastogenesis not only enriches our comprehension of life’s complexities but also underscores the intricate connections between biology, evolution, and human health. As we continue to explore this fascinating area of science, we open doors to new discoveries that could transform our approach to medicine and enhance our understanding of life itself.
在生物学领域,术语blastogenesis指的是细胞发育和分化的过程,特别是在有机体形成的早期阶段。这一现象对于理解复杂有机体如何从一个受精卵中产生至关重要。为了探讨这一概念,我们必须深入研究在胚胎发育过程中发生的细胞分裂和特化机制。在发育的初始阶段,合子经历一系列称为裂变的分裂。这些分裂导致形成一个多细胞结构,称为胚泡。在这一点上,细胞仍然相对未分化,这意味着它们尚未承担特定的功能或特征。正是在这一阶段,blastogenesis发挥着至关重要的作用,因为它为随后导致组织和器官形成的过程奠定了基础。随着发育的进展,胚泡内的细胞开始通过称为原肠形成的过程进行分化。这是blastogenesis真正闪耀的地方,因为它涉及细胞的运动和重组,以形成三个不同的层次:外胚层、中胚层和内胚层。这些层中的每一个都将产生有机体内的不同结构。例如,外胚层将发展成皮肤和神经系统,而中胚层将形成肌肉和循环系统。blastogenesis的重要性不仅限于胚胎的形成;它还为进化生物学提供了见解。通过研究不同物种中blastogenesis的过程,科学家可以追踪导致我们今天所见生命多样性的谱系和发育路径。理解这些过程不仅增强了我们对生物学的知识,还有助于医学和遗传学等领域的实际应用。此外,blastogenesis过程中的干扰可能导致发育障碍和先天性异常。例如,如果细胞的分化没有正确发生,可能会导致脊柱裂或其他严重健康问题。因此,对blastogenesis的研究对开发预防或治疗此类疾病的治疗策略至关重要。总之,blastogenesis是支配多细胞生物早期发育的基本生物学过程。通过理解细胞如何分裂、分化和组织,我们可以获得对正常发育和潜在医学挑战的宝贵见解。对blastogenesis的研究不仅丰富了我们对生命复杂性的理解,还强调了生物学、进化与人类健康之间的微妙联系。随着我们继续探索这一迷人的科学领域,我们为新的发现打开了大门,这些发现可能会改变我们对医学的看法,并增强我们对生命本身的理解。
