histogenetic

简明释义

英[/ˌhɪstəʊdʒəˈnɛtɪk/]美[/ˌhɪstəʊdʒəˈnɛtɪk/]

组织原的

[胚] 组织发生的

英英释义

单词用法

同义词

反义词

例句

1.The short latency period and the high incidence of thymic lymphoma represent a valuable model for future use in histogenetic, immunophenotypic and therapeutic investigations of T-cell lymphoma.

本模型具有方法简便、潜伏期短、发瘤率高等特点，对于进一步研究T细胞淋巴瘤的发生学、免疫形态学以及治疗等方面可能具有重要价值。

2.The short latency period and the high incidence of thymic lymphoma represent a valuable model for future use in histogenetic, immunophenotypic and therapeutic investigations of T-cell lymphoma.

本模型具有方法简便、潜伏期短、发瘤率高等特点，对于进一步研究T细胞淋巴瘤的发生学、免疫形态学以及治疗等方面可能具有重要价值。

3.The study of embryonic development often involves examining the histogenetic 组织发生的 processes that lead to the formation of different tissues.

胚胎发育的研究通常涉及检查导致不同组织形成的histogenetic 组织发生的过程。

4.Researchers are investigating the histogenetic 组织发生的 pathways that contribute to organ regeneration in certain species.

研究人员正在调查某些物种中有助于器官再生的histogenetic 组织发生的途径。

5.In cancer research, scientists focus on the histogenetic 组织发生的 origins of tumors to develop targeted therapies.

在癌症研究中，科学家们关注肿瘤的histogenetic 组织发生的起源，以开发靶向疗法。

6.Understanding histogenetic 组织发生的 mechanisms can provide insights into developmental disorders.

理解histogenetic 组织发生的机制可以为发育障碍提供见解。

7.The histogenetic 组织发生的 analysis revealed how certain cells differentiate during early development.

对histogenetic 组织发生的分析揭示了某些细胞在早期发育过程中如何分化。

作文

The study of biology encompasses various fields that delve into the intricate mechanisms of life. One such area is developmental biology, which examines how organisms grow and develop from a single cell into complex structures. Within this realm, the concept of histogenetic (组织发生的) processes plays a crucial role in understanding the differentiation of tissues and organs. Histogenetic refers to the developmental pathways that lead to the formation of different types of tissues in an organism. This term is derived from the Greek words 'histos,' meaning tissue, and 'genes,' meaning born of or produced by. To comprehend the significance of histogenetic processes, one must first recognize the importance of cellular differentiation. In the early stages of embryonic development, a single fertilized egg undergoes numerous divisions to form a multicellular organism. As development progresses, cells begin to specialize, taking on distinct roles that contribute to the overall function of the organism. This specialization is a result of histogenetic mechanisms, which guide cells to become muscle, nerve, or epithelial tissues, among others.Moreover, histogenetic studies are vital for understanding congenital disorders and diseases. By investigating how tissues develop and differentiate, scientists can identify the points at which things go awry. For instance, if a certain gene responsible for histogenetic regulation is mutated, it could lead to improper tissue formation, resulting in conditions such as spina bifida or heart defects. Thus, research in this field not only sheds light on normal development but also paves the way for potential therapeutic interventions.In addition to its implications in medicine, histogenetic research has broader applications in regenerative medicine and tissue engineering. Scientists aim to harness the principles of histogenetic development to create artificial tissues or even whole organs. By understanding how to manipulate stem cells and direct their differentiation, researchers hope to develop strategies for repairing damaged tissues or replacing lost organs. This area of study holds immense promise for addressing the challenges posed by organ shortages and degenerative diseases.Furthermore, the concept of histogenetic extends beyond human biology. It is applicable across various species, providing insights into evolutionary biology as well. By comparing the histogenetic processes of different organisms, scientists can trace evolutionary relationships and understand how certain traits have emerged over time. This comparative approach enhances our understanding of biodiversity and the adaptive strategies that different species employ.In conclusion, the term histogenetic encapsulates a fundamental aspect of biology that is essential for understanding development, health, and disease. Whether it is through unraveling the complexities of tissue formation, addressing congenital disorders, or advancing regenerative medicine, histogenetic research continues to be a pivotal area of inquiry. As we deepen our understanding of these processes, we move closer to unlocking the mysteries of life itself and improving the quality of life for individuals facing health challenges.

生物学研究涵盖了多个领域，深入探讨生命的复杂机制。其中一个领域是发育生物学，它研究生物如何从单个细胞生长和发展成复杂结构。在这个领域内，histogenetic（组织发生的）过程的概念在理解组织和器官的分化方面发挥着至关重要的作用。Histogenetic 是一个源自希腊语的术语，其中 'histos' 意为组织，而 'genes' 意为由...产生或生成。要理解histogenetic过程的重要性，首先必须认识到细胞分化的重要性。在胚胎发育的早期阶段，一个受精卵经历多次分裂形成多细胞生物。随着发育的进展，细胞开始专业化，承担起不同的角色，促进整个生物体的整体功能。这种专业化是histogenetic机制的结果，这些机制引导细胞成为肌肉、神经或上皮组织等。此外，histogenetic研究对理解先天性疾病和疾病至关重要。通过研究组织如何发育和分化，科学家可以识别出问题出现的点。例如，如果某个负责histogenetic调控的基因突变，可能导致组织形成不当，从而导致脊柱裂或心脏缺陷等病症。因此，该领域的研究不仅揭示了正常发育的奥秘，还为潜在的治疗干预铺平了道路。除了在医学上的意义外，histogenetic研究在再生医学和组织工程方面也有广泛应用。科学家们希望利用histogenetic发展的原则创造人工组织甚至整个器官。通过了解如何操纵干细胞并指导其分化，研究人员希望开发修复受损组织或替代失去器官的策略。这一研究领域对解决器官短缺和退行性疾病带来的挑战具有巨大前景。此外，histogenetic的概念超越了人类生物学。它适用于各种物种，为进化生物学提供了见解。通过比较不同生物的histogenetic过程，科学家可以追踪进化关系，并了解某些特征是如何随着时间的推移而出现的。这种比较方法增强了我们对生物多样性及不同物种所采用的适应策略的理解。总之，histogenetic这个术语概括了生物学的一个基本方面，对于理解发育、健康和疾病至关重要。无论是通过解开组织形成的复杂性、解决先天性疾病，还是推进再生医学，histogenetic研究继续成为一个关键的研究领域。随着我们对这些过程理解的加深，我们将更接近于揭开生命本身的奥秘，并改善面临健康挑战个体的生活质量。