basal plates

简明释义

1. 基板; 2. 阳茎基片;

英英释义

例句

1.In embryonic development, the basal plates play a key role in the differentiation of various tissues.

在胚胎发育过程中，基底板在各种组织的分化中起着关键作用。

2.The basal plates serve as a foundation for the attachment of muscle tissues during development.

在发育过程中，基底板作为肌肉组织附着的基础。

3.The structure of the brain is supported by the basal plates, which are crucial for neural development.

大脑的结构由基底板支撑，这对神经发育至关重要。

4.Researchers observed how the basal plates influence the formation of spinal cord neurons.

研究人员观察到基底板如何影响脊髓神经元的形成。

5.Damage to the basal plates can lead to serious neurological disorders.

对基底板的损伤可能导致严重的神经系统疾病。

作文

In the study of anatomy and developmental biology, the term basal plates refers to specific structures that play a crucial role in the organization and function of various tissues. These plates are primarily found in the neural tube during embryonic development, where they contribute to the formation of the spinal cord and brain. The basal plates are essential for the differentiation of motor neurons, which are responsible for transmitting signals from the central nervous system to muscles, enabling movement. Understanding the function of the basal plates is vital for comprehending how the nervous system develops and how it can be affected by various disorders.The basal plates are located ventrally in the developing neural tube, contrasting with the alar plates, which are positioned dorsally. This anatomical arrangement is significant because it dictates the types of neurons that will develop in these regions. For instance, the neurons originating from the basal plates are primarily involved in motor functions, while those from the alar plates are associated with sensory processing. This distinction is critical for the proper functioning of the nervous system, as it ensures that motor and sensory pathways are correctly established.Moreover, the study of basal plates extends beyond basic biology; it has practical implications in medicine and therapeutic approaches. For example, understanding how these plates influence neuronal development can provide insights into conditions such as spinal muscular atrophy or amyotrophic lateral sclerosis (ALS), where motor neuron degeneration occurs. By investigating the mechanisms underlying the formation and function of basal plates, researchers hope to develop targeted therapies that could mitigate or reverse the effects of such diseases.Additionally, the concept of basal plates is not limited to human biology; it can also be observed in other species, highlighting the evolutionary conservation of these structures. Comparative studies across different organisms can reveal how similar developmental processes lead to the formation of complex nervous systems. This comparative approach enriches our understanding of neuroanatomy and underscores the importance of basal plates in evolutionary biology.In conclusion, the term basal plates encompasses a fundamental aspect of neurodevelopment that is pivotal for the establishment of motor functions within the nervous system. Their role in differentiating motor neurons and contributing to the overall architecture of the neural tube cannot be overstated. As research continues to evolve, the insights gained from studying basal plates may lead to significant advancements in understanding neurological diseases and developing effective treatments. Ultimately, the exploration of basal plates serves as a reminder of the complexity and elegance of biological systems, revealing how intricate structures work together to support life and movement.

在解剖学和发育生物学的研究中，术语basal plates指的是在各种组织的组织和功能中起关键作用的特定结构。这些板主要存在于胚胎发育期间的神经管中，它们有助于脊髓和大脑的形成。basal plates对于运动神经元的分化至关重要，运动神经元负责将信号从中枢神经系统传递到肌肉，从而实现运动。理解basal plates的功能对于理解神经系统的发展及其如何受到各种疾病影响是至关重要的。basal plates位于发育中的神经管的腹侧，与位于背侧的翼板相对。这种解剖结构的安排是重要的，因为它决定了这些区域将发育出哪种类型的神经元。例如，源自basal plates的神经元主要参与运动功能，而来自翼板的神经元则与感觉处理相关。这种区分对于神经系统的正常功能至关重要，因为它确保了运动和感觉通路的正确建立。此外，basal plates的研究不仅限于基础生物学；它在医学和治疗方法中也具有实际意义。例如，了解这些板如何影响神经元发育可以提供有关脊髓性肌萎缩症或肌萎缩侧索硬化症（ALS）等病症的见解，这些病症涉及运动神经元的退化。通过研究basal plates的形成和功能背后的机制，研究人员希望开发出针对性的疗法，以减轻或逆转这些疾病的影响。此外，basal plates的概念并不限于人类生物学；在其他物种中也可以观察到这一点，突显了这些结构的进化保守性。跨不同生物的比较研究可以揭示相似的发育过程如何导致复杂神经系统的形成。这种比较方法丰富了我们对神经解剖学的理解，并强调了basal plates在进化生物学中的重要性。总之，术语basal plates涵盖了神经发育的一个基本方面，对神经系统内运动功能的建立至关重要。它们在分化运动神经元和有助于神经管整体结构方面的作用不可低估。随着研究的不断发展，从研究basal plates中获得的见解可能会导致我们对神经疾病的理解和有效治疗的发展取得重大的进展。最终，探索basal plates提醒我们生物系统的复杂性和优雅，揭示了精细结构如何协同工作以支持生命和运动。