lateral secretion

简明释义

侧分泌

英英释义

例句

1.The effects of lateral secretion were measured using advanced imaging techniques.

使用先进成像技术测量了侧向分泌的效果。

2.Understanding lateral secretion is crucial for developing new therapeutic strategies.

理解侧向分泌对开发新的治疗策略至关重要。

3.During the experiment, we observed that lateral secretion can influence the behavior of neighboring cells.

在实验中，我们观察到侧向分泌可以影响邻近细胞的行为。

4.The study focused on the role of lateral secretion in the communication between cells.

这项研究集中于侧向分泌在细胞之间交流中的作用。

5.Researchers found that lateral secretion plays a significant role in tissue regeneration.

研究人员发现侧向分泌在组织再生中起着重要作用。

作文

In the study of biological systems, the term lateral secretion refers to the process by which certain cells or tissues release substances not just in a linear fashion but rather in a sideways manner that can influence adjacent cells. This phenomenon is particularly significant in understanding how various organisms communicate and coordinate responses to their environments. For instance, in the context of plant biology, lateral secretion can be observed when roots exude chemicals into the soil, affecting nearby microbial populations and nutrient availability. Such interactions illustrate the complex web of relationships that exist within ecosystems.Moreover, lateral secretion plays a crucial role in animal physiology as well. In mammals, certain glands utilize this mechanism to distribute hormones and other signaling molecules effectively. The endocrine system, for instance, relies on the lateral release of hormones to ensure that multiple organs receive and respond to these chemical messengers simultaneously. This coordination is vital for maintaining homeostasis and facilitating growth and development.Research has shown that lateral secretion can also impact disease processes. In cancer biology, for example, tumor cells may engage in lateral secretion of growth factors that promote angiogenesis, the formation of new blood vessels. This not only aids in tumor growth but can also complicate treatment strategies, as understanding the pathways involved in lateral secretion becomes essential for developing targeted therapies.Furthermore, the concept of lateral secretion extends beyond the biological realm into fields like materials science and nanotechnology. Scientists are exploring how to mimic these natural processes to create advanced materials that can release substances in a controlled manner. For example, drug delivery systems that utilize principles of lateral secretion can improve the efficacy of medications by ensuring they are released at the right location and time within the body.In conclusion, the concept of lateral secretion encompasses a wide range of biological and technological processes that are integral to both life sciences and applied research. By studying how substances are released laterally, researchers can gain insights into cellular communication, ecological interactions, and even the design of innovative therapeutic solutions. Understanding this phenomenon not only enhances our knowledge of biological systems but also opens up new avenues for scientific exploration and technological advancement. As we continue to unravel the complexities of lateral secretion, we will undoubtedly uncover more about the intricate connections that sustain life on Earth and how we can harness these mechanisms for human benefit.

在生物系统的研究中，术语lateral secretion指的是某些细胞或组织以一种侧向的方式释放物质，而不仅仅是线性释放，这种方式可以影响邻近的细胞。这一现象在理解各种生物如何与环境进行沟通和协调反应时尤为重要。例如，在植物生物学的背景下，可以观察到根系将化学物质渗出到土壤中，从而影响附近微生物群落和养分的可用性。这些相互作用展示了生态系统内存在的复杂关系网。此外，lateral secretion在动物生理学中也发挥着至关重要的作用。在哺乳动物中，某些腺体利用这一机制有效地分配激素和其他信号分子。内分泌系统，例如，依赖于激素的侧向释放，以确保多个器官同时接收到并对这些化学信使作出反应。这种协调对于维持体内平衡和促进生长发育至关重要。研究表明，lateral secretion还会影响疾病过程。在癌症生物学中，例如，肿瘤细胞可能通过侧向分泌生长因子来促进血管生成，即新血管的形成。这不仅有助于肿瘤的生长，还可能使治疗策略变得复杂，因为理解参与侧向分泌的途径对于开发靶向疗法至关重要。此外，lateral secretion的概念超越了生物领域，延伸到了材料科学和纳米技术等领域。科学家们正在探索如何模仿这些自然过程，以创建能够以受控方式释放物质的先进材料。例如，利用侧向分泌原理的药物递送系统可以通过确保药物在体内的正确位置和时间释放，从而提高药物的有效性。总之，lateral secretion的概念涵盖了生命科学和应用研究中不可或缺的广泛生物和技术过程。通过研究物质的侧向释放，研究人员可以深入了解细胞间的沟通、生态互动，甚至创新治疗方案的设计。理解这一现象不仅增强了我们对生物系统的认识，也为科学探索和技术进步开辟了新的途径。随着我们继续揭示lateral secretion的复杂性，我们无疑会发现维持地球生命的错综复杂的联系，以及我们如何利用这些机制造福人类。