secondary pairing

简明释义

次级配对

英英释义

例句

1.The software update introduced a secondary pairing 次级配对 feature that improved user experience significantly.

软件更新引入了一个secondary pairing 次级配对 功能，显著改善了用户体验。

2.In genetics, a secondary pairing 次级配对 of alleles can influence the phenotype of an organism.

在遗传学中，等位基因的secondary pairing 次级配对 可以影响生物的表型。

3.In the context of machine learning, the algorithm can benefit from a secondary pairing 次级配对 to enhance its predictive accuracy.

在机器学习的背景下，算法可以通过一个secondary pairing 次级配对 来提高其预测准确性。

4.During the experiment, researchers observed that the secondary pairing 次级配对 of variables led to unexpected results.

在实验过程中，研究人员观察到变量的secondary pairing 次级配对 导致了意想不到的结果。

5.The team's strategy included a secondary pairing 次级配对 of key players to optimize performance on the field.

团队的策略包括将关键球员进行secondary pairing 次级配对 以优化场上的表现。

作文

In the field of genetics, the concept of secondary pairing plays a crucial role in understanding how genes interact and influence various traits. This term refers to the additional interactions that occur between non-homologous chromosomes or within the same chromosome after the primary pairing has taken place during meiosis. The primary pairing is essential for ensuring accurate segregation of chromosomes, but secondary pairing can lead to more complex genetic outcomes. For instance, during the formation of gametes, chromosomes may undergo secondary pairing which can result in genetic recombination. This process enhances genetic diversity, allowing for a wider range of traits in offspring.Moreover, secondary pairing can also be observed in the context of molecular biology, particularly in the study of protein interactions. Proteins often need to form complexes with other proteins to function properly. Initially, they might bind through a primary interaction, but further stabilizing contacts can create a secondary pairing. This is critical for the formation of multi-subunit complexes, where the overall functionality of the protein is dependent on these additional interactions. Understanding secondary pairing in this context helps researchers design better drugs and therapies by targeting specific protein-protein interactions.In addition to its biological implications, secondary pairing can also be applied metaphorically in social dynamics. For example, in group activities or team sports, individuals may initially pair off based on skill or compatibility (the primary pairing). However, as the dynamics evolve, secondary pairing can occur, leading to new collaborations and strategies that enhance overall performance. This adaptability is essential for success in competitive environments, illustrating how secondary pairing can lead to unexpected advantages.Furthermore, in the realm of education, the concept of secondary pairing can be seen in collaborative learning. Students often start working with peers they are comfortable with, but as they progress, they may find themselves forming secondary pairings with others who bring different perspectives or skills to the table. This not only enriches their learning experience but also prepares them for real-world scenarios where flexibility and collaboration are key.In conclusion, the notion of secondary pairing transcends its origins in genetics and molecular biology, finding relevance in various fields such as social interactions and education. Whether it is through enhancing genetic diversity, facilitating protein interactions, or fostering collaborative learning, secondary pairing demonstrates the importance of secondary connections that can lead to significant outcomes. Embracing the idea of secondary pairing allows us to appreciate the complexity of interactions in both biological systems and human relationships, highlighting the interconnectedness of all things in our world.

在遗传学领域，secondary pairing的概念在理解基因如何相互作用并影响各种性状方面发挥着至关重要的作用。这个术语指的是在减数分裂过程中，在初级配对发生后，非同源染色体之间或同一染色体内发生的额外相互作用。初级配对对于确保染色体的准确分离至关重要，但secondary pairing可能导致更复杂的遗传结果。例如，在配子的形成过程中，染色体可能经历secondary pairing，这可能导致基因重组。这个过程增强了遗传多样性，使后代拥有更广泛的性状。此外，secondary pairing还可以在分子生物学的背景下观察到，特别是在蛋白质相互作用的研究中。蛋白质通常需要与其他蛋白质形成复合体才能正常功能。最初，它们可能通过主要相互作用结合，但进一步的稳定接触可以形成secondary pairing。这对于多亚基复合体的形成至关重要，其中蛋白质的整体功能依赖于这些额外的相互作用。理解secondary pairing在这个背景下有助于研究人员通过针对特定的蛋白质-蛋白质相互作用来设计更好的药物和治疗方案。除了生物学的意义外，secondary pairing在社会动态中也可以比喻性地应用。例如，在小组活动或团队运动中，个人可能最初根据技能或兼容性配对（初级配对）。然而，随着动态的发展，可能会发生secondary pairing，导致新的合作和策略，从而增强整体表现。这种适应能力对于在竞争环境中取得成功至关重要，说明了secondary pairing如何带来意想不到的优势。此外，在教育领域中，secondary pairing的概念可以在协作学习中看到。学生通常开始与他们感到舒适的同伴合作，但随着进展，他们可能会发现自己与带来不同视角或技能的其他人形成secondary pairing。这不仅丰富了他们的学习体验，还为他们准备了现实世界中灵活性和合作是关键的场景。总之，secondary pairing的概念超越了其在遗传学和分子生物学中的起源，在社会互动和教育等各个领域找到相关性。无论是通过增强遗传多样性、促进蛋白质相互作用还是促进协作学习，secondary pairing都展示了可以导致重大成果的次级连接的重要性。接受secondary pairing的理念使我们能够欣赏生物系统和人际关系中相互作用的复杂性，突显了我们世界中万物相互关联的本质。