atypical division

简明释义

异型分裂

英英释义

例句

1.The research team encountered an atypical division 非典型分裂 of cells that suggested a new form of mutation.

研究小组发现了一种细胞的非典型分裂，这表明了一种新的突变形式。

2.The atypical division 非典型分裂 of responsibilities in the project created confusion and inefficiencies.

项目中责任的非典型分裂造成了混乱和低效率。

3.An atypical division 非典型分裂 of resources was necessary to address the unique challenges of the situation.

为了应对这一独特挑战，进行非典型分裂的资源配置是必要的。

4.In this case study, we observed an atypical division 非典型分裂 of labor among team members, leading to unexpected results.

在这个案例研究中，我们观察到团队成员之间的非典型分裂，导致了意想不到的结果。

5.The findings revealed an atypical division 非典型分裂 in the distribution of wealth among different demographics.

研究结果显示不同人群之间财富的非典型分裂。

作文

In the realm of biology, cell division is a fundamental process that allows organisms to grow, repair, and reproduce. However, there are instances where this process deviates from the norm, leading to what scientists refer to as atypical division. This term encompasses various forms of cell division that do not follow the typical patterns observed in most cells. Understanding atypical division is crucial for researchers as it can shed light on numerous biological phenomena, including cancer development and tissue regeneration.Typically, cell division occurs through two main processes: mitosis and meiosis. Mitosis is responsible for somatic cell division, resulting in two genetically identical daughter cells, while meiosis is involved in the production of gametes, reducing the chromosome number by half. These processes are well-studied and are considered the standard methods of cell division. However, atypical division can occur under certain conditions, leading to unexpected outcomes.One common example of atypical division is seen in cancer cells. Unlike normal cells that adhere to the regulated cycle of division, cancer cells often bypass checkpoints and divide uncontrollably. This uncontrolled proliferation is a hallmark of malignancies and poses significant challenges in treatment. By studying the mechanisms behind atypical division in cancer, scientists hope to develop targeted therapies that can effectively halt tumor growth.Another instance of atypical division can be found in certain microorganisms. For example, some bacteria undergo a form of division known as budding, where a new organism grows out of the body of its parent. This method of reproduction is vastly different from the binary fission commonly associated with bacterial division. Understanding these variations in atypical division helps microbiologists comprehend how different species adapt and thrive in diverse environments.Additionally, atypical division can play a role in regenerative medicine. Researchers are exploring how stem cells can undergo non-standard division processes to generate specialized cells for tissue repair. In these cases, the ability of stem cells to divide atypically could lead to breakthroughs in treating degenerative diseases and injuries.In conclusion, the concept of atypical division encompasses a fascinating array of cellular behaviors that diverge from traditional division methods. Whether it is in the context of cancer, microbial life, or regenerative medicine, understanding these atypical processes is essential for advancing our knowledge of biology and improving medical treatments. As scientists continue to unravel the complexities of atypical division, we may uncover new strategies to combat diseases and enhance our understanding of life itself.

在生物学领域，细胞分裂是一个基本过程，它使生物体能够生长、修复和繁殖。然而，有些情况下，这一过程偏离了常规，导致科学家所称的非典型分裂。这个术语涵盖了各种不遵循大多数细胞观察到的典型模式的细胞分裂形式。理解非典型分裂对研究人员至关重要，因为它可以揭示许多生物现象，包括癌症发展和组织再生。通常，细胞分裂通过两种主要过程发生：有丝分裂和减数分裂。有丝分裂负责体细胞的分裂，产生两个基因组相同的子细胞，而减数分裂则参与配子的产生，将染色体数量减半。这些过程经过充分研究，被视为细胞分裂的标准方法。然而，在某些条件下，非典型分裂可能会发生，导致意想不到的结果。一个常见的非典型分裂例子可以在癌细胞中看到。与正常细胞遵循调节的分裂周期不同，癌细胞往往绕过检查点，失控地分裂。这种失控的增殖是恶性肿瘤的标志，并给治疗带来了重大挑战。通过研究癌症中非典型分裂的机制，科学家希望开发出可以有效阻止肿瘤生长的靶向疗法。在某些微生物中也可以发现非典型分裂的实例。例如，一些细菌经历一种称为芽殖的分裂形式，新生物体从其母体的身体上长出。这种繁殖方式与通常与细菌分裂相关的二分裂截然不同。理解这些非典型分裂的变异有助于微生物学家理解不同物种如何适应并在多样化环境中生存。此外，非典型分裂在再生医学中也可以发挥作用。研究人员正在探索干细胞如何通过非标准分裂过程生成专门的细胞以进行组织修复。在这些情况下，干细胞以非典型方式分裂的能力可能会导致治疗退行性疾病和损伤的突破。总之，非典型分裂的概念涵盖了一系列迷人的细胞行为，这些行为偏离了传统的分裂方法。无论是在癌症、微生物生命还是再生医学的背景下，理解这些非典型过程对于推进我们对生物学的认识和改善医疗治疗至关重要。随着科学家们继续揭开非典型分裂的复杂性，我们可能会发现对抗疾病的新策略，并增强我们对生命本身的理解。