eubacterium

简明释义

英[/ˌjuːˈbæktəriəm/]美[/ˌjuːˈbæktəriəm/]

n. 真细菌

复 数 e u b a c t e r i a

英英释义

单词用法

同义词

反义词

例句

1.The study focused on the role of eubacterium in human gut health.

这项研究集中在真细菌在人类肠道健康中的作用。

2.Researchers found that certain types of eubacterium can aid in digestion.

研究人员发现某些类型的真细菌可以帮助消化。

3.An imbalance of eubacterium species may lead to gastrointestinal disorders.

不同种类的真细菌失衡可能导致胃肠道疾病。

4.Probiotics often contain live eubacterium to promote gut flora.

益生菌通常含有活的真细菌以促进肠道菌群。

5.The presence of eubacterium is essential for a healthy microbiome.

存在真细菌对健康的微生物组至关重要。

作文

The study of microorganisms is a fascinating field that continues to reveal new insights into the complexities of life. Among these microorganisms, one particularly significant group is known as eubacterium. This term refers to a large group of bacteria that are characterized by their simple cellular structure and the presence of peptidoglycan in their cell walls. The name 'eubacterium' comes from the Greek words 'eu', meaning true, and 'bacterium', which denotes a rod-shaped organism. Thus, eubacterium can be understood as 'true bacteria'. Eubacteria are found in a variety of environments, including soil, water, and even inside the human body. They play essential roles in nutrient cycling and are crucial for processes such as nitrogen fixation and decomposition. Without eubacteria, ecosystems would struggle to maintain balance, as these organisms help break down organic matter and recycle nutrients back into the environment. In the human gut, eubacteria are vital for digestion and overall health. They assist in breaking down complex carbohydrates and synthesizing essential vitamins. The balance of eubacteria in our microbiome is crucial; an imbalance can lead to various health issues, including obesity, diabetes, and gastrointestinal disorders. Research has shown that maintaining a healthy population of eubacteria can improve immune function and reduce inflammation, highlighting their importance in our daily lives. Interestingly, eubacteria also have significant industrial applications. For instance, certain strains are used in the production of yogurt and cheese, where they ferment lactose and produce lactic acid. This process not only preserves food but also enhances its flavor and nutritional value. Additionally, some eubacteria are employed in bioremediation, a technique that uses living organisms to remove or neutralize contaminants from the environment. This application demonstrates the versatility and utility of eubacteria beyond their natural habitats. Despite their many benefits, it is important to recognize that not all eubacteria are harmless. Some species can cause diseases in humans, animals, and plants. For example, certain strains of eubacterium are responsible for infections such as tuberculosis and strep throat. This duality of being both beneficial and harmful makes the study of eubacteria particularly intriguing for scientists. Understanding how these organisms interact with their environments and hosts can lead to better treatments for bacterial infections and improved health outcomes. In conclusion, eubacteria are an essential component of our world, influencing everything from environmental health to human well-being. Their diverse roles, whether in nature or industry, highlight the importance of understanding these microorganisms. As research continues to evolve, we will likely uncover even more about the significance of eubacteria in our lives, paving the way for innovative solutions to health and environmental challenges. The exploration of eubacteria not only enriches our knowledge of biology but also emphasizes the interconnectedness of all living organisms.

微生物的研究是一个迷人的领域，持续揭示生命复杂性的新的见解。在这些微生物中，有一组特别重要的群体被称为真细菌。这个术语指的是一大类细菌，其特征是简单的细胞结构和细胞壁中存在肽聚糖。'真细菌'这个名字来源于希腊语中的'eu'，意为真实，和'bacterium'，表示一种杆状生物。因此，真细菌可以理解为'真正的细菌'。 真细菌广泛存在于土壤、水体，甚至人类体内。它们在营养循环中扮演着重要角色，对氮固定和分解等过程至关重要。没有真细菌，生态系统将难以维持平衡，因为这些生物帮助分解有机物并将养分循环回环境中。 在人体肠道中，真细菌对消化和整体健康至关重要。它们帮助分解复杂的碳水化合物并合成必需的维生素。我们微生物组中真细菌的平衡至关重要；失衡可能导致各种健康问题，包括肥胖、糖尿病和胃肠疾病。研究表明，维持健康的真细菌群体可以改善免疫功能并减少炎症，突显了它们在日常生活中的重要性。 有趣的是，真细菌还有重要的工业应用。例如，某些菌株用于酸奶和奶酪的生产，在这些过程中，它们发酵乳糖并产生乳酸。这一过程不仅能够保存食物，还能增强其风味和营养价值。此外，一些真细菌被用于生物修复，这是一种利用活生物去除或中和环境污染物的技术。这一应用展示了真细菌在自然栖息地之外的多样性和实用性。 尽管有许多好处，但重要的是要认识到，并非所有的真细菌都是无害的。一些物种可能会对人类、动物和植物造成疾病。例如，某些真细菌菌株是结核病和链球菌喉炎等感染的病因。这种既有益又有害的双重性使得对真细菌的研究对科学家来说特别引人入胜。了解这些生物如何与它们的环境和宿主相互作用，可以导致更好的细菌感染治疗和改善健康结果。 总之，真细菌是我们世界的重要组成部分，影响着从环境健康到人类福祉的方方面面。它们在自然界或工业中的多样角色强调了理解这些微生物的重要性。随着研究的不断发展，我们可能会发现更多关于真细菌在我们生活中重要性的内容，为健康和环境挑战提供创新解决方案。对真细菌的探索不仅丰富了我们对生物学的知识，也强调了所有生物之间的相互联系。