mycoplasma

简明释义

英[ˌmaɪkəʊˈplɑːzmə]美[ˌmaɪkoˈplɑzmə]

n. [微] 支原菌，[微] 支原体

复 数 m y c o p l a s m a s 或 m y c o p l a s m a t a

英英释义

单词用法

同义词

反义词

例句

1.Chlamydia and Mycoplasma invasive human urogenital tract, there are 1 to 3 weeks or longer incubation period.

衣原体和支原体侵入人体泌尿生殖道后，都有1 ~3周或更长的潜伏期。

2.Drug resistance of mycoplasma is severe. Culture and drug susceptibility testing of mycoplasma are important for clinical therapy.

支原体感染的耐药情况严重，在临床工作中同时进行支原体培养和药敏试验对临床用药具有重要意义。

3.The mycoplasma chlamydia infection medication can cure?

支原体衣原体感染用药能治好吗？

4.Mycoplasma has the special biology structure and functions.

支原体具有独特的生物学结构和功能。

5.Once again the facts say that commercial companies almost always end up with all of their farms + ve for diseases like PRRS and Mycoplasma.

事实再一次说明商业公司几乎最终都会因为诸如蓝耳病和支原体病毒等疾病问题而终止。

6.Objective to study the relationship between mycoplasma infection in different parts of male genitourinary tract and infertility.

目的研究男性生殖道不同部位支原体感染与不育症之间的关系。

7.The laboratory confirmed the presence of mycoplasma 支原体 in the cell culture.

实验室确认细胞培养中存在mycoplasma 支原体。

8.Researchers are studying the effects of mycoplasma 支原体 contamination on antibiotic resistance.

研究人员正在研究mycoplasma 支原体污染对抗生素抗药性的影响。

9.Infections caused by mycoplasma 支原体 can lead to respiratory diseases.

由mycoplasma 支原体引起的感染可能导致呼吸系统疾病。

10.The veterinarian diagnosed the animal with a mycoplasma 支原体 infection.

兽医诊断动物感染了mycoplasma 支原体。

11.To prevent mycoplasma 支原体 contamination, sterile techniques must be employed.

为了防止mycoplasma 支原体污染，必须采用无菌技术。

作文

Mycoplasma is a fascinating subject in the field of microbiology. These are the smallest free-living organisms known, and they belong to a class of bacteria that lack a cell wall. This unique characteristic makes mycoplasma (支原体) particularly interesting to scientists and researchers. Unlike many other bacteria, mycoplasma (支原体) can change shape and size, which allows them to adapt to various environments. They are often found in diverse habitats, including soil, water, and as parasites in plants and animals. One of the most notable features of mycoplasma (支原体) is their role in human health. Certain species of mycoplasma (支原体) are known to be pathogenic, meaning they can cause diseases in humans. For example, Mycoplasma pneumoniae is a well-known cause of atypical pneumonia, particularly in younger populations. The symptoms of infections caused by mycoplasma (支原体) can be quite mild, often resembling those of a common cold. However, in some cases, they can lead to more severe respiratory issues, making understanding these organisms crucial for public health. Research on mycoplasma (支原体) has also provided insights into antibiotic resistance. Because mycoplasma (支原体) lack a cell wall, they are inherently resistant to many common antibiotics that target cell wall synthesis, such as penicillin. This poses a challenge for treatment, as healthcare providers must rely on alternative medications that are effective against these unique bacteria. Understanding the mechanisms of resistance in mycoplasma (支原体) is essential for developing new therapeutic strategies. In addition to their medical significance, mycoplasma (支原体) are also important in agricultural settings. Some species can affect livestock, leading to economic losses in the farming industry. For instance, Mycoplasma bovis is a significant pathogen in cattle, causing mastitis and pneumonia. Farmers and veterinarians must be vigilant in monitoring and managing mycoplasma (支原体) infections to ensure the health of their animals and the productivity of their farms. The study of mycoplasma (支原体) extends beyond health and agriculture; it also has implications in biotechnology. Scientists are exploring the potential of using mycoplasma (支原体) in genetic engineering and synthetic biology. Their simple structure and ability to thrive in various conditions make them attractive candidates for research and application in creating novel biological systems. In conclusion, mycoplasma (支原体) represents a unique and important area of study within microbiology. Their distinctive characteristics, role in human and animal health, and potential applications in biotechnology highlight the need for continued research. As we deepen our understanding of mycoplasma (支原体), we can better address the challenges they present and harness their potential for beneficial uses in medicine and science. The ongoing exploration of these tiny organisms will undoubtedly yield valuable insights that could impact various fields in the future.

支原体是微生物学领域一个引人入胜的主题。这些是已知的最小自由生活生物，属于缺乏细胞壁的一类细菌。这一独特特征使得mycoplasma（支原体）对科学家和研究人员尤其有趣。与许多其他细菌不同，mycoplasma（支原体）可以改变形状和大小，这使它们能够适应多种环境。它们通常存在于多样的栖息地中，包括土壤、水以及作为植物和动物的寄生虫。 mycoplasma（支原体）最显著的特征之一是它们在人体健康中的作用。某些mycoplasma（支原体）物种被认为是病原体，这意味着它们可以在人体内引起疾病。例如，Mycoplasma pneumoniae是非典型肺炎的一个著名病因，特别是在年轻人群中。由mycoplasma（支原体）引起的感染症状可能相当轻微，通常类似于普通感冒。然而，在某些情况下，它们可能导致更严重的呼吸问题，因此理解这些生物对公共健康至关重要。 关于mycoplasma（支原体）的研究还提供了对抗生素耐药性的见解。由于mycoplasma（支原体）缺乏细胞壁，因此它们天生对许多针对细胞壁合成的常用抗生素（如青霉素）具有抵抗力。这给治疗带来了挑战，因为医疗提供者必须依赖对这些独特细菌有效的替代药物。理解mycoplasma（支原体）中的耐药机制对于开发新的治疗策略至关重要。 除了医学意义外，mycoplasma（支原体）在农业领域也很重要。一些物种会影响家畜，导致农业产业经济损失。例如，Mycoplasma bovis是牛的重要病原体，会引起乳腺炎和肺炎。农民和兽医必须密切监测和管理mycoplasma（支原体）感染，以确保动物健康和农场的生产力。 对mycoplasma（支原体）的研究不仅限于健康和农业；它在生物技术中也有重要意义。科学家们正在探索使用mycoplasma（支原体）进行基因工程和合成生物学的潜力。它们简单的结构和在各种条件下生存的能力使它们成为研究和应用的理想候选者，用于创造新型生物系统。 总之，mycoplasma（支原体）代表了微生物学中一个独特而重要的研究领域。它们独特的特性、在人体和动物健康中的作用以及在生物技术中的潜在应用凸显了继续研究的必要性。随着我们对mycoplasma（支原体）的理解加深，我们可以更好地应对它们所带来的挑战，并利用它们在医学和科学中的潜在益处。对这些微小生物的持续探索无疑将产生有价值的见解，可能对未来的各个领域产生影响。