fibrils
简明释义
n. [生物][纺] 小纤维,[生物] 原纤维
英英释义
Fibrils are small, thread-like structures that are typically found in biological tissues and are composed of proteins or polysaccharides. | 纤维是通常存在于生物组织中的小型线状结构,由蛋白质或多糖组成。 |
单词用法
胶原纤维 | |
肌肉纤维 | |
纤维网络 | |
纤维形成 | |
细纤维 | |
粗纤维 | |
纤维结构 | |
纤维排列 |
同义词
| 纤维 | 肌肉纤维对收缩和运动至关重要。 | ||
| 细丝 | The spider silk filaments are known for their strength and elasticity. | 蜘蛛丝细丝以其强度和弹性而闻名。 | |
| 绞索 | Strands of protein can form complex structures in biological systems. | 蛋白质的绞索可以在生物系统中形成复杂的结构。 |
反义词
| 固体 | 材料从纤维状转变为固体形式。 | ||
| 块状物 | In contrast to fibrils, the bulk of the substance was stable. | 与纤维状相对,该物质的块状部分是稳定的。 |
例句
1.In contrast, insulin fibrils and lysozyme fibrils induced strongly hemolysis of the cells.
相反,胰岛素纤维和鸡卵清溶菌酶纤维却能够引起红细胞的溶血。
2.Now, a team from the University of Manchester has used sophisticated electron microscope techniques to uncover the molecular structure of the thinner of the two types of collagen fibrils.
现在,来自曼彻斯特大学的一个研究小组利用高超的电子显微镜技术揭示了这两种胶原纤维的薄层的分子结构。
3.Fine fibrils of proplastid were observed in electronic less dense region.
在电子密度低的区域能观察到前质体的纤维丝。
4.Except that the fibrils occurred loose, the structure of DSPP treatment had no distinct alteration and was similar with control.
DSPP处理对胶原纤维的影响不大,结构基本上与对照接近,只是稍稍发生松动。
5.Furthermore, it is revealed that the fracture of fibre results from the longitudinal sliding displacement of fibrils or microfibrils.
还发现聚乙烯纤维在单向拉伸下的断裂是通过细纤维或细纤维束的相互滑移而实现的。
6.Cuticular protein and chitin self-assemble into regularly arranged fibrils, which is the fundamental structure of cuticle.
表皮蛋白和几丁质通过自我组装形成复合物的超高级结构,这种结构是昆虫表皮行使功能的基础。
7.Collagenase is one kind of enzymes that can degrade native helical collagen fibrils or glutin but not degrade others proteins.
胶原酶是一种特异降解胶原螺旋区或明胶,而不作用于其它蛋白质底物的酶类。
8.Electron microscopy reveals the characteristic fibrils of amyloid and in early cases this technique is occasionally essential for the diagnosis to be made.
电子显微镜能显示出淀粉样蛋白纤维的特征,在早期的病例中这项技术有时是诊断所必需的。
9.Collagen fibrils are essential for maintaining the structural integrity of tissues.
胶原蛋白纤维对维持组织的结构完整性至关重要。
10.Researchers discovered that the arrangement of fibrils affects the strength of the material.
研究人员发现,纤维的排列影响材料的强度。
11.The fibrils in muscle tissue play a crucial role in contraction.
肌肉组织中的纤维在收缩中起着关键作用。
12.In plants, cellulose fibrils provide rigidity and support.
在植物中,纤维素纤维提供刚性和支持。
13.The presence of amyloid fibrils is often associated with neurodegenerative diseases.
淀粉样纤维的存在通常与神经退行性疾病相关。
作文
Fibrils are tiny, thread-like structures that play a crucial role in various biological and material processes. They can be found in numerous natural substances, serving as the building blocks for larger fibers. In the context of biology, fibrils (纤维小丝) are often associated with proteins such as collagen and keratin, which provide strength and support to tissues. For instance, collagen fibrils (纤维小丝) are essential components of connective tissues, including skin, tendons, and cartilage. These fibrils (纤维小丝) form a network that helps maintain the structural integrity of these tissues, allowing them to withstand stretching and pressure.In addition to their biological significance, fibrils (纤维小丝) are also critical in the field of materials science. For example, synthetic polymers can be engineered to form fibrils (纤维小丝) that enhance the mechanical properties of materials. These fibrils (纤维小丝) can improve tensile strength and flexibility, making them valuable in applications ranging from textiles to biomedical devices. The ability to manipulate the size and arrangement of fibrils (纤维小丝) allows scientists and engineers to design materials with specific characteristics tailored for particular uses.Moreover, the study of fibrils (纤维小丝) extends into the realm of nanotechnology. Researchers are exploring how to create nanoscale fibrils (纤维小丝) that can be utilized in drug delivery systems or as scaffolds for tissue engineering. These advancements hold promise for developing innovative treatments and therapies that can significantly impact healthcare outcomes.In summary, fibrils (纤维小丝) are fundamental structures that contribute to the functionality and resilience of both biological organisms and synthetic materials. Their versatility and importance across various fields highlight the need for continued research and understanding of these remarkable components. By delving deeper into the world of fibrils (纤维小丝), we can unlock new possibilities in medicine, engineering, and beyond. As we advance our knowledge, the potential applications of fibrils (纤维小丝) will likely expand, leading to innovations that enhance our quality of life and address some of the most pressing challenges in science and technology.
纤维小丝是微小的、像线一样的结构,在各种生物和材料过程中发挥着至关重要的作用。它们可以在许多自然物质中找到,作为更大纤维的构建块。在生物学的背景下,fibrils(纤维小丝)通常与胶原蛋白和角蛋白等蛋白质相关,这些蛋白质为组织提供强度和支持。例如,胶原蛋白fibrils(纤维小丝)是结缔组织的重要组成部分,包括皮肤、肌腱和软骨。这些fibrils(纤维小丝)形成一个网络,有助于维持这些组织的结构完整性,使其能够承受拉伸和压力。除了其生物学意义外,fibrils(纤维小丝)在材料科学领域也至关重要。例如,合成聚合物可以被设计形成fibrils(纤维小丝),以增强材料的机械性能。这些fibrils(纤维小丝)可以提高抗拉强度和柔韧性,使其在从纺织品到生物医学设备的应用中具有价值。操控fibrils(纤维小丝)的大小和排列方式,使科学家和工程师能够设计出具有特定特征的材料,以满足特定用途的需求。此外,fibrils(纤维小丝)的研究扩展到纳米技术领域。研究人员正在探索如何创建纳米级fibrils(纤维小丝),可用于药物递送系统或作为组织工程的支架。这些进展为开发创新治疗和疗法提供了希望,可能会显著影响医疗保健结果。总之,fibrils(纤维小丝)是基本结构,有助于生物有机体和合成材料的功能和韧性。它们在各个领域的多样性和重要性突显了对这些显著组成部分持续研究和理解的必要性。通过深入探讨fibrils(纤维小丝)的世界,我们可以解锁医学、工程等领域的新可能性。随着我们知识的进步,fibrils(纤维小丝)的潜在应用可能会扩大,导致提升我们生活质量和解决科学技术中一些最紧迫挑战的创新。
