conchiolin
简明释义
n. [生化] 贝壳硬蛋白;贝壳硬朊
英英释义
Conchiolin is a protein that forms the organic matrix of the shells of mollusks and is involved in the formation of pearls. | 壳蛋白是一种形成软体动物壳的有机基质的蛋白质,并参与珍珠的形成。 |
单词用法
壳质层 | |
壳质蛋白 | |
由壳质组成 | |
富含壳质 |
同义词
| 贝壳素 | Conchiolin is a key component in the structure of mollusk shells. | 贝壳素是软体动物壳体结构的关键成分。 | |
| 硬角素 | Sclerotin provides rigidity and strength to the exoskeletons of arthropods. | 硬角素为节肢动物的外骨骼提供刚性和强度。 |
反义词
例句
1.Our nacre shell cream is made from crushed oyster shell which are rich in nacre, conchiolin, proteins and nutrients.
我们的珍珠层霜选用富含珠母贝、贝壳硬蛋白、蛋白质和营养成分的牡砺壳制成。
2.Our nacre shell cream is made from crushed oyster shell which are rich in nacre, conchiolin, proteins and nutrients.
我们的珍珠层霜选用富含珠母贝、贝壳硬蛋白、蛋白质和营养成分的牡砺壳制成。
3.The presence of conchiolin (贝壳素) can be detected in fossilized shells, providing insights into ancient marine life.
化石化的贝壳中可以检测到conchiolin(贝壳素)的存在,为古代海洋生物提供洞察。
4.The outer layer of a mollusk shell is primarily composed of conchiolin (贝壳素), which provides strength and durability.
软体动物壳的外层主要由conchiolin(贝壳素)构成,提供强度和耐久性。
5.Researchers are studying the role of conchiolin (贝壳素) in the formation of pearls.
研究人员正在研究conchiolin(贝壳素)在珍珠形成中的作用。
6.In aquaculture, the quality of shellfish is often assessed by examining the conchiolin (贝壳素) content in their shells.
在水产养殖中,贝类的质量通常通过检查其壳中conchiolin(贝壳素)的含量来评估。
7.Some scientists believe that conchiolin (贝壳素) may have potential applications in biomaterials.
一些科学家认为conchiolin(贝壳素)可能在生物材料中具有潜在应用。
作文
In the fascinating world of biology, the study of mollusks reveals a wealth of information about evolution and adaptation. One of the most intriguing components found in the shells of these creatures is a protein known as conchiolin. This remarkable substance plays a crucial role in the formation and strength of mollusk shells, which serve as both protection and support for these soft-bodied animals. Understanding conchiolin not only sheds light on the biology of mollusks but also has implications for materials science and biomimicry.Conchiolin is a fibrous protein that is primarily composed of amino acids, and it is found in the organic matrix of mollusk shells. Its structure is complex, contributing to the overall durability and resilience of the shell. The presence of conchiolin allows the shell to withstand various environmental pressures, including predation and harsh weather conditions. This ability to adapt and thrive in diverse habitats is a testament to the evolutionary success of mollusks.Research into conchiolin has revealed that it is not just a passive component of the shell. Instead, it actively participates in the mineralization process, where calcium carbonate crystals are deposited to form the hard outer layer of the shell. The interplay between conchiolin and minerals is a prime example of nature’s engineering, showcasing how biological materials can achieve impressive mechanical properties.The study of conchiolin extends beyond the realm of biology; it has garnered attention from materials scientists and engineers. By mimicking the natural processes that produce conchiolin, researchers aim to develop new materials that are both lightweight and strong. This biomimetic approach could lead to innovations in various fields, including construction, aerospace, and even medical devices. For instance, understanding how conchiolin contributes to the toughness of mollusk shells could inspire the creation of synthetic materials that replicate these properties.Moreover, the ecological significance of conchiolin cannot be overlooked. As mollusks inhabit diverse aquatic environments, their shells provide insights into the health of marine ecosystems. Changes in the composition or availability of conchiolin in these organisms may indicate shifts in environmental conditions, such as ocean acidification or pollution. Therefore, studying conchiolin not only enhances our understanding of individual species but also serves as a vital tool for monitoring the health of our planet's oceans.In conclusion, conchiolin is more than just a protein found in mollusk shells; it is a key player in the biology of these fascinating creatures and a source of inspiration for scientific innovation. From its role in shell formation to its potential applications in materials science, conchiolin exemplifies the intricate connections between biology and technology. As we continue to explore the wonders of the natural world, substances like conchiolin remind us of the endless possibilities that lie within nature’s designs and the importance of preserving the ecosystems that harbor such remarkable life forms.
在生物学的迷人世界中,对软体动物的研究揭示了关于进化和适应的大量信息。这些生物壳中的一种引人入胜的成分是被称为conchiolin的蛋白质。这种非凡的物质在软体动物壳的形成和强度中起着至关重要的作用,壳既是保护也是支撑这些软体动物的结构。理解conchiolin不仅能揭示软体动物的生物学,还对材料科学和仿生学有着深远的影响。Conchiolin是一种纤维状蛋白,主要由氨基酸组成,存在于软体动物壳的有机基质中。它的结构复杂,有助于壳的整体耐久性和韧性。Conchiolin的存在使得壳能够抵御各种环境压力,包括捕食和恶劣天气条件。这种在多样栖息地中适应和繁荣的能力证明了软体动物的进化成功。对conchiolin的研究揭示了它不仅仅是壳的被动成分。相反,它积极参与矿化过程,即碳酸钙晶体的沉积,以形成壳的坚硬外层。Conchiolin与矿物之间的相互作用是自然工程的一个典范,展示了生物材料如何实现令人印象深刻的机械性能。对conchiolin的研究超越了生物学的领域,吸引了材料科学家和工程师的注意。通过模拟产生conchiolin的自然过程,研究人员旨在开发出既轻便又坚固的新材料。这种仿生方法可能会导致各个领域的创新,包括建筑、航空航天,甚至医疗设备。例如,了解conchiolin如何增强软体动物壳的韧性可能会激励合成材料的创造,这些材料复制了这些特性。此外,conchiolin的生态意义也不容忽视。由于软体动物栖息在多样的水生环境中,它们的壳提供了对海洋生态系统健康的洞察。conchiolin在这些生物中的成分或可用性的变化可能表明环境条件的变化,例如海洋酸化或污染。因此,研究conchiolin不仅增强了我们对个别物种的理解,而且还作为监测地球海洋健康的重要工具。总之,conchiolin不仅仅是软体动物壳中的一种蛋白质;它是这些迷人生物生物学中的关键角色,也是科学创新的灵感来源。从它在壳形成中的作用到在材料科学中的潜在应用,conchiolin体现了生物学与技术之间错综复杂的联系。随着我们继续探索自然世界的奇迹,像conchiolin这样的物质提醒我们,自然设计中蕴藏着无限的可能性,以及保护拥有如此非凡生命形式的生态系统的重要性。
