phycoerythrin

简明释义

英[faɪkəʊˈerɪθrɪn]美[ˌfaɪkouɪˈrɪθrɪn]

n. [生化] 藻红蛋白

英英释义

单词用法

同义词

反义词

例句

1.ObjectiveTo screen for the optimal washing buffer in R-phycoerythrin fluorescence immunoassay MethodsChange the ionic intensity and pH value of the washing buffer.

目的筛选R-藻红蛋白免疫荧光检测中适宜的洗涤条件。

2.The cost of mass production of alga and purification of phycoerythrin will seriously constrain the wide range demands of B-phycoerythrin applications in biomedical and food industries.

藻类养殖及藻红蛋白纯化的高成本已成为藻红蛋白在医药和工业领域广泛应用的重要制约因素。

3.At the end of this article, we deeply discussed how to improve the sensitivity of immunoassay that used the phycoerythrin fluor as probes.

对如何进一步提高藻红蛋白介导的免疫荧光分析方法的灵敏度作了深入的分析和讨论。

4.The cost of mass production of alga and purification of phycoerythrin will seriously constrain the wide range demands of B-phycoerythrin applications in biomedical and food industries.

藻类养殖及藻红蛋白纯化的高成本已成为藻红蛋白在医药和工业领域广泛应用的重要制约因素。

5.The time resolved polarized fluorescence of oriented R phycoerythrin single crystal from red alga Porphyra yezoensis was studied in picosecond time scale.

本文在皮秒时域内研究红藻条斑紫菜R-藻红蛋白单晶在不同晶轴取向下的偏振荧光动力学过程。

6.The fluorescence labeling technique of phycoerythrin and application for the immunoassay of Tobacco mosaic Virus were studied in this research using it as a labeling probe.

本文以藻红蛋白为荧光探针，探讨了藻红蛋白荧光标记技术及荧光探针在烟草花叶病毒免疫检测中的应用效果。

7.The marine biologist studied the role of phycoerythrin 藻红蛋白 in photosynthesis among red algae.

这位海洋生物学家研究了phycoerythrin 藻红蛋白在红藻光合作用中的作用。

8.Researchers found that phycoerythrin 藻红蛋白 has potential applications in cancer therapy.

研究人员发现phycoerythrin 藻红蛋白在癌症治疗中具有潜在应用。

9.In our lab, we use phycoerythrin 藻红蛋白 as a fluorescent marker in various assays.

在我们的实验室中，我们使用phycoerythrin 藻红蛋白作为各种检测中的荧光标记物。

10.The extraction of phycoerythrin 藻红蛋白 from seaweed can be done using simple solvent methods.

可以使用简单的溶剂法从海藻中提取phycoerythrin 藻红蛋白。

11.The bright red color of certain algae is due to the presence of phycoerythrin 藻红蛋白.

某些藻类鲜艳的红色是由于存在phycoerythrin 藻红蛋白。

作文

Phycoerythrin is a fascinating pigment found in certain types of red algae and cyanobacteria. It plays a crucial role in the process of photosynthesis, as it helps these organisms capture light energy, particularly in deeper water where light is limited. This pigment absorbs blue and green light while reflecting red light, which gives these algae their characteristic reddish color. Understanding the function and significance of phycoerythrin (藻红蛋白) can provide insights into not only the biology of these organisms but also their ecological importance.In marine ecosystems, red algae that contain phycoerythrin (藻红蛋白) contribute significantly to primary production. They thrive in environments where other plants may struggle to survive due to low light conditions. By efficiently utilizing the available light, these algae form the base of the food web in many aquatic habitats, supporting a variety of marine life. The presence of phycoerythrin (藻红蛋白) allows these organisms to adapt to different light conditions, showcasing the remarkable versatility of life forms on our planet.Moreover, phycoerythrin (藻红蛋白) has gained attention beyond its biological functions. In recent years, researchers have been exploring its potential applications in biotechnology and medicine. For instance, phycoerythrin (藻红蛋白) is used as a fluorescent marker in various laboratory techniques, including flow cytometry and microscopy. Its unique properties make it an excellent choice for visualizing cellular processes, making significant contributions to scientific research.In addition to its scientific applications, phycoerythrin (藻红蛋白) is also being investigated for its health benefits. Studies suggest that it may possess antioxidant properties, which can help combat oxidative stress in the body. This has led to interest in incorporating phycoerythrin (藻红蛋白) into dietary supplements and functional foods, as consumers increasingly seek natural sources of health-promoting compounds.Furthermore, the environmental implications of phycoerythrin (藻红蛋白) are noteworthy. As climate change continues to impact marine ecosystems, understanding how these pigments function can aid in predicting how algae will respond to changing light conditions. This knowledge is vital for conservation efforts and managing marine resources sustainably.In conclusion, phycoerythrin (藻红蛋白) is more than just a pigment; it is a key player in the survival of red algae and cyanobacteria, contributing to the health of our oceans and the broader ecosystem. Its versatility extends from its role in photosynthesis to its applications in science and potential health benefits. As we continue to explore the mysteries of the natural world, phycoerythrin (藻红蛋白) serves as a reminder of the intricate connections between life forms and their environments, highlighting the importance of preserving biodiversity for future generations.

藻红蛋白是某些红藻和蓝细菌中发现的一种迷人色素。它在光合作用过程中发挥着关键作用，因为它帮助这些生物捕获光能，尤其是在光线有限的深水中。该色素吸收蓝光和绿光，同时反射红光，这使得这些藻类呈现出特有的红色。理解phycoerythrin（藻红蛋白）的功能和重要性可以为我们提供关于这些生物的生物学以及它们生态重要性的见解。在海洋生态系统中，含有phycoerythrin（藻红蛋白）的红藻对初级生产力贡献显著。它们在其他植物可能因光照不足而难以生存的环境中茁壮成长。通过有效利用可用光，这些藻类形成了许多水生栖息地食物链的基础，支持着各种海洋生物。phycoerythrin（藻红蛋白）的存在使这些生物能够适应不同的光照条件，展示了地球上生命形式的卓越多样性。此外，phycoerythrin（藻红蛋白）在生物学功能之外也引起了关注。近年来，研究人员开始探索其在生物技术和医学中的潜在应用。例如，phycoerythrin（藻红蛋白）被用作各种实验室技术中的荧光标记物，包括流式细胞术和显微镜观察。其独特的性质使其成为可视化细胞过程的优秀选择，为科学研究做出了重要贡献。除了科学应用外，phycoerythrin（藻红蛋白）也在研究其健康益处。研究表明，它可能具有抗氧化特性，可以帮助抵御体内的氧化压力。这导致人们对将phycoerythrin（藻红蛋白）纳入膳食补充剂和功能性食品的兴趣，因为消费者越来越寻求天然来源的健康促进化合物。此外，phycoerythrin（藻红蛋白）的环境影响也值得注意。随着气候变化继续影响海洋生态系统，了解这些色素的功能可以帮助预测藻类如何响应不断变化的光照条件。这一知识对于保护工作和可持续管理海洋资源至关重要。总之，phycoerythrin（藻红蛋白）不仅仅是一种色素；它是红藻和蓝细菌生存的关键角色，有助于我们海洋的健康和更广泛的生态系统。它的多样性从光合作用中的角色延伸到科学应用和潜在的健康益处。随着我们继续探索自然世界的奥秘，phycoerythrin（藻红蛋白）提醒我们生命形式与其环境之间复杂的联系，突显了保护生物多样性对未来几代人的重要性。