利用高通量光学成像技术对活鳗鱼进行大规模单细胞分析

IF 11.8 1区 化学 Q1 CHEMISTRY, ANALYTICAL
Cheng Lei , Yuta Nakagawa , Yuzuki Nagasaka , Tianben Ding , Hiroshi Kanno , Chihana Toyokawa , Kuniyasu Niizuma , Kengo Suzuki , Ming Li , Anwar Sunna , Vladimir Hampl , Keisuke Goda
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引用次数: 0

摘要

鳗鲡(Euglena gracilis)是一种形似纺锤的鞭毛单细胞生物,属于鳗鲡门。这种原生动物主要生活在湖泊和池塘等淡水水体中。E. gracilis 具有独特的光合作用和异养摄食能力,可以自己生产有机物,也可以从环境中吸收有机物。这种植物和动物特征的奇妙结合,以及前景广阔的生物技术应用,使其成为广泛研究的对象。值得注意的是,E. gracilis 已被用于生产生物燃料和合成各种化合物,如氨基酸和维生素。对于这些应用来说,快速评估种群中的单个 E. gracilis 细胞至关重要。本文介绍了可对蟛蜞菊进行大规模单细胞分析的高通量光学成像技术的最新进展。我们回顾了该技术中各种方法的优点和局限性,并讨论了其未来的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High-throughput optical imaging technology for large-scale single-cell analysis of live Euglena gracilis

Euglena gracilis, a flagellated, single-celled organism shaped like a spindle, belongs to the Euglenozoa phylum. This protist is predominantly found in freshwater bodies such as lakes and ponds. Unique in its ability to perform photosynthesis and heterotrophic feeding, E. gracilis can produce organic materials on its own or absorb them from the environment. This intriguing blend of plant and animal traits, coupled with promising biotechnological applications, have made it a subject of extensive research. Notably, E. gracilis has been used for biofuel production and synthesis of various compounds such as amino acids and vitamins. For these applications, rapid assessment of single E. gracilis cells within populations is essential. This paper introduces recent advancements in high-throughput optical imaging technology that enables large-scale, single-cell analysis of E. gracilis. We review the benefits and limitations of various methods within this technology, along with discussing its future potential.

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来源期刊
Trends in Analytical Chemistry
Trends in Analytical Chemistry 化学-分析化学
CiteScore
20.00
自引率
4.60%
发文量
257
审稿时长
3.4 months
期刊介绍: TrAC publishes succinct and critical overviews of recent advancements in analytical chemistry, designed to assist analytical chemists and other users of analytical techniques. These reviews offer excellent, up-to-date, and timely coverage of various topics within analytical chemistry. Encompassing areas such as analytical instrumentation, biomedical analysis, biomolecular analysis, biosensors, chemical analysis, chemometrics, clinical chemistry, drug discovery, environmental analysis and monitoring, food analysis, forensic science, laboratory automation, materials science, metabolomics, pesticide-residue analysis, pharmaceutical analysis, proteomics, surface science, and water analysis and monitoring, these critical reviews provide comprehensive insights for practitioners in the field.
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