用于动物模型研究中乳酸菌体内追踪的报告系统。
Reporter systems for in vivo tracking of lactic acid bacteria in animal model studies.
作者信息
van Zyl Winschau F, Deane Shelly M, Dicks Leon M T
机构信息
a Department of Microbiology ; Stellenbosch University ; Matieland, Stellenbosch , South Africa.
出版信息
Gut Microbes. 2015;6(5):291-9. doi: 10.1080/19490976.2015.1086058.
Abstract
Bioluminescence (BLI) and fluorescence imaging (FI) allow for non-invasive detection of viable microorganisms from within living tissue and are thus ideally suited for in vivo probiotic studies. Highly sensitive optical imaging techniques detect signals from the excitation of fluorescent proteins, or luciferase-catalyzed oxidation reactions. The excellent relation between microbial numbers and photon emission allow for quantification of tagged bacteria in vivo with extreme accuracy. More information is gained over a shorter period compared to traditional pre-clinical animal studies. The review summarizes the latest advances in in vivo bioluminescence and fluorescence imaging and points out the advantages and limitations of different techniques. The practical application of BLI and FI in the tracking of lactic acid bacteria in animal models is addressed.
摘要
生物发光成像(BLI)和荧光成像(FI)能够对活组织内的活菌进行非侵入性检测,因此非常适合用于体内益生菌研究。高灵敏度光学成像技术可检测荧光蛋白激发或荧光素酶催化氧化反应产生的信号。微生物数量与光子发射之间的良好关系使得能够在体内极其精确地定量标记细菌。与传统的临床前动物研究相比,在更短的时间内可获得更多信息。本文综述了体内生物发光成像和荧光成像的最新进展,并指出了不同技术的优缺点。还探讨了BLI和FI在动物模型中追踪乳酸菌的实际应用。
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