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In situ detection of non-polyadenylated RNA molecules using Turtle Probes and target primed rolling circle PRINS

机译：使用Turtle Probes和靶引发的滚动环PRINS原位检测非聚腺苷酸RNA分子

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摘要

BackgroundIn situ detection is traditionally performed with long labeled probes often followed by a signal amplification step to enhance the labeling. Whilst short probes have several advantages over long probes (e.g. higher resolution and specificity) they carry fewer labels per molecule and therefore require higher amplification for detection. Furthermore, short probes relying only on hybridization for specificity can result in non-specific signals appearing anywhere the probe attaches to the target specimen. One way to obtain high amplification whilst minimizing the risk of false positivity is to use small circular probes (e.g. Padlock Probes) in combination with target primed rolling circle DNA synthesis. This has previously been used for DNA detection in situ, but not until now for RNA targets.

机译：背景技术传统上，原位检测是使用长标记的探针进行的，通常会随后进行信号放大步骤以增强标记。尽管短探针比长探针具有多个优点（例如，更高的分辨率和特异性），但每个分子带有较少的标记，因此需要更高的扩增才能进行检测。此外，短探针仅依赖于杂交的特异性会导致非特异性信号出现在探针附着于目标标本的任何地方。在使假阳性风险最小化的同时获得高扩增的一种方法是将小型圆形探针（例如Padlock探针）与目标引物滚动环DNA合成结合使用。以前已将其用于原位DNA检测，但直到现在才用于RNA靶标。

著录项

期刊名称 BMC Biotechnology
作者
Magnus Stougaard; Jakob S Lohmann; Magdalena Zajac; Stephen Hamilton-Dutoit; Jørn Koch;
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作者单位

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年(卷),期 2007(7),-1
年度 2007
页码 69
总页数 10
原文格式 PDF
正文语种
中图分类应用微生物学;
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专利

1. In Situ Detection of Anaplasma spp. by DNA Target-Primed Rolling-Circle Amplification of a Padlock Probe and Intracellular Colocalization with Immunofluorescently Labeled Host Cell von Willebrand Factor [J] . Heather L. Wamsley, Anthony F. Barbet Journal of Clinical Microbiology . 2008,第7期

机译：原核种的原位检测。通过DNA目标为基础的挂锁探针滚环扩增和免疫荧光标记的宿主细胞von Willebrand因子的细胞内共定位
2. A linear DNA probe as an alternative to a molecular beacon for improving the sensitivity of a homogenous fluorescence biosensing platform for DNA detection using target-primed rolling circle amplification [J] . Zhou Fulin, Li Baoxin, Ma Jiyuan RSC Advances . 2015,第6期

机译：用目标底漆轧制圆扩增提高用于改善DNA检测的均匀荧光生物传感平台的均匀荧光生物传感平台的敏感性的直链DNA探针
3. A Highly Sensitive Target-Primed Rolling Circle Amplification (TPRCA) Method for Fluorescent in Situ Hybridization Detection of MicroRNA in Tumor Cells [J] . Jia Ge, Liang-Liang Zhang, Si-Jia Liu, Analytical chemistry . 2014,第3期

机译：用于肿瘤细胞中微小RNA荧光原位杂交检测的高灵敏度靶标滚动环扩增（TPRCA）方法
4. Detection of DNA Target with Highly Enhanced Specificity by Self-Circularization Rolling Circle Amplification [C] . Xingyu Wang, Xiaoliang Wang, Ping Dong, International conference on applied biotechnology . 2014

机译：自环化滚环扩增技术检测高度特异性的DNA靶标
5. Development of a PCR-free direct genomic DNA detection assay using rolling circle amplification. [D] . Schopf, Eric August. 2009

机译：使用滚环扩增技术开发无PCR的直接基因组DNA检测方法。
6. In Situ Detection of Anaplasma spp. by DNA Target-Primed Rolling-Circle Amplification of a Padlock Probe and Intracellular Colocalization with Immunofluorescently Labeled Host Cell von Willebrand Factor [O] . Heather L. Wamsley, Anthony F. Barbet 2008

机译：原核种的原位检测。通过DNA目标为基础的挂锁探针滚环扩增和免疫荧光标记的宿主细胞von Willebrand因子的细胞内共定位
7. In situ detection of non-polyadenylated RNA molecules using Turtle Probes and target primed rolling circle PRINS [O] . Stougaard, Magnus, Lohmann, Jakob S, Zajac, Magdalena, 2007

机译：使用Turtle Probes和靶引发的滚动环PRINS原位检测非聚腺苷酸RNA分子

In situ detection of non-polyadenylated RNA molecules using Turtle Probes and target primed rolling circle PRINS

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