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mRNA accessible site tagging (MAST): a novel high throughput method for selecting effective antisense oligonucleotides

机译：mRNA可及位点标记（MAST）：一种用于选择有效反义寡核苷酸的新型高通量方法

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摘要

A solution-based method, mRNA accessible site tagging (MAST), has been developed to map the accessible sites of any given mRNA in high throughput fashion. mRNA molecules were immobilized and hybridized to randomized oligonucleotide libraries. Oligonucleotides specifically hybridized to the mRNA were sequenced and found to be able to precisely define the accessible sites of the mRNA. A number of ways were used to validate the accessible sites defined by the MAST process. Mapping of rabbit β-globin mRNA demonstrates the efficacy and advantage of MAST over other technologies in identifying accessible sites. Antisense oligonucleotides designed according to the accessible site map of human RhoA and Renilla luciferase mRNA result in knockdown effects that are in good correlation with the degrees of accessibility. The MAST methodology can be applied to mRNA of any length using a universal protocol.

机译：已经开发了一种基于解决方案的方法，即mRNA可及位标记（MAST），可以以高通量方式绘制任何给定mRNA的可及位。将mRNA分子固定并与随机寡核苷酸文库杂交。对与mRNA特异性杂交的寡核苷酸进行了测序，发现能够精确定义mRNA的可及位点。许多方法用于验证MAST流程定义的可访问站点。兔β-珠蛋白mRNA的定位证明了MAST在识别可及部位方面的功效和优势。根据人RhoA和海肾荧光素酶mRNA的可及位点图设计的反义寡核苷酸可产生与可及程度密切相关的敲低效应。使用通用协议，可以将MAST方法应用于任何长度的mRNA。

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作者
Zhang, Hong-Yan; Mao, Jianping; Zhou, Daixing; Xu, Yunhe; Thonberg, Håkan; Liang, Zicai; Wahlestedt, Claes;
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年度 2003
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正文语种 en
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专利

1. mRNA accessible site tagging (MAST): a novel high throughput method for selecting effective antisense oligonucleotides - art. no. e72 [J] . Zhang HY, Mao JP, Zhou DX, Nucleic Acids Research . 2003,第14期

机译：mRNA可及性位点标记（MAST）：一种用于选择有效反义寡核苷酸的新颖高通量方法-art。没有。 e72
2. mRNA accessible site tagging (MAST): a novel high throughput method for selecting effective antisense oligonucleotides [J] . Claes Wahlestedt, Daixing Zhou, H?kan Thonberg, Nucleic acids research . 2003,第14期

机译：mRNA可及位点标签（MAST）：一种用于选择有效反义寡核苷酸的新型高通量方法
3. POTENT ANTISENSE OLIGONUCLEOTIDES TO THE HUMAN MULTIDRUG RESISTANCE-1 MRNA ARE RATIONALLY SELECTED BY MAPPING RNA-ACCESSIBLE SITES WITH OLIGONUCLEOTIDE LIBRARIES [J] . Ho SP, Britton DHO, Stone BA, Nucleic Acids Research . 1996,第10期

机译：通过将RNA易位位点与寡核苷酸文库配对，可以合理选择对人类多药耐药性1 MRNA的强效反义寡核苷酸
4. Enhancing antisense oligonucleotide efficacy in vivo by improving both antisense design using RNAse H accessibility mapping and sustained hippocampal delivery using biodegradeabile microspheres [C] . A.Islam, K.S.J.thompson, S.Akhtar, International symposium on controlled release of bioactive materials;Consumer and diversified products conference . 2000

机译：通过改善使用RNAse H可及性作图的反义设计和使用可生物降解的微球体持续进行海马递送来增强体内反义寡核苷酸的功效
5. Nanotechnology for efficient delivery of short therapeutic oligonucleotides (antisense ODN and siRNA) and codelivery with chemical anticancer drugs for effective cancer therapy [D] . Chen, Minhua 2009

机译：纳米技术可有效递送短的治疗性寡核苷酸（反义ODN和siRNA），并与化学抗癌药一起进行代码递送，以进行有效的癌症治疗
6. mRNA accessible site tagging (MAST): a novel high throughput method for selecting effective antisense oligonucleotides [O] . Hong-Yan Zhang, Jianping Mao, Daixing Zhou, 2003

机译：mRNA可及位点标记（MAST）：一种用于选择有效反义寡核苷酸的新型高通量方法
7. Potent antisense oligonucleotides to the human multidrug resistance-1 mRNA are rationally selected by mapping RNA-accessible sites with oligonucleotide libraries. [O] . Ho, S P, Britton, D H, Stone, B A, 1996

机译：通过将具有寡核苷酸文库的RNA可及位点作图，可以合理地选择针对人类多药耐药性1 mRNA的有效反义寡核苷酸。

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