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用于靶向特定RNA序列的发夹状核酶的设计。

Design of the hairpin ribozyme for targeting specific RNA sequences.

作者信息

Hampel A, DeYoung M B, Galasinski S, Siwkowski A

机构信息

Department of Biological Sciences, Northern Illinois University, DeKalb, USA.

出版信息

Methods Mol Biol. 1997;74:171-7. doi: 10.1385/0-89603-389-9:171.

DOI:10.1385/0-89603-389-9:171
PMID:9204432
Abstract

The following steps should be taken when designing the hairpin ribozyme to cleave a specific target sequence: 1. Select a target sequence containing BN*GUC where B is C, G, or U. 2. Select the target sequence in areas least likely to have extensive interfering structure. 3. Design the conventional hairpin ribozyme as shown in Fig. 1, such that it can form a 4 bp helix 2 and helix 1 lengths up to 10 bp. 4. Synthesize this ribozyme from single-stranded DNA templates with a double-stranded T7 promoter. 5. Prepare a series of short substrates capable of forming a range of helix 1 lengths of 5-10 bp. 6. Identify these by direct RNA sequencing. 7. Assay the extent of cleavage of each substrate to identify the optimal length of helix 1. 8. Prepare the hairpin tetraloop ribozyme to determine if catalytic efficiency can be improved.

摘要

设计用于切割特定靶序列的发夹状核酶时应采取以下步骤

  1. 选择包含BN*GUC的靶序列,其中B为C、G或U。2. 在最不可能具有广泛干扰结构的区域选择靶序列。3. 如图1所示设计传统的发夹状核酶,使其能形成4 bp的螺旋2且螺旋1长度可达10 bp。4. 从具有双链T7启动子的单链DNA模板合成这种核酶。5. 制备一系列能够形成5 - 10 bp范围内不同螺旋1长度的短底物。6. 通过直接RNA测序鉴定这些底物。7. 检测每种底物的切割程度以确定螺旋1的最佳长度。8. 制备发夹状四环核酶以确定催化效率是否可以提高。

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引用本文的文献

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C-SPACE (cleavage-specific amplification of cDNA ends): a novel method of ribozyme-mediated gene identification.C-SPACE(cDNA末端切割特异性扩增):一种核酶介导的基因鉴定新方法。
Nucleic Acids Res. 2001 Oct 1;29(19):E94. doi: 10.1093/nar/29.19.e94.
2
The hairpin ribozyme. Discovery, mechanism, and development for gene therapy.发夹状核酶。基因治疗中的发现、作用机制及发展
Mol Biotechnol. 1999 Aug;12(1):117-29. doi: 10.1385/MB:12:1:117.