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BsaHI 限制修饰系统:保守基序的克隆、测序与分析

The BsaHI restriction-modification system: cloning, sequencing and analysis of conserved motifs.

作者信息

Neely Robert K, Roberts Richard J

机构信息

School of Chemistry, The University of Edinburgh, West Mains Road, Edinburgh EH9 3JJ, UK.

出版信息

BMC Mol Biol. 2008 May 14;9:48. doi: 10.1186/1471-2199-9-48.

DOI:10.1186/1471-2199-9-48
PMID:18479503
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2413257/
Abstract

BACKGROUND

Restriction and modification enzymes typically recognise short DNA sequences of between two and eight bases in length. Understanding the mechanism of this recognition represents a significant challenge that we begin to address for the BsaHI restriction-modification system, which recognises the six base sequence GRCGYC.

RESULTS

The DNA sequences of the genes for the BsaHI methyltransferase, bsaHIM, and restriction endonuclease, bsaHIR, have been determined (GenBank accession #EU386360), cloned and expressed in E. coli. Both the restriction endonuclease and methyltransferase enzymes share significant similarity with a group of 6 other enzymes comprising the restriction-modification systems HgiDI and HgiGI and the putative HindVP, NlaCORFDP, NpuORFC228P and SplZORFNP restriction-modification systems. A sequence alignment of these homologues shows that their amino acid sequences are largely conserved and highlights several motifs of interest. We target one such conserved motif, reading SPERRFD, at the C-terminal end of the bsaHIR gene. A mutational analysis of these amino acids indicates that the motif is crucial for enzymatic activity. Sequence alignment of the methyltransferase gene reveals a short motif within the target recognition domain that is conserved among enzymes recognising the same sequences. Thus, this motif may be used as a diagnostic tool to define the recognition sequences of the cytosine C5 methyltransferases.

CONCLUSION

We have cloned and sequenced the BsaHI restriction and modification enzymes. We have identified a region of the R. BsaHI enzyme that is crucial for its activity. Analysis of the amino acid sequence of the BsaHI methyltransferase enzyme led us to propose two new motifs that can be used in the diagnosis of the recognition sequence of the cytosine C5-methyltransferases.

摘要

背景

限制酶和甲基化酶通常识别长度为2至8个碱基的短DNA序列。了解这种识别机制是一项重大挑战,我们开始针对BsaHI限制-修饰系统解决这一问题,该系统识别六碱基序列GRCGYC。

结果

已确定(GenBank登录号#EU386360)BsaHI甲基转移酶bsaHIM和限制性内切酶bsaHIR的基因DNA序列,并在大肠杆菌中进行克隆和表达。限制性内切酶和甲基转移酶均与包括限制-修饰系统HgiDI和HgiGI以及推定的HindVP、NlaCORFDP、NpuORFC228P和SplZORFNP限制-修饰系统在内的其他6种酶有显著相似性。这些同源物的序列比对表明,它们的氨基酸序列在很大程度上是保守的,并突出了几个有趣的基序。我们针对bsaHIR基因C末端的一个这样的保守基序,其序列为SPERRFD。对这些氨基酸的突变分析表明,该基序对酶活性至关重要。甲基转移酶基因的序列比对揭示了目标识别域内一个短基序,该基序在识别相同序列的酶中是保守的。因此,该基序可作为一种诊断工具来定义胞嘧啶C5甲基转移酶的识别序列。

结论

我们已克隆并测序了BsaHI限制酶和甲基化酶。我们确定了BsaHI酶中对其活性至关重要的一个区域。对BsaHI甲基转移酶氨基酸序列的分析使我们提出了两个新的基序,可用于诊断胞嘧啶C5甲基转移酶的识别序列。

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