[由自我传递性IncI质粒ColIb-p9编码的阿尔达抗限制蛋白保守基序的突变分析]
[Mutational analysis of the conserved motif of the Arda anti-restriction protein encoded by self-transmissible IncI plasmid ColIb-p9].
作者信息
Del'ver E P, Sobennikova M V, Belogurova N G, Nekrasov S V, Kolesnikova M D, Agafonova O V, Belogurov A A
机构信息
Institute of Experimental Cardiology, Cardiology Research Center, Ministry of Health of the Russian Federation, Moscow, 121552 Russia.
出版信息
Mol Biol (Mosk). 2002 Nov-Dec;36(6):1062-7.
A study was made of the functional role of the ArdA antirestriction motif (130-LLADVPETVALYFD-143) conserved among all known Ard (alleviation of restriction of DNA) proteins, which are encoded by self-transmissible plasmids and specifically inhibit type I restriction-modification systems. Conserved residues of the motif were individually changed, and the resulting mutants tested for in vivo activity. Hydrophobic L130, L131, and V138 were substituted with negatively charged E; negatively charged D133, E136, and D143 substituted with hydrophobic V; and D127, D150, and D154 neighboring the antirestriction motif substituted with V. Four substitutions (L130E, L131E, V138E, and D143V) substantially (25-1000 times) reduced the ArdA activity. The other substitutions within or beyond the motif had no appreciable effect. Substitutions L130A and L131A each reduced the ArdA activity 10- to 20-fold, indicating that high hydrophobicity of L130 and L131 is important for the ArdA function. Thus, the antirestriction role of ArdA is indeed due to its conserved motif.
对ArdA抗限制基序(130 - LLADVPETVALYFD - 143)的功能作用进行了研究,该基序在所有已知的Ard(DNA限制缓解)蛋白中保守,这些蛋白由自我传递质粒编码,并特异性抑制I型限制修饰系统。该基序的保守残基被逐个改变,并对产生的突变体进行体内活性测试。疏水性的L130、L131和V138被带负电荷的E取代;带负电荷的D133、E136和D143被疏水性的V取代;与抗限制基序相邻的D127、D150和D154被V取代。四个取代(L130E、L131E、V138E和D143V)显著(25 - 1000倍)降低了ArdA活性。基序内或基序外的其他取代没有明显影响。取代L130A和L131A各自将ArdA活性降低了10至20倍,表明L130和L131的高疏水性对ArdA功能很重要。因此,ArdA的抗限制作用确实归因于其保守基序。
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