Bacteriophage ?C31 encodes an integrase, which acts on the phage and host attachment sites, attP and attB, to form an integrated prophage flanked by attL and attR. In the absence of accessory factors, ?C31 integrase cannot catalyse attL x attR recombination to excise the prophage. To understand the mechanism of directionality, mutant integrases were characterized that were active in excision. A hyperactive integrase, Int E449K, gained the ability to catalyse attL x attR, attL x attL and attR x attR recombination whilst retaining the ability to recombine attP x attB. A catalytically defective derivative of this mutant, Int S12A, E449K, could form stable complexes with attP/attB, attL/attR, attL/attL and attR/attR under conditions where Int S12A only complexed with attP/attB. Further analysis of the Int E449K-attL/attR synaptic events revealed a preference for one of the two predicted synapse structures with different orientations of the attL/attR sites. Several amino acid substitutions conferring hyperactivity, including E449K, were localized to one face of a predicted coiled-coil motif in the C-terminal domain. This work shows that a motif in the C-terminal domain of ?C31 integrase controls the formation of the synaptic interface in both integration and excision, possibly through a direct role in protein–protein interactions.
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机译:噬菌体ΔC31编码整合酶,该整合酶作用于噬菌体和宿主附着位点attP和attB,以形成侧接attL和attR的整合的噬菌体。在没有辅助因素的情况下,ΔC31整合酶不能催化attL x attR重组以切除噬菌体。为了了解方向性的机制,突变整合的特点是在切除中很活跃。高活性整合酶,Int E449K,具有催化attL x attR,attL x attL和attR x attR重组的能力,同时保留了重组attP x attB的能力。在Int S12A仅与atP / attB络合的条件下,该突变体的催化缺陷衍生物Int S12A,E449K可以与attP / attB,attL / attR,attL / attL和atR / attR形成稳定的复合物。对Int E449K-attL / attR突触事件的进一步分析显示,偏好具有不同attL / attR位点方向的两个预测突触结构之一。包括E449K在内的几种赋予活性的氨基酸取代被定位在C末端结构域中预测的卷曲螺旋基序的一个面上。这项工作表明,?C31整合酶C末端结构域中的基序控制整合和切除中突触界面的形成,可能是通过直接作用于蛋白质之间的相互作用。
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