Das Malabika, Ganguly Tridib, Chattoraj Partho, Chanda Palas Kumar, Bandhu Amitava, Lee Chia Yen, Sau Subrata
Department of Biochemistry, Bose Institute, P1/12-CIT Scheme VII M, Calcutta 700 054, India.
J Biochem Mol Biol. 2007 Sep 30;40(5):740-8. doi: 10.5483/bmbrep.2007.40.5.740.
To gain insight into the structure and function of repressor proteins of bacteriophages of gram-positive bacteria, repressor of temperate Staphylococcus aureus phage phi11 was undertaken as a model system here and purified as an N-terminal histidine-tagged variant (His-CI) by affinity chromatography. A approximately 19 kDa protein copurified with intact His-CI (approximately 30 kDa) at low level was resulted most possibly due to partial cleavage at its Ala-Gly site. At approximately 10 nM and higher concentrations, His-CI forms significant amount of dimers in solution. There are two repressor binding sites in phi11 cI-cro intergenic region and binding to two sites occurs possibly by a cooperative manner. Two sites dissected by HincII digestion were designated operators O(L) and O(R), respectively. Equilibrium binding studies indicate that His-CI binds to O(R) with a little more strongly than O(L) and binding species is probably dimeric in nature. Interestingly His-CI binding affinity reduces drastically at elevated temperatures (32-42 degrees C). Both O(L) and O(R) harbor a nearly identical inverted repeat and studies show that phi11 repressor binds to each repeat efficiently. Additional analyses indicate that phi11 repressor, like lambda repressor, harbors an N-terminal domain and a C-terminal domain which are separated by a hinge region. Secondary structure of phi11 CI even nearly resembles to that of lambda, phage repressor though they differ at sequence level. The putative N-terminal HTH (helix-turn-helix) motif of phi11 repressor belongs to the HTH -XRE-family of proteins and shows significant identity to the HTH motifs of some proteins of evolutionary distant organisms but not to HTH motifs of most S. aureus phage repressors.
为深入了解革兰氏阳性菌噬菌体阻遏蛋白的结构与功能,本文以温和型金黄色葡萄球菌噬菌体phi11的阻遏蛋白为模型系统,通过亲和层析法纯化得到N端带组氨酸标签的变体(His-CI)。一种约19 kDa的蛋白与完整的His-CI(约30 kDa)以低水平共纯化,最有可能是由于其丙氨酸-甘氨酸位点的部分切割。在约10 nM及更高浓度下,His-CI在溶液中形成大量二聚体。phi11 cI-cro基因间区域有两个阻遏蛋白结合位点,与两个位点的结合可能是以协同方式发生。经HincII消化分离的两个位点分别命名为操纵子O(L)和O(R)。平衡结合研究表明,His-CI与O(R)的结合略强于O(L),结合形式可能本质上是二聚体。有趣的是,His-CI的结合亲和力在温度升高(32-42摄氏度)时急剧降低。O(L)和O(R)都含有几乎相同的反向重复序列,研究表明phi11阻遏蛋白能有效结合每个重复序列。进一步分析表明,phi11阻遏蛋白与λ阻遏蛋白一样,具有一个N端结构域和一个C端结构域,它们由一个铰链区隔开。phi11 CI的二级结构甚至与λ噬菌体阻遏蛋白的二级结构非常相似,尽管它们在序列水平上有所不同。phi11阻遏蛋白推定的N端螺旋-转角-螺旋(HTH)基序属于HTH-XRE蛋白家族,与一些进化关系较远的生物体的蛋白质的HTH基序具有显著的同源性,但与大多数金黄色葡萄球菌噬菌体阻遏蛋白的HTH基序不同。