组蛋白样HU蛋白的DNA结合特性比较及HU/IHF蛋白序列比对
Comparison of histone-like HU protein DNA-binding properties and HU/IHF protein sequence alignment.
作者信息
Kamashev Dmitri, Agapova Yulia, Rastorguev Sergey, Talyzina Anna A, Boyko Konstantin M, Korzhenevskiy Dmitry A, Vlaskina Anna, Vasilov Raif, Timofeev Vladimir I, Rakitina Tatiana V
机构信息
Kurchatov Complex of NBICS-Technologies, National Research Center «Kurchatov Institute», Moscow, Russian Federation.
Moscow Institute of Physics and Technology, Dolgoprudny, Moscow Region, Russian Federation.
出版信息
PLoS One. 2017 Nov 13;12(11):e0188037. doi: 10.1371/journal.pone.0188037. eCollection 2017.
BACKGROUND
The structure and function of bacterial nucleoid are controlled by histone-like proteins of HU/IHF family, omnipresent in bacteria and also founding archaea and some eukaryotes.HU protein binds dsDNA without sequence specificity and avidly binds DNA structures with propensity to be inclined such as forks, three/four-way junctions, nicks, overhangs and DNA bulges. Sequence comparison of thousands of known histone-like proteins from diverse bacteria phyla reveals relation between HU/IHF sequence, DNA-binding properties and other protein features.
METHODOLOGY AND PRINCIPAL FINDINGS
Performed alignment and clusterization of the protein sequences show that HU/IHF family proteins can be unambiguously divided into three groups, HU proteins, IHF_A and IHF_B proteins. HU proteins, IHF_A and IHF_B proteins are further partitioned into several clades for IHF and HU; such a subdivision is in good agreement with bacterial taxonomy. We also analyzed a hundred of 3D fold comparative models built for HU sequences from all revealed HU clades. It appears that HU fold remains similar in spite of the HU sequence variations. We studied DNA-binding properties of HU from N. gonorrhoeae, which sequence is similar to one of E.coli HU, and HU from M. gallisepticum and S. melliferum which sequences are distant from E.coli protein. We found that in respect to dsDNA binding, only S. melliferum HU essentially differs from E.coli HU. In respect to binding of distorted DNA structures, S. melliferum HU and E.coli HU have similar properties but essentially different from M. gallisepticum HU and N. gonorrhea HU. We found that in respect to dsDNA binding, only S. melliferum HU binds DNA in non-cooperative manner and both mycoplasma HU bend dsDNA stronger than E.coli and N. gonorrhoeae. In respect to binding to distorted DNA structures, each HU protein has its individual profile of affinities to various DNA-structures with the increased specificity to DNA junction.
CONCLUSIONS AND SIGNIFICANCE
HU/IHF family proteins sequence alignment and classification are updated. Comparative modeling demonstrates that HU protein 3D folding's even more conservative than HU sequence. For the first time, DNA binding characteristics of HU from N. gonorrhoeae, M. gallisepticum and S. melliferum are studied. Here we provide detailed analysis of the similarity and variability of DNA-recognizing and bending of four HU proteins from closely and distantly related HU clades.
背景
细菌类核的结构和功能由HU/IHF家族的类组蛋白控制,这类蛋白在细菌中普遍存在,在古细菌和一些真核生物中也有发现。HU蛋白能非序列特异性地结合双链DNA,并能强烈结合易于弯曲的DNA结构,如叉状结构、三/四向连接、切口、突出端和DNA凸起。对来自不同细菌门的数千种已知类组蛋白进行序列比较,揭示了HU/IHF序列、DNA结合特性与其他蛋白质特征之间的关系。
方法与主要发现
对蛋白质序列进行比对和聚类分析表明,HU/IHF家族蛋白可明确分为三组,即HU蛋白、IHF_A和IHF_B蛋白。HU蛋白、IHF_A和IHF_B蛋白又进一步细分为多个IHF和HU分支;这种细分与细菌分类学高度一致。我们还分析了为所有已揭示的HU分支中的HU序列构建的一百个三维折叠比较模型。结果表明,尽管HU序列存在变异,但其折叠结构仍保持相似。我们研究了淋病奈瑟菌的HU(其序列与大肠杆菌的HU之一相似)、鸡毒支原体和蜂房蜜蜂球菌的HU(其序列与大肠杆菌蛋白差异较大)的DNA结合特性。我们发现,在双链DNA结合方面,只有蜂房蜜蜂球菌的HU与大肠杆菌的HU存在本质差异。在扭曲DNA结构的结合方面,蜂房蜜蜂球菌的HU和大肠杆菌的HU具有相似特性,但与鸡毒支原体的HU和淋病奈瑟菌的HU存在本质不同。我们发现,在双链DNA结合方面,只有蜂房蜜蜂球菌的HU以非协同方式结合DNA,两种支原体的HU使双链DNA弯曲的能力比大肠杆菌和淋病奈瑟菌更强。在与扭曲DNA结构的结合方面,每种HU蛋白对各种DNA结构都有其独特的亲和力谱,对DNA连接的特异性增强。
结论与意义
更新了HU/IHF家族蛋白的序列比对和分类。比较建模表明,HU蛋白的三维折叠比HU序列更为保守。首次研究了淋病奈瑟菌、鸡毒支原体和蜂房蜜蜂球菌的HU的DNA结合特性。在此,我们详细分析了来自近源和远源HU分支的四种HU蛋白在DNA识别和弯曲方面的相似性和变异性。
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