Bahadur Ranjit P, Janin Joël
Yeast Structural Genomics, IBBMC Université Paris-Sud, CNRS UMR 8619, 91405-Orsay, France.
Proteins. 2008 Apr;71(1):407-14. doi: 10.1002/prot.21710.
To evaluate the evolutionary constraints placed on viral proteins by the structure and assembly of the capsid, we calculate Shannon entropies in the aligned sequences of 45 polypeptide chains in 32 icosahedral viruses, and relate these entropies to the residue location in the three-dimensional structure of the capsids. Three categories of residues have entropies lower than the chain average implying that they are better conserved than average: residues that are buried within a subunit (the protein core), residues that contain atoms buried at an interface between subunits (the interface core), and residues that contribute to several such interfaces. The interface core is also conserved in homomeric proteins and in transient protein-protein complexes, which have only one interface whereas capsids have many. In capsids, the subunit interfaces implicate most of the polypeptide chain: on average, 66% of the capsid residues are at an interface, 34% at more than one, and 47% at the interface core. Nevertheless, we observe that the degree of residue conservation can vary widely between interfaces within a capsid and between regions within an interface. The interfaces and regions of interfaces that show a low sequence variability are likely to play major roles in the self-assembly of the capsid, with implications on its mechanism that we discuss taking adeno-associated virus as an example.
为了评估衣壳的结构和组装对病毒蛋白施加的进化限制,我们计算了32种二十面体病毒中45条多肽链比对序列中的香农熵,并将这些熵与衣壳三维结构中的残基位置相关联。有三类残基的熵低于链平均水平,这意味着它们比平均水平更保守:埋在亚基内的残基(蛋白质核心)、含有埋在亚基间界面处原子的残基(界面核心)以及对多个此类界面有贡献的残基。界面核心在同聚蛋白质和瞬时蛋白质 - 蛋白质复合物中也保守,这些复合物只有一个界面,而衣壳有许多界面。在衣壳中,亚基界面涉及大部分多肽链:平均而言,衣壳残基的66%位于界面处,34%位于多个界面处,47%位于界面核心处。然而,我们观察到衣壳内不同界面之间以及界面内不同区域之间残基保守程度差异很大。序列变异性低的界面和界面区域可能在衣壳的自组装中起主要作用,我们以腺相关病毒为例讨论了其对衣壳自组装机制的影响。
