Sagermann M, Baase W A, Matthews B W
Institute of Molecular Biology, Howard Hughes Medical Institute, and Department of Physics, University of Oregon, Eugene, OR 97403-1229, USA.
Proc Natl Acad Sci U S A. 1999 May 25;96(11):6078-83. doi: 10.1073/pnas.96.11.6078.
To test a different approach to understanding the relationship between the sequence of part of a protein and its conformation in the overall folded structure, the amino acid sequence corresponding to an alpha-helix of T4 lysozyme was duplicated in tandem. The presence of such a sequence repeat provides the protein with "choices" during folding. The mutant protein folds with almost wild-type stability, is active, and crystallizes in two different space groups, one isomorphous with wild type and the other with two molecules in the asymmetric unit. The fold of the mutant is essentially the same in all cases, showing that the inserted segment has a well-defined structure. More than half of the inserted residues are themselves helical and extend the helix present in the wild-type protein. Participation of additional duplicated residues in this helix would have required major disruption of the parent structure. The results clearly show that the residues within the duplicated sequence tend to maintain a helical conformation even though the packing interactions with the remainder of the protein are different from those of the original helix. It supports the hypothesis that the structures of individual alpha-helices are determined predominantly by the nature of the amino acids within the helix, rather than the structural environment provided by the rest of the protein.
为了测试一种不同的方法来理解蛋白质部分序列与其在整体折叠结构中的构象之间的关系,将与T4溶菌酶的α-螺旋相对应的氨基酸序列串联重复。这种序列重复的存在为蛋白质在折叠过程中提供了“选择”。突变蛋白以几乎与野生型相同的稳定性折叠,具有活性,并在两种不同的空间群中结晶,一种与野生型同晶型,另一种在不对称单元中有两个分子。在所有情况下,突变体的折叠基本相同,表明插入片段具有明确的结构。超过一半的插入残基本身就是螺旋状的,并延伸了野生型蛋白质中存在的螺旋。额外的重复残基参与这个螺旋将需要对亲本结构进行重大破坏。结果清楚地表明,即使与蛋白质其余部分的堆积相互作用不同于原始螺旋,重复序列内的残基也倾向于保持螺旋构象。这支持了这样一种假设,即单个α-螺旋的结构主要由螺旋内氨基酸的性质决定,而不是由蛋白质其余部分提供的结构环境决定。