INSERM UMR-S 665, Dynamique des Structures et Interactions des Macromolécules Biologiques, Université Denis Diderot-Paris 7, INTS, 6 rue Alexandre Cabanel, Paris Cedex 15, France.
Amino Acids. 2012 Sep;43(3):1369-81. doi: 10.1007/s00726-011-1211-9. Epub 2012 Jan 8.
The presence of energetically less favourable cis peptides in protein structures has been observed to be strongly associated with its structural integrity and function. Inter-conversion between the cis and trans conformations also has an important role in the folding process. In this study, we analyse the extent of conservation of cis peptides among similar folds. We look at both the amino acid preferences and local structural changes associated with such variations. Nearly 34% of the Xaa-Proline cis bonds are not conserved in structural relatives; Proline also has a high tendency to get replaced by another amino acid in the trans conformer. At both positions bounding the peptide bond, Glycine has a higher tendency to lose the cis conformation. The cis conformation of more than 30% of β turns of type VIb and IV are not found to be conserved in similar structures. A different view using Protein Block-based description of backbone conformation, suggests that many of the local conformational changes are highly different from the general local structural variations observed among structurally similar proteins. Changes between cis and trans conformations are found to be associated with the evolution of new functions facilitated by local structural changes. This is most frequent in enzymes where new catalytic activity emerges with local changes in the active site. Cis-trans changes are also seen to facilitate inter-domain and inter-protein interactions. As in the case of folding, cis-trans conversions have been used as an important driving factor in evolution.
在蛋白质结构中,存在能量较低的顺式肽,这与它的结构完整性和功能密切相关。顺式和反式构象之间的转换在折叠过程中也起着重要作用。在这项研究中,我们分析了相似折叠结构中顺式肽的保守程度。我们研究了与这些变化相关的氨基酸偏好和局部结构变化。在结构相似的蛋白质中,近 34%的 Xaa-Proline 顺式键没有保守;脯氨酸在反式构象中也有很高的被其他氨基酸取代的倾向。在肽键两端的位置,甘氨酸失去顺式构象的趋势更高。在相似结构中,超过 30%的 VIb 型和 IV 型β转角的顺式构象没有被保守。使用基于蛋白质块的骨架构象描述的不同观点表明,许多局部构象变化与结构相似的蛋白质之间观察到的一般局部结构变化高度不同。顺式和反式构象之间的变化与新功能的进化有关,这些新功能是由局部结构变化促进的。这种情况在酶中最为常见,新的催化活性随着活性部位的局部变化而出现。顺式-反式转换也有助于域间和蛋白间的相互作用。与折叠一样,顺式-反式转换已被用作进化的一个重要驱动因素。