Marc D, Mercey R, Lantier F
Infectiologie Animale et Santé Publique, IASP, INRA, UR1282, Nouzilly, France.
Cell Mol Life Sci. 2007 Apr;64(7-8):815-29. doi: 10.1007/s00018-007-6370-1.
Prion protein, a misfolded isoform of which is the essential component of the agent of prion diseases, still remains an enigmatic protein whose physiological functions are at best hypothetical. To gain a better insight into its putative role, many studies were undertaken to look for molecules that bind prion protein, and have notably identified divalent metal ions, several proteins, and nucleic acids. At first sight, the diversity of prion protein's ligands seems of little help to infer a plausible function. However, the intrinsically disordered property of its N-terminal tail and the potential of the protein to adopt a transmembrane topology, can both be taken into account to predict its different states during its cellular cycle and its possible functions, of which the most promising correspond to a general scavenger, a sensor or adaptor in a signaling cascade, and an RNA chaperone.
朊病毒蛋白,其错误折叠的同种型是朊病毒病病原体的基本组成部分,仍然是一种神秘的蛋白质,其生理功能充其量只是假设性的。为了更好地了解其假定作用,人们进行了许多研究来寻找与朊病毒蛋白结合的分子,并特别鉴定出二价金属离子、几种蛋白质和核酸。乍一看,朊病毒蛋白配体的多样性似乎无助于推断其合理功能。然而,其N端尾巴的内在无序特性以及该蛋白形成跨膜拓扑结构的潜力,都可以用来预测其在细胞周期中的不同状态及其可能的功能,其中最有前景的功能对应于一般的清除剂、信号级联中的传感器或衔接子以及RNA伴侣。