在行动中的进化:相关 T=4 病毒的亚基的 N 和 C 末端作为分子开关交换角色。
Evolution in action: N and C termini of subunits in related T = 4 viruses exchange roles as molecular switches.
机构信息
Department of Molecular Biology, The Scripps Research Institute, 10550 North Torrey Pines Road, La Jolla, CA 92037, USA.
出版信息
Structure. 2010 Jun 9;18(6):700-9. doi: 10.1016/j.str.2010.03.010.
Abstract
The T = 4 tetravirus and T = 3 nodavirus capsid proteins undergo closely similar autoproteolysis to produce the N-terminal beta and C-terminal, lipophilic gamma polypeptides. The gamma peptides and the N termini of beta also act as molecular switches that determine their quasi equivalent capsid structures. The crystal structure of Providence virus (PrV), only the second of a tetravirus (the first was NomegaV), reveals conserved folds and cleavage sites, but the protein termini have completely different structures and the opposite functions of those in NomegaV. N termini of beta form the molecular switch in PrV, whereas gamma peptides play this role in NomegaV. PrV gamma peptides instead interact with packaged RNA at the particle two-folds by using a repeating sequence pattern found in only four other RNA- or membrane-binding proteins. The disposition of peptide termini in PrV is closely related to those in nodaviruses, suggesting that PrV may be closer to the primordial T = 4 particle than NomegaV.
摘要
T=4 四联体病毒和 T=3 诺达病毒衣壳蛋白经历非常相似的自切割,产生 N 端β和 C 端亲脂性γ多肽。γ肽和β的 N 端也作为分子开关,决定其准等价衣壳结构。普罗维登斯病毒(PrV)的晶体结构,仅是第二个四联体病毒(第一个是 NomegaV),揭示了保守的折叠和切割位点,但蛋白质末端具有完全不同的结构和与 NomegaV 相反的功能。β的 N 端在 PrV 中形成分子开关,而 γ肽在 NomegaV 中发挥此作用。PrV 的 γ肽反而通过仅在其他四个 RNA 或膜结合蛋白中发现的重复序列模式与颗粒的两折叠处包装的 RNA 相互作用。PrV 中肽末端的位置与诺达病毒密切相关,表明 PrV 可能比 NomegaV 更接近原始 T=4 颗粒。
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