Homo-trimeric structure of the ribonuclease for rRNA processing, FAU-1, from Pyrococcus furiosus

Abstract

Abstract Crystal structure of a ribonuclease for ribosomal RNA processing, FAU-1, from Pyrococcus furiosus was determined with the resolution of 2.57 Å in a homo-trimeric form. The monomer structure consists of two domains: N-terminal and C-terminal domains. C-terminal domain forms trimer and each N-terminal domain locates outside of the trimer core. In the obtained crystal, a dinucleotide, pApUp, was bound to the N-terminal domain, indicating that N-terminal domain has the RNA-binding ability. The affinities to RNA of FAU-1 and a fragment corresponding to the N-terminal domain, FAU-ΔC, were confirmed by polyacrylamide gel electrophoresis and nuclear magnetic resonance (NMR). Interestingly, well-dispersed NMR signals were observed at 318K, indicating that the FAU-ΔC–F18 complex form an ordered structure at higher temperature. As predicted in our previous works, FAU-1 and ribonuclease (RNase) E show a structural similarity in their RNA-binding regions. However, structural similarity between RNase E and FAU-1 could be found in the limited regions of the N-terminal domain. On the other hand, structural similarity between C-terminal domain and some proteins including a phosphatase was found. Thus, it is possible that the catalytic site is located in C-terminal domain.