@article{9a7960b3f3514d78abf71e36b3987657,
title = "The crystal structure of Nep1 reveals an extended SPOUT-class methyltransferase fold and a pre-organized SAM-binding site",
abstract = "Ribosome biogenesis in eukaryotes requires the participation of a large number of ribosome assembly factors. The highly conserved eukaryotic nucleolar protein Nep1 has an essential but unknown function in 18S rRNA processing and ribosome biogenesis. In Saccharomyces cerevisiae the malfunction of a temperature-sensitive Nep1 protein (nep1-1ts) was suppressed by the addition of S-adenosylmethionine (SAM). This suggests the participation of Nep1 in a methyltransferase reaction during ribosome biogenesis. In addition, yeast Nep1 binds to a 6-nt RNA-binding motif also found in 18S rRNA and facilitates the incorporation of ribosomal protein Rps19 during the formation of pre-ribosomes. Here, we present the X-ray structure of the Nep1 homolog from the archaebacterium Methanocaldococcus jannaschii in its free form (2.2 {\AA} resolution) and bound to the S -adenosylmethionine analog S-adenosylhomocysteine (SAH, 2.15 {\AA} resolution) and the antibiotic and general methyltransferase inhibitor sinefungin (2.25 {\AA} resolution). The structure reveals a fold which is very similar to the conserved core fold of the SPOUT-class methyltransferases but contains a novel extension of this common core fold. SAH and sinefungin bind to Nep1 at a preformed binding site that is topologically equivalent to the cofactor-binding site in other SPOUT-class methyltransferases. Therefore, our structures together with previous genetic data suggest that Nep1 is a genuine rRNA methyltransferase.",
author = "Taylor, {Alexander B.} and Britta Meyer and Leal, {Belinda Z.} and Peter K{\"o}tter and Virgil Schirf and Borries Demeler and Hart, {P. John} and Entian, {Karl Dieter} and Jens W{\"o}hnert",
note = "Funding Information: We are grateful to C.A. Kim, M. G{\"o}rlach, H. Schwalbe and A.P. Hinck for extensive and helpful discussions and their critical reading of the manuscript. We would like to thank K. W. Hakala and S. T. Weintraub for carrying out the mass-spectrometry analysis and the staff at the Advanced Light Source (ALS) beam line 8.2.2 for support. We also thank J.C. Nix for collecting and processing data at ALS beam line 4.2.2. S. Ullevig was involved in optimizing the Nep1-sinefungin crystals. This work was supported by start-up funds from the Department of Biochemistry, UTHSCSA, to J. W., the Robert A. Welch Foundation (grant AQ-1399 to P.J.H.), the Deutsche Forschungsgemeinschaft (DFG) through the SFB 579 {\textquoteleft}RNA–ligand interactions{\textquoteright} (K.-D.E. and P.K.) and the Excellence Center: Macromolecular Complexes (K.-D.E.). Support for the X-ray-Crystallography Core Laboratory of the Department of Biochemistry by the Executive Research Council of the University of Texas Health Science Center at San Antonio is also gratefully acknowledged. Funding to pay the Open Access publication charges for this article was provided by a University Research Council grant (J.W.).",
year = "2008",
month = mar,
doi = "10.1093/nar/gkm1172",
language = "English",
volume = "36",
pages = "1542--1554",
journal = "Nucleic Acids Research",
issn = "0305-1048",
publisher = "Oxford University Press",
number = "5",
}