期刊
JOURNAL OF MOLECULAR BIOLOGY
卷 425, 期 3, 页码 546-562出版社
ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.jmb.2012.11.025
关键词
NMR; Rnt1; RNA binding domain; protein-RNA; spin relaxation
资金
- National Institutes of Health [GM37254, GM48123]
The Saccharomyces cerevisiae RNase III enzyme Rnt1p preferentially binds to double-stranded RNA hairpin substrates with a conserved (A/u)GNN tetraloop fold, via shape-specific interactions by its double-stranded RNA-binding domain (dsRBD) helix alpha 1 to the tetraloop minor groove. To investigate whether conformational flexibility in the dsRBD regulates the binding specificity, we determined the backbone dynamics of the Rnt1p dsRBD in the free and AGAA hairpin-bound states using NMR spin-relaxation experiments. The intrinsic microsecond-to-millisecond timescale dynamics of the dsRBD suggests that helix alpha 1 undergoes conformational sampling in the free state, with large dynamics at some residues in the alpha 1-beta 1 loop (alpha 1-beta 1 hinge). To correlate free dsRBD dynamics with structural changes upon binding, we determined the solution structure of the free dsRBD used in the previously determined RNA-bound structures. The Rnt1p dsRBD has an extended hydrophobic core comprising helix alpha 1, the alpha 1-beta 1 loop, and helix alpha 3. Analysis of the backbone dynamics and structures of the free and bound dsRBD reveals that slow-timescale dynamics in the alpha 1-beta 1 hinge are associated with concerted structural changes in the extended hydrophobic core that govern binding of helix alpha 1 to AGAA tetraloops. The dynamic behavior of the dsRBD bound to a longer AGAA hairpin reveals that dynamics within the hydrophobic core differentiate between specific and nonspecific sites. Mutations of residues in the alpha 1-beta 1 hinge result in changes to the dsRBD stability and RNA-binding affinity and cause defects in small nucleolar RNA processing in vivo. These results reveal that dynamics in the extended hydrophobic core are important for binding site selection by the Rnt1p dsRBD. (C) 2012 Elsevier Ltd. All rights reserved.
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