Abstract

Many non-coding RNAs are processed and assembled into mature RNPs in a complex, multistep process involving endonucleolytic cleavage, exonucleolytic cleavage, nucleotide modification, proper folding of the RNA, and ordered assembly with proteins. S. cerevisiae Rntlp is a key enzyme in the processing of rRNAs, snRNA, snoRNAs, and in degradation pathways for some pre-mRNAs and mRNA. In addition to these activities, RNase Ills in higher organisms have been found to play key roles in miRNA and siRNA processing, as members of the Dicer and Drosha family of enzymes. Rnt1 p substrates include some H/ACA snoRNPs, a class of RNPs that are involved in modification of specific uridines to pseudouridines in rRNA. Among the proteins that are essential for H/ACA snoRNP biogenesis is Shql In this grant, we propose to investigate the roles of Rntlp and Shq1 in processing and assembly of RNPs using a structure based (NMR and crystallography) approach.
The specific aims are: (1) Investigate the interaction of Rntlp dsRBD with different substrates. To probe the structural basis of target site specificity by Rntlp dsRBD, we will study the structures of RNA substrates with different loop and stem sequences and their interaction with Rntlp dsRBD. (2) Characterize the interaction of Rntlp dsRBD with non-substrate dsRNA. We will investigate the structure and binding kinetics of non-specific complexes of the Rnt1 p dsRBD with RNA, in order to provide insight into the contributions of the second dsRBD to complex formation and into how Rntlp scans the RNA to identify target binding sites. (3) Determine how the Rntlp EndoND is oriented relative to the dsRBDs when bound to substrate RNA and investigate the structure and function of the N-terminal domain. (4) Investigate the structure and function of Shqlp and interactions with Naflp, Nhp2p, and Rntlp. We will structurally characterize the domains of Shq1 and its interactions with other proteins, and combine this information with mutational analysis to help define the role of Shq1 in H/ACA snoRNP biogenesis. Lay: It is estimated that more than 90% of RNA in humans that is translated from DNA is non-coding for proteins. This RNA is involved in virtually all aspects of gene regulation and cell physiology, and errors in the correct processing, modification, and assembly of RNA can lead to a variety of diseases in humans. Our structural studies will provide molecular insight into how non-coding RNAs are regulated for cell function. ? ? ?

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
2R01GM037254-21
Application #
7317541
Study Section
Macromolecular Structure and Function B Study Section (MSFB)
Program Officer
Preusch, Peter C
Project Start
1986-07-01
Project End
2011-06-30
Budget Start
2007-07-01
Budget End
2008-06-30
Support Year
21
Fiscal Year
2007
Total Cost
$362,859
Indirect Cost

  Institution

Name
University of California Los Angeles
Department
Chemistry
Type
Schools of Arts and Sciences
DUNS #
092530369
City
Los Angeles
State
CA
Country
United States
Zip Code
90095

  Publications

Hartman, Elon; Wang, Zhonghua; Zhang, Qi et al. (2013) Intrinsic dynamics of an extended hydrophobic core in the S. cerevisiae RNase III dsRBD contributes to recognition of specific RNA binding sites. J Mol Biol 425:546-62
Koo, Bon-Kyung; Park, Chin-Ju; Fernandez, Cesar F et al. (2011) Structure of H/ACA RNP protein Nhp2p reveals cis/trans isomerization of a conserved proline at the RNA and Nop10 binding interface. J Mol Biol 411:927-42
Wang, Zhonghua; Hartman, Elon; Roy, Kevin et al. (2011) Structure of a yeast RNase III dsRBD complex with a noncanonical RNA substrate provides new insights into binding specificity of dsRBDs. Structure 19:999-1010
Kim, Nak-Kyoon; Theimer, Carla A; Mitchell, James R et al. (2010) Effect of pseudouridylation on the structure and activity of the catalytically essential P6.1 hairpin in human telomerase RNA. Nucleic Acids Res 38:6746-56
Singh, Mahavir; Gonzales, Fernando A; Cascio, Duilio et al. (2009) Structure and functional studies of the CS domain of the essential H/ACA ribonucleoparticle assembly protein SHQ1. J Biol Chem 284:1906-16
Kim, Nak-Kyoon; Zhang, Qi; Zhou, Jing et al. (2008) Solution structure and dynamics of the wild-type pseudoknot of human telomerase RNA. J Mol Biol 384:1249-61
Wu, Haihong; Feigon, Juli (2007) H/ACA small nucleolar RNA pseudouridylation pockets bind substrate RNA to form three-way junctions that position the target U for modification. Proc Natl Acad Sci U S A 104:6655-60
Khanna, May; Wu, Haihong; Johansson, Carina et al. (2006) Structural study of the H/ACA snoRNP components Nop10p and the 3' hairpin of U65 snoRNA. RNA 12:40-52
Qin, Peter Z; Feigon, Juli; Hubbell, Wayne L (2005) Site-directed spin labeling studies reveal solution conformational changes in a GAAA tetraloop receptor upon Mg(2+)-dependent docking of a GAAA tetraloop. J Mol Biol 351:1-8
Wu, Haihong; Finger, L David; Feigon, Juli (2005) Structure determination of protein/RNA complexes by NMR. Methods Enzymol 394:525-45

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