This renewal application represents the Principal Investigator's decision to combine two active NIH-grants GM21595 and GM28274 into one competing renewal of the former. Both have supported increasingly congruent studies of pre-messenger RNA: nuclear RNP particles (hnRNP) and small nuclear RNP's (snRNP's), once-separate research fields that have now attractively converged. The central focus now, as before, is the relationship between ribonucleoprotein structure and RNA processing. This is a fundamental aspect of gene expression in normal eukaryotic cells. The proposed research employs human small nuclear RNA's and premRNA's transcribed from SP6 promoters, in vitro systems for snRNA 3' processing and snRNP assembly, and a mRNA splicing and hnRNP assembly system, together with contemporary methods of RNP analysis. Many of the experimental systems and procedures to be used in this study of RNA processing and RNP assembly were developed with the previous support of this grant. The 3' processing of a human U2 RNA precursor will be investigated in an efficient and accurate in vitro system. The intracellular size of U2 RNA processing will be determined; further purification of the processing activity will be undertaken and the role of specific U2 RNA sequences and/or secondary structure in 3' processing will be investigated. The relationship between the assembly of pre-U1 and pre-U2 RNA's into RNP form and their 3' processing will be determined. Proteins binding to the pre-snRNA's will be identified by RNA- protein crosslinking. The role of cap hypermethylation and internal modifications of U1 and U2 RNA precursors on their RNP assembly will also be studied. The DNA sequences adjacent to and within a human U6 RNA gene important for transcriptional control will be investigated. The in vivo maturation of U6 RNA, a polymerase III transcript, will be studied with particular reference to its dimerization with U4 snRNA, a pol II transcript. Proteins specifically bound to newlytranscribed U6 RNA have been identified and will be investigated further. A fourth group of studies will characterize proteins present in active spliceosomes. The possibility of base-pairing among U1, U2, U5 and other snRNP's within the spliceosome will also be investigated.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM021595-17
Application #
3270599
Study Section
Molecular Biology Study Section (MBY)
Project Start
1977-12-01
Project End
1992-06-30
Budget Start
1991-07-01
Budget End
1992-06-30
Support Year
17
Fiscal Year
1991
Total Cost
Indirect Cost
Name
Worcester Foundation for Biomedical Research
Department
Type
DUNS #
City
Shrewsbury
State
MA
Country
United States
Zip Code
01545
Pederson, Thoru; King, Megan C; Marko, John F (2015) Forces, fluctuations, and self-organization in the nucleus. Mol Biol Cell 26:3915-9
Pederson, Thoru (2011) The nucleus introduced. Cold Spring Harb Perspect Biol 3:
Pederson, Thoru (2011) The nucleolus. Cold Spring Harb Perspect Biol 3:
Pederson, Thoru; Tsai, Robert Y L (2009) In search of nonribosomal nucleolar protein function and regulation. J Cell Biol 184:771-6
Pederson, Thoru (2009) The discovery of eukaryotic genome design and its forgotten corollary--the postulate of gene regulation by nuclear RNA. FASEB J 23:2019-21
Rulli Jr, Samuel J; Hibbert, Catherine S; Mirro, Jane et al. (2007) Selective and nonselective packaging of cellular RNAs in retrovirus particles. J Virol 81:6623-31
Pederson, Thoru (2007) Ribosomal protein mutations in Diamond-Blackfan anemia: might they operate upstream from protein synthesis? FASEB J 21:3442-5
Sommerville, John; Brumwell, Craig L; Politz, Joan C Ritland et al. (2005) Signal recognition particle assembly in relation to the function of amplified nucleoli of Xenopus oocytes. J Cell Sci 118:1299-307
Pederson, Thoru (2004) Can telomerase be put in its place? J Cell Biol 164:637-9
Alavian, Christina N; Politz, Joan C Ritland; Lewandowski, Laura B et al. (2004) Nuclear export of signal recognition particle RNA in mammalian cells. Biochem Biophys Res Commun 313:351-5

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