Abstract

RNA splicing, the biochemical process leading to the removal of introns from precursor RNA, is an important step in the expression and regulation of genetic information. Nuclear pre-mRNA splicing requires ATP and occurs in a complex, dynamic structure called the spliceosome which is composed of small nuclear ribonucleoproteins. The long-term objective of this grant is to understand the mechanism of nuclear pre- mRNA splicing through biochemical and genetic analysis of the spliceosome and its components. A series of RNA rearrangements occur during the assembly and maturation of the spliceosome, and one of the driving forces for these rearrangement is the splicing ATPases. We have extensively characterized such an RNA-dependent ATPase, the yeast (Saccharomyces cerevisiae) Prp2 protein. Our studies suggest that Prp2 hydrolyzes ATP to activate the spliceosome for the first transesterification reaction. Recently, we detected several structural changes in the pre-mRNA and the U2 and U6 snRNAs as results of the spliceosome activation process medicated by PRP2. We hypothesize that the RNA nucleotides that are affected by PRP2 and ATP are likely to be involved in building up the catalytic center for splicing. In addition, a protein factor (HP) required for the transesterification reaction was also identified. Now we are in a unique position to describe and to investigate the significance of the RNA changes that are caused by a splicing ATPase, as well as the involvement of RNA and protein in catalyzing the splicing reaction. Furthermore, the characteristics of the Prp2 protein in spliceosome activation may serve as a model for other DExH proteins. There are three specific aims. (1) We will continue to investigate the RNA changes that occur during the activation of the spliceosome by Prp2 and ATP. We will test the hypothesis that the role of PRP2 is to form critical RNA interactions for splicing. (2) We will continue to purify the HP protein and to investigate the relationship among HP, oxygen in the phosphate backbone of U6, and metal ions. (3) Individual DEAH splicing ATPase apparently only binds to its """"""""cognate"""""""" spliceosome. We plan to understand this specificity by searching for RNA and proteins that interact with PRP2 in the spliceosomal pocket.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM040639-09
Application #
6018742
Study Section
Molecular Biology Study Section (MBY)
Project Start
1988-08-01
Project End
2002-06-30
Budget Start
1999-07-01
Budget End
2000-06-30
Support Year
9
Fiscal Year
1999
Total Cost
Indirect Cost

  Institution

Name
City of Hope/Beckman Research Institute
Department
Type
DUNS #
City
Duarte
State
CA
Country
United States
Zip Code
91010

  Publications

Chandra, Manasa; Zang, Shengbing; Li, Haiqing et al. (2012) Nuclear translocation of type I transforming growth factor ýý receptor confers a novel function in RNA processing. Mol Cell Biol 32:2183-95
Gencheva, Marieta; Lin, Ting-Yu; Wu, Xiwei et al. (2010) Nuclear retention of unspliced pre-mRNAs by mutant DHX16/hPRP2, a spliceosomal DEAH-box protein. J Biol Chem 285:35624-32
Gencheva, Marieta; Kato, Mitsuo; Newo, Alain N S et al. (2010) Contribution of DEAH-box protein DHX16 in human pre-mRNA splicing. Biochem J 429:25-32
Dery, Kenneth J; Yean, Shyue-Lee; Lin, Ren-Jang (2008) Assembly and glycerol gradient isolation of yeast spliceosomes containing transcribed or synthetic U6 snRNA. Methods Mol Biol 488:41-63
Huang, Ching-Jung; Tang, Zhaohua; Lin, Ren-Jang et al. (2007) Phosphorylation by SR kinases regulates the binding of PTB-associated splicing factor (PSF) to the pre-mRNA polypyrimidine tract. FEBS Lett 581:223-32
Li, Chunxia; Kato, Mitsuo; Shiue, Lily et al. (2006) Cell type and culture condition-dependent alternative splicing in human breast cancer cells revealed by splicing-sensitive microarrays. Cancer Res 66:1990-9
Silverman, Edward J; Maeda, Ayaka; Wei, Janet et al. (2004) Interaction between a G-patch protein and a spliceosomal DEXD/H-box ATPase that is critical for splicing. Mol Cell Biol 24:10101-10
Edwalds-Gilbert, Gretchen; Kim, Dong-Ho; Silverman, Edward et al. (2004) Definition of a spliceosome interaction domain in yeast Prp2 ATPase. RNA 10:210-20
Silverman, Edward; Edwalds-Gilbert, Gretchen; Lin, Ren-Jang (2003) DExD/H-box proteins and their partners: helping RNA helicases unwind. Gene 312:1-16
Edwalds-Gilbert, G; Kim, D H; Kim, S H et al. (2000) Dominant negative mutants of the yeast splicing factor Prp2 map to a putative cleft region in the helicase domain of DExD/H-box proteins. RNA 6:1106-19

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