Abstract
The first ATP-dependent complex formed in pre-mRNA splicing is the prespliceosome, a 30 S complex. This reaction was investigated using partially purified fractions isolated from nuclear extracts of HeLa cells. Previous studies (Furneaux, H. M., Perkins, K. K., Freyer, G. A., Arenas, J., and Hurwitz, J. (1985) Proc. Natl. Acad. Sci. U. S. A. 82, 4351-4355) have shown that DEAE-cellulose chromatography of nuclear extracts yielded two fractions (fractions I and II, eluted at 0.2 and 1 M NaCl, respectively) which carried out pre-mRNA splicing only when combined. Fraction II, alone and in the presence of ATP, supported the formation of the 30 S complex. In this report, we have separated fraction II into ribonucleoprotein and protein-rich fractions by isopycnic banding in CsCl. The combination of these two fractions completely replaced fraction II in prespliceosome formation; when supplemented with fraction Ib (1 M NaCl Biorex fraction derived from fraction I), the preparations supported spliceosome formation; when supplemented with fraction I, they yielded spliced products. The CsCl fractions, like fraction II, efficiently converted pre-mRNA to the 30 S complex with high yields (30-70%). The 30 S complex was shown to contain pre-mRNA complexed to U2 small ribonucleoproteins and small amounts of U1 small ribonucleoproteins. The 30 S complex protected a 50-nucleotide region at the 3'-end of the intron from T1 RNase attack. This region included sequences spanning the branch site, the polypyrimidine stretch and the AG dinucleotide of the 3'-splice site. When the 30 S complex was first generated with partially purified fractions, followed by the addition of a large amount of poly(U) or unlabeled pre-mRNA, the 30 S complex could be chased into a 55 S spliceosome complex by the addition of fraction Ib. These results support the conclusion, initially derived from kinetic data, that the 30 S complex is a precursor of the 55 S complex.
Highlights
Have shown that DEAE-cellulose chromatography of nuclear extracts yielded two fractions which carried out pre-mRNA splicing only when combined
We have previously shown that nuclear extracts of HeLa cells can be separated by DEAE-cellulose chromatography into two fractions that are both required for splicing [17]
Centrifugation-Previous studies from this laboratory indicated that fraction II, in the presence of ATP and labeled premRNA, supported the formation of a 30 S complex [4]
Summary
Have shown that DEAE-cellulose chromatography of nuclear extracts yielded two fractions (fractions I and II, eluted at 0.2 and 1 M NaCl, respectively) which carried out pre-mRNA splicing only when combined. We have separated fraction II into ribonucleoprotein and protein-rich fractions by isopycnic banding in CsCl. In this report, we have separated fraction II into ribonucleoprotein and protein-rich fractions by isopycnic banding in CsCl The combination of these two fractions completely replaced fraction II in prespliceosome formation; when supplemented with fraction Ib (1 M NaCl Biorex fraction derived from fraction I), the preparations supported spliceosome formation; when supplemented with fraction I, they yielded spliced products. The splicing of pre-mRNA in uitro is preceded by the accumulation of a 55-60 S spliceosome complex (l-4) This complex, formed only in the presence of ATP, contains pre-
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
