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Query: EC:3.1.31.1 (
micrococcal nuclease
)
2,818
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have studied the consequences of decreasing the donor site-branch site distance on
splicing factor
-splice site interactions by analyzing alternative splicing of adenovirus E1A pre-mRNAs in vitro. We show that the proximal 13S donor site has a cis-inhibiting effect on the 9S and 12S mRNA reactions when it is brought too close to the common branch site, suggesting that the factor interactions in the common 3' part of the intron are impaired by the U1 small nuclear ribonucleoprotein particle (snRNP) binding to the displaced 13S donor site. Further analysis of the interactions was carried out by studying complex assembly and the accessibility to
micrococcal nuclease
digestion of 5'-truncated E1A substrates containing only splice sites for the 13S mRNA reaction. A deletion which brings the donor site- branch site distance to 49 nucleotides, which is just below the minimal functional distance, results in a complete block of the U4-U5-U6 snRNP binding, whereas a deletion 15 nucleotides larger results in a severe inhibition of the formation of the U2 snRNP-containing complexes. Sequence accessibility analyses performed by using the last mini-intron-containing transcript demonstrate that the interactions of U2 snRNP with the branch site are strongly impaired whereas the initial bindings of U1 snRNP to the donor site and of specific factors to the 3' splice site are not significantly modified. Our results strongly suggest that the interaction of U1 snRNP with the donor site of a mini-intron is stable enough in vitro to affect the succession of events leading to U2 snRNP binding with the branch site.
...
PMID:Differential block of U small nuclear ribonucleoprotein particle interactions during in vitro splicing of adenovirus E1A transcripts containing abnormally short introns. 182 46
SV40 early pre-mRNA is alternatively spliced by utilization of two different 5' splice sites and a shared 3' splice site to produce large T and small t mRNAs. The ratio of small t to large T mRNAs produced in human embryonic kidney 293 cells is 10- to 20-fold greater than in other mammalian cells, suggesting the existence of a 293 cell-specific factor that modulates alternative splicing. Here we show that nuclear extracts from 293 cells give rise to significantly more small t splicing than do extracts from HeLa cells. Using an in vitro complementation assay, we have characterized and extensively purified a factor from 293 extracts that brings about striking increases in small t splicing with concomitant decreases in large T splicing. The factor is heat sensitive and
micrococcal nuclease
resistant, suggesting that it is a protein lacking an accessible RNA component. Purification of the alternative
splicing factor
indicates that the activity is contained in one of several possibly related polypeptides of 30-35 kd.
...
PMID:A protein factor, ASF, controls cell-specific alternative splicing of SV40 early pre-mRNA in vitro. 216 68
We have used a complementation assay to test for activities required for the splicing of pre-mRNA in vitro. During the hypotonic lysis of HeLa cells, two components are released from the nuclei that specifically stimulate splicing in an extract prepared from washed nuclei. The two activities separate during chromatography on DEAE-Sepharose. One of these activities [
splicing factor
(SF)2] co-purified through several steps with the lariat debranching enzyme and with a nuclease which degrades the linear portion of lariat RNAs. These enzymes could, however, be separated from SF2 by chromatography on heparin-Sepharose. SF2 fractionates as a single protein with an apparent mol. wt. of 50 000. SF2 is resistant to mild heat treatment and to treatment with
micrococcal nuclease
, but it is inactivated by N-ethylmaleimide, suggesting that it is a protein which is not associated with an essential RNA component. When SF2 is absent in a complementation assay, the generation of both intermediates and final products of the splicing reaction is completely abolished. Thus, SF2 functions in an early step of the splicing process.
...
PMID:Purification of a protein required for the splicing of pre-mRNA and its separation from the lariat debranching enzyme. 409 89
Alternative splicing of the adenovirus-2 E1A pre-mRNA involves the use of three 5' splice sites and is modulated during infection because the 13S mRNA and 9S mRNA reactions are predominant during the early and late periods, respectively. We had previously reproduced in vitro the 13S to 9S modulation with nuclear extracts isolated from infected HeLa cells and shown that high molecular weight viral RNAs are involved in this modulation, most likely by sequestering or titrating general splicing factors. To further test this hypothesis, we titrated splicing factors from an uninfected nuclear extract using competitor RNA or by progressive inactivation of splicing factors with monoclonal antibodies. We found that the 13S to 9S modulation occurs when titrating only with certain RNAs (essentially adenoviral RNAs), and also by progressively inactivating the 9G8 SR
splicing factor
. The demonstration that late nuclear extracts contain levels of active SR splicing factors limiting for the 13S reaction has been made by complementation experiments. We show that late nuclear extracts do not complement SR factor-deficient extracts, whereas late extracts treated with
micrococcal nuclease
complement them. Furthermore, complementation of late nuclear extracts with each of the three 30-35-kDa SR factors (9G8, SC35, and SF2/ASF) restores an efficient 13S mRNA reaction. Thus, our results provide evidence that the 13S to 9S modulation is triggered through a titration of SR factors required for the 13S mRNA reaction by major late transcripts that accumulate in nuclei late in infection.
...
PMID:Titration of serine/arginine (SR) splicing factors during adenoviral infection modulates E1A pre-mRNA alternative splicing. 749 25
We have previously shown that the yeast PRP19 protein is associated with the spliceosome during the splicing reaction by immunoprecipitation studies with anti-PRP19 antibody. We have extended such studies by using extracts depleted of specific splicing factors to investigate the step of the spliceosome assembly process that PRP19 is involved in. PRP19 was not associated with the splicing complexes formed in U2- or U6-depleted extracts but was associated with the splicing complex formed in heat-inactivated prp2 extracts. This finding indicates that PRP19 becomes associated with the splicing complexes after or concomitant with binding of the U6 small nuclear ribonucleoprotein particle (snRNP) to the precursor RNA and before formation of the functional spliceosome. We further analyzed whether PRP19 is an integral component of snRNPs. We have constructed a strain in which an epitope of nine amino acid residues recognized by a well-characterized monoclonal antibody, 12CA5, is linked to the carboxyl terminus of the wild-type PRP19 protein. Immunoprecipitation of the splicing extracts with anti-PRP19 antibody or precipitation of the extracts prepared from the epitope-tagged strain with the 12CA5 antibody did not precipitate significant amounts of snRNAs. Addition of
micrococcal nuclease
-treated extracts to the PRP19-depleted extract restored its splicing activity. These results indicate that PRP19 is not tightly associated with any of the snRNAs required for the splicing reaction. No non-snRNP protein factor has been demonstrated to participate in either step of the spliceosome assembly pathway that PRP19 might be involved in. Thus, PRP19 represents a novel
splicing factor
.
...
PMID:The yeast PRP19 protein is not tightly associated with small nuclear RNAs, but appears to associate with the spliceosome after binding of U2 to the pre-mRNA and prior to formation of the functional spliceosome. 768 Jan 1
Splicing of precursors to messenger RNAs occurs via a two-step mechanism. In the first step, the 5'-exon is released concomitant with the production of a lariat intermediate, and in the second step, the exons are joined, releasing the intron in the form of a lariat product. Several gene products of the yeast Saccharomyces cerevisiae have been shown to be required exclusively for the second step. Although mammalian proteins have been implicated in the second step of splicing, none have been shown to act only at this step. We identify here the first mammalian activity shown to be exclusively required for the second step. The activity was shown to increase by 5-fold the rate for this splicing step, whereas it had no effect on the rate of the first step. The activity was not affected by treatment with
micrococcal nuclease
, whereas it is sensitive to heating to 55 degrees C, suggesting that it is not dependent on an RNA, but more likely is a protein. The second step activity was separated from other factors required for the first step and from PSF, a
splicing factor
thought to have a second step activity. The activity does not require ATP hydrolysis, suggesting that it acts at a late stage of the second step of splicing.
...
PMID:A mammalian activity required for the second step of pre-messenger RNA splicing. 776 43
An approx. 40 S multi-component structure, consisting of all major spliceosomal small nuclear ribonucleoprotein particles (snRNP) (U1, U2, U4/U6 and U5) in stable association with a large number of polypeptides, mainly in the range 50-210 kDa, has been reported to exist within rat liver nuclear extracts [Guialis, Moraitou, Patrinou-Georgoula and Dangli (1991) Nucleic Acids Res. 19, 287-296]. Using a new polyclonal antibody recognizing a 63 kDa protein component of the complex, this multi-snRNP assembly was detected within rat liver nuclear extracts as efficiently as with the antibody for the U2 snRNP-specific B' polypeptide. The 63 kDa protein was found to correspond to the 66 kDa subunit of the
splicing factor
SF3a, a known integral component of the HeLa 17 S U2 snRNP. Anti-2,2,7-trimethylguanosine affinity chromatography was an easy and efficient way of purifying the multi-snRNP complex from rat liver 40 S heterogeneous nuclear ribonucleoprotein particle (hnRNP)-containing sucrose gradient fractions. By subsequent glycerol-gradient sedimentation, all known snRNP forms active in RNA splicing were identified among its constituents. A complex structurally similar to the rat multi-snRNP was also identified in HeLa nuclear extracts. Preservation of hnRNP-snRNP interactions was observed within HeLa 40 S fractions. Moreover, these fractions were capable of restoring splicing activity when applied in reconstitution studies to supplement a
micrococcal nuclease
-treated splicing extract.
...
PMID:Structural/functional properties of a mammalian multi-component structure containing all major spliceosomal small nuclear ribonucleoprotein particles. 957 61
DNA hemicatenanes (HCs) are four-way junctions in which one strand of a double-stranded helix is catenated with one strand of another double-stranded DNA. Frequently mentioned as DNA replication, recombination and repair intermediates, they have been proposed to participate in the spatial organization of chromosomes and in the regulation of gene expression. To explore potential roles of HCs in genome metabolism, we sought to purify proteins capable of binding specifically HCs by fractionating nuclear extracts from HeLa cells. This approach identified three RNA-binding proteins: the Tudor-
staphylococcal nuclease
domain 1 (SND1) protein and two proteins from the Drosophila behavior human splicing family, the paraspeckle protein component 1 and the
splicing factor
proline- and glutamine-rich protein. Since these proteins were partially pure after fractionation, truncated forms of these proteins were expressed in Escherichia coli and purified to near homogeneity. The specificity of their interaction with HCs was re-examined in vitro. The two truncated purified SND1 proteins exhibited specificity for HCs, opening the interesting possibility of a link between the basic transcription machinery and HC structures via SND1.
...
PMID:Identification of hemicatenane-specific binding proteins by fractionation of HeLa nuclei extracts. 3193 Mar 51
