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Query: EC:3.1.26.4 (
RNase H
)
2,751
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Maturation of mRNAs in trypanosomes involves trans splicing of the 5' end of the spliced leader RNA and the exons of polycistronic pre-mRNAs, requiring small nuclear ribonucleoproteins (snRNPs) as cofactors. We have mapped protein-binding sites in the U2 and U4/U6 snRNPs by a combination of
RNase H
protection analysis, native gel electrophoresis, and CsCl density gradient centrifugation. In the U2
snRNP
, protein binding occurs primarily in the 3'-terminal domain; through U2
snRNP
reconstitution and chemical modification-interference assays, we have identified discrete positions within stem-loop IV of Trypanosoma brucei U2 RNA that are essential for protein binding; significantly, some of these positions differ from the consensus sequence derived from cis-spliceosomal U2 RNAs. In the U4/U6
snRNP
, the major protein-binding region is contained within the 3'-terminal half of U4 RNA. In sum, while the overall domain structure of the U2 and U4/U6 snRNPs is conserved between cis- and trans-splicing systems, our data suggest that there are also trans-spliceosomal specific determinants of RNA-protein binding.
...
PMID:Domain structure of U2 and U4/U6 small nuclear ribonucleoprotein particles from Trypanosoma brucei: identification of trans-spliceosomal specific RNA-protein interactions. 131 Jan 47
We have identified and characterized three new variants of U5 small nuclear RNA (snRNA) from HeLa cells, called U5D, U5E, and U5F. Each variant has a 2,2,7-trimethylguanosine cap and is packaged into an Sm-precipitable
small nuclear ribonucleoprotein
(
snRNP
) particle. All retain the evolutionarily invariant 9-base loop at the top of stem 1; however, numerous base changes relative to the abundant forms of U5 snRNA are present in other regions of the RNAs, including a loop that is part of the yeast U5 minimal domain required for viability and has been shown to bind a protein in HeLa extracts. U5E and U5F each constitute 7% of the total U5 population in HeLa cells and are slightly longer than the previously characterized human U5 (A, B, and C) species. U5D, which composes 5% of HeLa cell U5 snRNAs, is present in two forms: a full-length species, U5DL, and a shorter species, U5DS, which is truncated by 15 nucleotides at its 3' end and therefore resembles the short form of U5 (snR7S) in Saccharomyces cerevisiae. We have established conditions that allow specific detection of the individual U5 variants by either Northern blotting (RNA blotting) or primer extension; likewise, U5E and U5F can be specifically and completely degraded in splicing extracts by oligonucleotide-directed
RNase H
cleavage. All variant U5 snRNAs are assembled into functional particles, as indicated by their immunoprecipitability with anti-(U5) RNP antibodies, their incorporation into the U4/U5/U6 tri-
snRNP
complex, and their presence in affinity-purified spliceosomes. The higher abundance of these U5 variants in 293 cells compared with that in HeLa cells suggests possible roles in alternative splicing.
...
PMID:Three novel functional variants of human U5 small nuclear RNA. 131 Jan 51
A novel
small nuclear ribonucleoprotein
(
snRNP
) complex containing both U11 and U12 RNAs has been identified in HeLa cell extracts. This U11/U12
snRNP
complex can be visualized on glycerol gradients, on native polyacrylamide gels, and by selection with antisense 2'-O-methyl oligoribonucleotides.
RNase H
-mediated degradation of the U12 snRNA confirmed a direct interaction between the U11 and U12 snRNPs. This
snRNP
complex is the first to be identified involving low-abundance snRNPs. Selection of the U11/U12
snRNP
complex is sensitive to high salt, suggestive of a protein-mediated interaction. Secondary structure analyses revealed several regions of the U11
snRNP
accessible for interaction with other RNAs or proteins but no detectable difference between the accessibility of these regions in the U11 monoparticle compared with the U11/U12
snRNP
complex. There are also several accessible single-stranded regions in the U12
snRNP
, and oligonucleotide-directed
RNase H
digestion identified nucleotides 28 to 36 of U12 as containing sequences required for the U11/U12 interaction. Both the U12
snRNP
and the U11/U12
snRNP
complex can be disrupted without altering the cleavage/polyadenylation activity of a nuclear extract.
...
PMID:The low-abundance U11 and U12 small nuclear ribonucleoproteins (snRNPs) interact to form a two-snRNP complex. 137 90
trans splicing in Trypanosoma brucei involves the ligation of the 40-nucleotide spliced leader (SL) to each of the exons of large, polycistronic pre-mRNAs and requires the function of small nuclear ribonucleoproteins (snRNPs). We have identified and characterized
snRNP
complexes of SL, U2, U4, and U6 RNAs in T. brucei extracts by a combination of glycerol gradient sedimentation, CsCl density centrifugation, and anti-m3G immunoprecipitation. Both the SL RNP and the U4/U6
snRNP
contain salt-stable cores; the U2
snRNP
, in contrast to other eucaryotic snRNPs, is not stable under stringent ionic conditions. Two distinct complexes of U6 RNA were found, a U6
snRNP
and a U4/U6
snRNP
. The structure of the SL RNP was analyzed in detail by oligonucleotide-directed
RNase H
protection and by in vitro reconstitution. Our results indicate that the 3' half of SL RNA constitutes the core protein-binding domain and that protein components of the SL RNP also bind to the U2 and U4 RNAs. Using antisense RNA affinity chromatography, we identified a set of low-molecular-mass proteins (14.8, 14, 12.5, and 10 kDa) as components of the core SL RNP.
...
PMID:Analysis of small nuclear ribonucleoproteins (RNPs) in Trypanosoma brucei: structural organization and protein components of the spliced leader RNP. 165 32
Northern blot analysis of HeLa cell nuclear extract following electrophoresis in nondenaturing gels revealed that a small proportion of U2
small nuclear ribonucleoprotein
(
snRNP
) displays a low mobility, in confirmation of previous reports. This low mobility form of U2
snRNP
(termed LMC, for low mobility complex) also formed in vitro when U2
snRNP
present in HeLa cytoplasmic S100 was added to a micrococcal nuclease-treated nuclear extract. Of greater experimental value, we found that the LMC also formed when a T7 U2 RNA transcript was assembled into U2
snRNP
in a HeLa cytoplasmic S100 system, followed by its incubation in micrococcal nuclease-treated nuclear extract. LMC formation was ATP-dependent and was specific for U2
snRNP
since it was not observed with S100-assembled U1 or U4 snRNPs.
RNase H
cleavage of U2
snRNP
in the nuclear extract with an oligonucleotide complementary to nucleotides 28-42 of U2 RNA, as opposed to micrococcal nuclease treatment, rendered the extract competent to form the LMC, indicating that the nuclear factors responsible for LMC formation reside on endogenous U2
snRNP
. LMC formation was not competed by excess U2 RNA but was competed by partially purified native U2
snRNP
, providing further evidence that the LMC represents an interaction of nuclear factors with already assembled U2
snRNP
. LMC formation did not take place on a mutant U2
snRNP
lacking the binding site for the two U2-specific proteins, A' and B", nor on mutant U2 snRNPs lacking nucleotides 34-37 or nucleotides 46-49. Further results revealed that nucleotides 35 and 36 of U2 RNA, but not 34 and 37, are required for LMC formation. These experiments demonstrate a nucleotide sequence-specific interaction of U2
snRNP
with nuclear factors in the absence of pre-mRNA. Among the U2 RNA nucleotides involved in the formation of this complex are ones previously implicated in base pairing between U2 RNA and the pre-mRNA lariat branch site. These findings are discussed in the context of the possibility that the LMC is on the spliceosome assembly pathway.
...
PMID:The U2 small nuclear ribonucleoprotein particle associates with nuclear factors in a pre-mRNA independent reaction. 165 22
In nematodes, a fraction of mRNAs acquires a common 22-nucleotide 5'-terminal spliced leader sequence via a trans-splicing reaction. The same premessenger RNAs which receive the spliced leader are also processed by conventional cis-splicing. Whole cell extracts prepared from synchronous embryos of the parasitic nematode Ascaris lumbricoides catalyze both cis- and trans-splicing. We have used this cell-free system and oligodeoxynucleotide directed
RNase H
digestion to assess the U small nuclear RNA requirements for nematode cis- and trans-splicing. These experiments indicated that both cis- and trans-splicing require intact U2 and U4/U6 small nuclear ribonucleoproteins (snRNPs). However, whereas cis-splicing displays the expected requirement for an intact U1
snRNP
, trans-splicing is unaffected when approximately 90% of U1
snRNP
is degraded. These results suggest that 5' splice site identification differs in nematode cis- and trans-splicing.
...
PMID:U small nuclear ribonucleoprotein requirements for nematode cis- and trans-splicing in vitro. 183 72
We have combined oligonucleotide-directed
RNase H
degradation and immunoprecipitation in a study of the association of the Saccharomyces cerevisiae PRP4 protein with the U4-U6 complex. We have found that three oligonucleotides were able to direct nearly to completion the
RNase H
-specific cleavage of the target RNA molecules as they exist in splicing extracts. Immunoprecipitation of the degradation products with PRP4 antibody showed that the 5' portion of U4 small nuclear RNA (snRNA) and the 3' portion of U6 snRNA coimmunoprecipitated with the PRP4 protein. Micrococcal nuclease protection experiments confirmed further that the 5' portion and 3' end of U4 snRNA were very resistant to nuclease digestion, whereas the 3' portion of U6 snRNA was protected to only a very small extent. We conclude that the PRP4 protein of S. cerevisiae is associated primarily with the 5' portion of U4 snRNA in the U4-U6
small nuclear ribonucleoprotein
(
snRNP
).
...
PMID:The PRP4 (RNA4) protein of Saccharomyces cerevisiae is associated with the 5' portion of the U4 small nuclear RNA. 215 81
To understand how the U5
small nuclear ribonucleoprotein
(
snRNP
) interacts with other spliceosome components, its structure and binding to the U4/U6
snRNP
were analyzed. The interaction of the U5
snRNP
with the U4/U6
snRNP
was studied by separating the snRNPs in HeLa cell nuclear extracts on glycerol gradients. A complex running at 25S and containing U4, U5, and U6 but not U1 or U2 snRNAs was identified. In contrast to results with native gel electrophoresis to separate snRNPs, this U4/U5/U6
snRNP
complex requires ATP to assemble from the individual snRNPs. The structure of the U5 RNA within the U5
snRNP
and the U4/5/6
snRNP
complexes was then compared. Oligonucleotide-targeted
RNase H
digestion identified one RNA sequence in the U5
snRNP
capable of base pairing to other nucleic acid sequences. Chemical modification experiments identified this sequence as well as two other U5 RNA sequences as accessible to modification within the U5 RNP. One of these regions is a large loop in the U5 RNA secondary structure whose sequence is conserved from Saccharomyces cerevisiae to humans. Interestingly, no differences in modification of free U5
snRNP
as compared to U5 in the U4/U5/U6
snRNP
complex were observed, suggesting that recognition of specific RNA sequences in the U5
snRNP
is not required for U4/U5/U6
snRNP
assembly.
...
PMID:U5 small nuclear ribonucleoprotein: RNA structure analysis and ATP-dependent interaction with U4/U6. 255 94
A nuclear extract from HeLa cells was fractionated by DEAE-Sepharose chromatography. The obtained fractions were assayed for binding to an RNA transcript carrying a splice site sequence of 9-16 nucleotides by a filter binding technique. The U1 RNA-rich
small nuclear ribonucleoprotein
(
snRNP
) fractions, which showed binding activities for both 5' and 3' splice site RNAs, were studied for the sequence specificity of their binding. Results indicate that the U1-rich
snRNP
fraction can recognize both 5' and 3' splice site sequences. The U1 RNP, which was highly purified from the
snRNP
fractions, bound to at least some 5' splice site sequences, but not to a consensus 3' splice site sequence. Therefore, purified U1 RNP can directly recognize a 5' splice site, but not a 3' splice site. The binding activity for the 5' splice sites was lost either by digestion with micrococcal nuclease or by digestion of the 5' end of U1 RNA with
RNase H
and a complementary oligodeoxynucleotide, indicating the involvement of U1 RNA. Involvement of a protein moiety as well in this binding was suggested by the loss of binding activity upon heating at 60 degrees C. The binding activity to a 3' splice site sequence was not sensitive to digestion by micrococcal nuclease and was removed by protein A-coupled anti-Sm antibody. This activity was found in sucrose gradient fractions of about 8 S.
...
PMID:Recognition of 5' and 3' splice site sequences in pre-mRNA studied with a filter binding technique. 304 Jul 11
We have investigated the role of
small nuclear ribonucleoprotein
particles (snRNPs) in the in vitro splicing of messenger RNA precursors by a variety of procedures. Removal of the U-type snRNPs from the nuclear extracts of HeLa cells with protein A-Sepharose-coupled human autoimmune antibodies leads to complete loss of splicing activity. The inhibition of splicing can be prevented by saturating the coupled antibodies with purified nucleoplasmic U snRNPs prior to incubation with nuclear extract. We further demonstrate that an intact 5' terminus of U1 snRNA is required for the functioning of U1 snRNP in the splicing reaction. Antibodies directed against the trimethylated cap structure of the U snRNAs inhibit splicing. Upon removal of the first eight nucleotides of the U1 snRNA in the particles by site-directed hydrolysis with
ribonuclease H
in the presence of a synthetic complementary oligodeoxynucleotide splicing is completely abolished. These results are in strong support of current models suggesting that a base-pairing interaction between the 5' terminus of the U1 snRNA and the 5' splice site of a mRNA precursor is a prerequisite for proper splicing.
...
PMID:The 5' terminus of the RNA moiety of U1 small nuclear ribonucleoprotein particles is required for the splicing of messenger RNA precursors. 623 19
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