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Query: EC:3.1.30.2 (
endonuclease
)
18,621
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Point mutations in the adenoviral VAI gene promoter were generated by in vitro mutagenesis with sodium bisulfite and were identified by three phenotypes: the disappearance of certain restriction
endonuclease
cleavage sites, altered rates of transcription in cell-free extracts, and altered mobility of the RNA product on denaturing acrylamide gels. 25 different point mutations were assayed for their effect on VAI transcription in HeLa
S100
extracts. Mutations which change the transcriptional ability of the gene were localized in the internal control regions which are highly conserved among genes transcribed by RNA polymerase III. The magnitude of the change in transcription correlates with the degree of conservation in the consensus sequence at the site of the mutation. Most of the mutations either do not change the transcription rate or reduce transcription less than 6-fold. Two mutations severely reduce the amount of RNA produced, whereas three mutations increase the production of VAI RNA. A second site revertant that partially restores transcription to a mutant gene that produces no detectable VAI has also been isolated.
...
PMID:A comprehensive collection of point mutations in the internal promoter of the adenoviral VAI gene. 359 84
An intron-containing tobacco tRNA(Tyr) precursor synthesized in a HeLa cell nuclear extract has been used to develop a cell-free processing and splicing system from wheat germ. Removal of 5' and 3' flanking sequences, accurate excision of the intervening sequence, ligation of the resulting tRNA halves, addition of the 3'-terminal CCA sequence and modification of seven nucleosides were achieved in appropriate wheat germ S23 and
S100
extracts. The maturation of pre-tRNA(Tyr) in these extracts resembles the pathway observed in vivo for tRNA biosynthesis in Xenopus oocytes and yeast in that processing of the flanks precedes intron excision. Most of the modified nucleosides (m2(2) G, psi 35, psi 55, m7G and m1A) are introduced into the intron-containing pre-tRNA with mature ends, whereas two others (m1G and psi 39) are only found in the mature tRNA(Tyr). Processing and splicing proceed very efficiently in the wheat germ extracts, leading to complete maturation of 5' and 3' ends followed by about 65% conversion to mature tRNA(Tyr) under our standard conditions. The activity of the wheat germ
endonuclease
is stimulated 3-fold by the non-ionic detergent Triton X-100. All previous attempts to demonstrate the presence of a splicing endonuclease in wheat germ had failed (Gegenheimer et al., 1983). Hence, this is the first cell-free plant extract which supports pre-tRNA processing and splicing in vitro.
...
PMID:A cell-free plant extract for accurate pre-tRNA processing, splicing and modification. 367 5
Selective transcription of hybrid plasmids containing yeast rDNA was achieved with a template-dependent
S100
fraction from whole cell extracts of Saccharomyces cerevisiae. A small region of the yeast rDNA which directs selective initiation in vitro was identified by subcloning. An initiation site was mapped within this region on the basis of the molecular weights of transcripts synthesized in vitro from templates which were cleaved with restriction endonucleases at a series of sites downstream from the site of initiation. The initiation site maps to a position 3.0 kilobase pairs upstream from the sequences which encode the 5' terminus of 18 S rRNA. In vitro initiation from this site is not inhibited by 50 micrograms/ml of alpha-amanitin and is completely abolished when the reactions contain 0.2 M (NH4)2SO4. Based on these data, selective transcription of yeast rDNA in vitro is RNA polymerase I-dependent. Several S1 nuclease-resistant hybrids are formed between DNA probes labeled at restriction
endonuclease
sites downstream from the in vitro initiation site and high molecular weight cellular RNA. The 5' terminus of the most abundant rRNA precursor maps approximately 0.7 kilobase pair upstream from sequences which encode the 5' terminus of 18 S rRNA. This corresponds to the 5' terminus of the 35 S rRNA precursor reported by others. The 5' terminus of the largest detectable precursor synthesized in vivo corresponds closely with the initiation site identified in vitro. Based on the data presented here, RNA polymerase I traverses the interspersed 5 S rRNA gene. Since these two ribosomal genes are transcribed in opposite directions, this arrangement of the RNA polymerase I and III promoters may ensure that equivalent amounts of the two gene products are synthesized in vivo.
...
PMID:RNA polymerase I-dependent selective transcription of yeast ribosomal DNA. Identification of a new cellular ribosomal RNA precursor. 629 29
Replication of linear single-stranded parvovirus DNA proceeds by a rolling-hairpin mechanism which generates long, palindromic, duplex concatamers. Processing to monomer length requires initiation from origins of DNA replication located at the 3' and 5' ends of each embedded monomer, reactions which can be recapitulated in vitro for minute virus of mice (MVM). To determine which cellular proteins were essential for replication from these origins,
S100
extracts from 293S cells were fractionated on phosphocellulose. When recombined, these fractions were able to support replication in vitro, dependent on the viral initiator protein NS1, using plasmid forms of the 5' origin or the minimal 3' origin as templates. Fraction P-cell 1 contains two factors, replication protein A (RPA) and proliferating-cell nuclear antigen (PCNA), known to be essential for simian virus 40 replication in vitro. When P-cell 1 was replaced with purified recombinant RPA and PCNA, NS1-mediated MVM replication initiated from the 5' origin but not from the 3' origin. The 3' origin is a 50-bp sequence containing three distinct recognition elements, an NS1 binding site, a site at which NS1 nicks the DNA to generate the priming 3' OH, and a region containing a consensus activated transcription factor (ATF) binding site. To identify the missing factor(s) for 3' origin replication, P-cell 1 was fractionated by further chromatography and active fractions were identified by their ability to complement RPA, PCNA, and P-cell 2 for NS1-mediated, origin-specific replication. Gel shift and UV cross-linking analysis of the replication-competent fractions revealed a novel 110-kDa sequence-specific DNA binding protein which recognized the consensus ATF binding site region of the origin and which we have termed parvovirus initiation factor, or PIF. Binding of PIF appears to activate the
endonuclease
function of NS1, allowing efficient and specific nicking of the 3' minimal origin under stringent conditions in vitro.
...
PMID:A novel cellular site-specific DNA-binding protein cooperates with the viral NS1 polypeptide to initiate parvovirus DNA replication. 899 66
Overlapping tRNA genes in mitochondria of many metazoans introduce a problem for the processing of such polycistronic primary transcripts. Using runoff transcripts and an
S100
extract from HeLa cell mitochondria, the processing of the human mitochondrial tRNATyr/tRNACys precursor (carrying an overlap of one base) was investigated: tRNACys is released in its complete form carrying the overlapping residue at the first position, whereas tRNATyr lacks that nucleotide at the discriminator position. Partial deletion of tRNACys or complete replacement by a non-tRNA-like sequence does not alter the processing reaction and indicates that the upstream tRNATyr alone is recognized by a 3'-
endonuclease
activity. The truncated 3'-end of this tRNATyr is then completed in an editing reaction that incorporates the missing residue. The processing of this tRNA overlap seems to be species-specific, because an overlapping tRNA precursor (tRNASer(AGY)/tRNALeu(CUN)) from opossum mitochondria is not recognized by the human extract. Because processing activities for overlapping and nonoverlapping tRNA precursors could not be separated, it seems that one general activity is responsible for the 3'-end processing of mitochondrial tRNAs and that this activity coevolved with the particular overlap between tRNATyr and tRNACys in human mitochondria, being unable to recognize overlaps between other tRNAs.
...
PMID:Processing and editing of overlapping tRNAs in human mitochondria. 982 69
The PMR1 mRNA
endonuclease
catalyzes the selective decay of a limited number of mRNAs. It participates in multiple complexes, including one containing c-Src, its activating kinase, and one containing its substrate mRNA. This study used tandem affinity purification (TAP) chromatography to identify proteins in HeLa cell
S100
associated with the mature 60-kDa form of Xenopus PMR1 (xPMR60). Unexpectedly, this identified a number of cytoskeleton-associated proteins, most notably the Ena family proteins mammalian Enabled (Mena) and vasodilator-stimulated phosphoprotein (VASP). These are regulators of actin dynamics that distribute throughout the cytoplasm and concentrate along the leading edge of the cell. xPMR60 interacts with Mena and VASP in vivo, overexpression of Mena has no impact on mRNA decay, and Mena and VASP are recovered together with xPMR60 in each of the major complexes of PMR1-mRNA decay. In a wound-healing experiment induced expression of active xPMR60 in stably transfected cells resulted in a twofold increase in cell motility compared with uninduced cells or cells expressing inactive xPMR60 degrees . Under these conditions xPMR60 colocalizes with VASP along one edge of the cell.
...
PMID:The cytoskeleton-associated Ena/VASP proteins are unanticipated partners of the PMR1 mRNA endonuclease. 1922 43
Ribosomal RNA (rRNA) is a major component of ribosomes and is fundamental to the process of translation. In bacteria, 16S rRNA is a component of the small ribosomal subunit and plays a critical role in mRNA decoding. rRNA maturation entails the removal of intervening spacer sequences contained within the pre-rRNA transcript by nucleolytic enzymes. Enzymatic activities involved in maturation of the 5'-end of 16S rRNA have been identified, but those involved in 3'-end maturation of 16S rRNA are more enigmatic. Here, we investigate molecular details of 16S rRNA maturation using purified in vivo-formed small subunit (SSU) assembly intermediates (pre-SSUs) from wild-type Escherichia coli that contain precursor 16S rRNA (17S rRNA). Upon incubation of pre-SSUs with E. coli
S100
cell extracts or purified enzymes implicated in 16S rRNA processing, the 17S rRNA is processed into additional intermediates and mature 16S rRNA. These results illustrate that exonucleases RNase R, RNase II, PNPase, and RNase PH can process the 3'-end of pre-SSUs in vitro. However, the
endonuclease
YbeY did not exhibit nucleolytic activity with pre-SSUs under these conditions. Furthermore, these data demonstrate that multiple pathways facilitate 16S rRNA maturation with pre-SSUs in vitro, with the dominant pathways entailing complete processing of the 5'-end of 17S rRNA prior to 3'-end maturation or partial processing of the 5'-end with concomitant processing of the 3'-end. These results reveal the multifaceted nature of SSU biogenesis and suggest that E. coli may be able to escape inactivation of any one enzyme by using an existing complementary pathway.
...
PMID:Characterization of 16S rRNA Processing with Pre-30S Subunit Assembly Intermediates from E. coli. 2966 Mar 26
