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Query: EC:2.7.7.6 (RNA polymerase)
34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Genomic Xenopus borealis oocyte-specific 5S DNA (Xbo) contains clusters of 5S rRNA genes. The number of genes varies among clusters, and the distance between genes within a cluster is about 80 nucleotides. The spacer DNA between gene clusters is AT-rich and heterogeneous in length due in part to variable numbers of a tandemly repeated 21 nucleotide sequence. A cloned fragment of Xbo 5S DNA (Xbo1) containing three 5S rRNA genes has been sequenced. The sequences of Xbo1 genes 1 and 2 are very similar to the dominant 5S RNA sequence, whereas 15 of the 120 residues in the third gene are different. The sequence of gene 3 is as different from the dominant gene sequence as the X. laevis pseudogene is from the 5S RNA gene. Sequence analysis of genomic DNA shows that gene 3 is an abundant component of the multigene family. All three genes are transcribed when added to an extract of X. laevis oocyte nuclei, and a fragment of Xbo1 lacking the AT-rich spacer DNA and the 5' end of the first gene supports transcription of genes 2 and 3 in this in vitro system. Thus the 80 nucleotides preceding each 5S gene are sufficient for promoter function. Nucleic acid sequences preceding several eucaryotic genes that are transcribed by RNA polymerase III were analyzed and the following common features were found: a purine-rich region; at least one direct repeat; the absence of dyad symmetry; transcription beginning with a purine; a pyrimidine residue immediately preceding the first nucleotide of the gene; and the oligonucleotides AAAAG, AGAAG and GAC, located approximately 15, 25 and 35 nucleotides, respectively, before the start of transcription. The 10 base pair (bp) spacing between the homologous oligonucleotides is that expected for a recognition signal on one face of a DNA double helix. The extensive sequence differences between most of the spacers that precedes these genes make the three conserved oligonucleotides more striking. Parts of the 5' flanking regions of the three Xbo1 gene (-12 to -40), which include the conserved oligonucleotides, are identical. In contrast, 7 of the first 11 nucleotides that precede the third 5S RNA gene in Xbo1 differ from those that precede the first gene. The sequences following the X. borealis oocyte and somatic 5S genes are identical in 12 of the first 14 residues and contain two or more T clusters, as does the corresponding region of X. laevis oocyte 5S DNA. The 3' sequences of the Xenopus 5S rRNA genes and several other eucaryotic genes contain features in common with procaryotic transcription termination sites. The 3' end of the gene is GC-rich and contains a dyad symmetry. Termination occurs in an AT-rich region containing one or more T clusters on the noncoding strand.
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PMID:Nucleotide sequence of Xenopus borealis oocyte 5S DNA: comparison of sequences that flank several related eucaryotic genes. 26 40

Three genes encoding U4 small nuclear RNA (U4 snRNA) in the higher plant Arabidopsis thaliana have been isolated and characterized. Two of the genes, AtU4.1 and AtU4.2, contain all the transcriptional signals known to be essential for U-snRNA gene activity in dicot plants: the Upstream Sequence Element (USE), the -30 TATA box and the downstream 3' end formation sequence. The USE and TATA elements are centered approximately four helical DNA turns apart, a feature characteristic of RNA polymerase II-transcribed U-snRNA genes of plants. The genes AtU4.1 and AtU4.2 are actively transcribed in transfected plant protoplasts and in Arabidopsis plants. Expression of the third gene, AtU4.3, could not be demonstrated. Since this gene is missing the downstream signal important for RNA 3' end formation, it probably represents a pseudogene. The genes AtU4.1 and AtU4.2 encode 152-153 nt long RNAs which show 85-89% sequence similarity with broad bean and pea U4 RNAs and 60-65% similarity with mammalian U4 RNAs. Arabidopsis U4 and U6 snRNAs can be folded into the base-paired Y-shaped model supporting the importance of the U4/U6 interaction during pre-mRNA splicing in plants as well as animals.
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PMID:Characterization of the genes encoding U4 small nuclear RNAs in Arabidopsis thaliana. 128 76

We have previously isolated and sequenced Nicotiana cytoplasmic tRNA(Tyr) with G psi A anticodon which promotes readthrough over the leaky UAG termination codon at the end of the 126 K cistron of tobacco mosaic virus RNA and we have demonstrated that tRNA(Tyr) with Q psi A anticodon is no UAG suppressor. Here we show that the nucleotide in the middle of the anticodon (i.e., psi 35) also contributes to the suppressor efficiency displayed by cytoplasmic tRNA(Tyr). A tRNA(Tyr) with GUA anticodon was synthesized in vitro using T7 RNA polymerase transcription. This tRNA(Tyr) was unable to suppress the UAG codon, indicating that nucleotide modifications in the anticodon of tRNA(Tyr) have either stimulating (i.e., psi 35) or inhibitory (i.e., Q34) effects on suppressor activity. Furthermore, we have shown that the UAA but not the UGA stop codon is also efficiently recognized by tobacco tRNA(G psi ATyr), if placed in the TMV context. Hence this is the first naturally occurring tRNA for which UAA suppressor activity has been demonstrated. In order to study the influence of neighbouring nucleotides on the readthrough capacity of tRNA(Tyr), we have established a system, in which part of the sequence around the leaky UAG codon of TMV RNA was inserted into a zein pseudogene which naturally harbours an UAG codon in the middle of the gene. The construct was cloned into the vector pSP65 and in vitro transcripts, generated by SP6 RNA polymerase, were translated in a wheat germ extract depleted of endogenous mRNAs and tRNAs. A number of mutations in the codons flanking the UAG were introduced by site-directed mutagenesis. It was found that changes at specific positions of the two downstream codons completely abolished the readthrough over the UAG by Nicotiana tRNA(Tyr), indicating that this tRNA needs a very specific codon context for its suppressor activity.
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PMID:Pseudouridine in the anticodon G psi A of plant cytoplasmic tRNA(Tyr) is required for UAG and UAA suppression in the TMV-specific context. 146 24

A complex locus on human chromosome 1 brings together sequences homologous to a G protein and two components of the RNA processing machinery of eukaryotic cells. Specifically, the seventh intron of the human Gi3 alpha gene contains a fusion of a partial snRNP E protein pseudogene to a variant U6 snRNA gene. The novel U6 sequence contains nine point mutations and a one nucleotide deletion relative to the major U6 genes from humans. Unlike all other vertebrate U6 genes characterized to date, the variant U6 gene is efficiently transcribed by RNA polymerase III even in the absence of all natural flanking sequences. The union of elements from the signal transduction pathway and the RNA processing machinery suggests the possibility of functional interplay.
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PMID:A U6 snRNA gene with an internal promoter is juxtaposed to an snRNP protein sequence within an intron of a human G protein gene. 182 58

The identification and characterization of a mouse tRNA(Trp) pseudogene is reported. A synthetic oligonucleotide (31 mer), identical with the 3' half of a tRNA(Trp), was used to examine three mouse lambda clones that are known to contain clusters of tRNA genes. A fragment of one of these lambda clones strongly hybridizes to the oligonucleotide; the sequence of this region shows the presence of a gene significantly homologous to the chick tRNA(Trp). However two point mutations and a three base deletion prevent the folding of a possible transcript of this gene. The presence of a conserved promoter sequence for RNA polymerase III, that should allow the transcription of this gene, does not ensure the transcription of the gene, at least in our in vitro system.
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PMID:A mouse tRNA pseudogene derived from a tRNA(Trp) coding sequence. 296 75

A cloned 13.3-kilobase (kb) region of rabbit genomic DNA contains a cluster of alpha-like globin genes arranged 5'-psi zeta-(3.6 kb)-alpha 1-(2.2 kb)-psi alpha-3'. Genomic blot hybridization data show that this is the major alpha-like globin gene cluster in rabbits, although a second alpha-globin gene (alpha 2) is also detected. Repetitive sequences from the C family of short repeats flank the psi zeta gene, and a new repetitive element, the F repeat is located 3' to psi alpha. The sequence was determined for a 4024-base pair (bp) segment that extends from 149 bp 5' to the cap site of alpha 1 to 207 bp 3' to psi alpha. Gene alpha 1 is functional and encodes one of the major allelic variants of rabbit alpha-globin. This gene has very short introns (77 bp in intron 1 and 83 bp in intron 2) and an unusual ATA box in the 5' flanking region (CTTAAA), which does function to promote transcription by RNA polymerase II in a cell-free system. Short (4 or 9 bp) G + C-rich repeats are interspersed throughout the flanking regions and the introns. Gene psi alpha cannot encode a globin polypeptide, and it is probably inactive. This is shown by the absence of a normal globin gene promoter, the replacement of the 5' untranslated sequence by tandem repeats of the sequence GCCCGCCGC, frameshift deletions in exon 2, and the modification of the polyadenylation signal to AGTAAA. The intergenic region between alpha 1 and psi alpha is very G + C rich (65.7% G + C) and contains many short, tandem repeats. Gene psi zeta hybridizes specifically to a human zeta-globin gene probe, but a partial sequence reveals frameshift mutations that probably make psi zeta a pseudogene. Mammalian alpha-globin gene clusters vary in the presence or absence of pseudogenes, and if present, the position of the pseudogene differs in various gene clusters. Among the mammalian alpha-like gene clusters so far analyzed, the rabbit gene cluster is unique in the absence of duplicated alpha-globin genes that are undergoing concerted evolution.
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PMID:Isolation and nucleotide sequence of the rabbit globin gene cluster psi zeta-alpha 1-psi alpha. Absence of a pair of alpha-globin genes evolving in concert. 300 Oct 84

A bacteriophage lambda clone containing a 15.4-kb human DNA fragment was isolated and found to contain a glycine tRNA gene and, 758 bp away, a pseudogene, both with an anticodon of GCC. The nucleotide (nt) sequence of a 1362-bp segment of this clone, encompassing the gene, pseudogene, and their flanking regions, was determined. The gene and pseudogene have an identical sequence of eight nt (5'-CAGCTGGA-3') in their 5'-flanking regions immediately preceding the coding regions, as well as characteristic transcription termination sites of five consecutive T nt in the 3'-flanking regions. Neither of these genes has intervening sequences. Only one of the two genes was efficiently transcribed in vitro by RNA polymerase III in a HeLa cell-free system. During the course of transcription, primary transcripts of one gene were processed to yield mature-sized products. In contrast, the level of transcription of the second gene was significantly less than that of the first, and no mature-sized products could be detected. The nt sequence of the inefficiently transcribed gene has two base substitutions compared to the sequence of the efficiently transcribed gene, and the DNA sequence predicted from the human placental tRNAGlyGCC sequence. One of these nt substitutions is a C to T transition in the TTCG sequence within the B block of the characteristic internal split promoter sequence. The precursor-product relationships of the tRNA transcripts were established by comparing the RNase T1 and RNase A fingerprints of the precursors and products.
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PMID:Nucleotide sequence and transcription of a human glycine tRNAGCC gene and nearby pseudogene. 301 33

As shown by Southern blot analysis, the metallothionein-1 (MT-1) genes in rats comprise a multigene family. We present the sequence of the MT-1 structural gene and compare its features with other metallothionein genes. Three MT-1 pseudogenes which we sequenced apparently arose by reverse transcription of processed mRNA transcripts. Two of these, MT-1 psi a and MT-1 psi c, are retrogenes which derive from the MT-1 mRNA, having diverged from the MT-1 gene 6.9 and 2.6 million years ago, respectively. The third, MT-1 psi b, differs from the MT-1 cDNA by only three nucleotide alterations. Surprisingly, MT-1 psi b also preserves sequence homology for 142 base pairs 5' to the transcription initiation site of the parent gene; it contains a promoter sequence sufficient for specifying metal ion induction. We identified, by S1 nuclease mapping, an RNA polymerase II initiation site 432 base pairs 5' of the MT-1 transcription initiation site of the MT-1 structural gene which could explain the formation of the mRNA precursor to this pseudogene. We were unable to detect MT-1 psi b transcripts, either in liver tissue or after transfection. We conclude that the absence of detectable transcripts from this pseudogene is due to either a reduced level of transcription or the formation of unstable transcripts as a consequence of the lack of a consensus sequence normally found 3' of transcription termination in the MT-1 structural gene.
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PMID:Rat metallothionein-1 structural gene and three pseudogenes, one of which contains 5'-regulatory sequences. 302 30

We have determined the primary structure of a 3500 base-pair part of the silkmoth chorion locus mapping in a region containing genes of late developmental specificity. This part of the locus was found to harbour a pseudogene related to one of the families of chorion genes encoding high cysteine proteins, HcB. The pseudogene exhibits an overall sequence identity of 84% to the consensus coding region of HcB chorion genes. A 95% identity was observed over a length of 190 base-pairs of its immediate 5' upstream sequences and the corresponding part of the consensus 5'-intergenic sequences of Hc gene pairs, normally encompassing 270 base-pairs. Thus, the pseudogene has retained part of the promoter region that includes sequence elements whose presence is thought to be necessary for transcriptional competence of HcB genes. The pseudogene is also characterized by the elimination of part of its first exon containing most of the 5' untranslated region, the ATG translation initiation codon and part of the signal peptide sequences. Its intron is longer than that of other HcB genes due to the insertion of a copy of a repetitive element that appears to be transcribed by RNA polymerase III. A previously characterized chorion cDNA clone, m2282, representing a rare mRNA sequence of late developmental specificity, was found to be identical to the pseudogene over its entirety spanning 65% of the pseudogene's second exon. Hybridizations of clones spanning a 260,000 base-pair domain of the chorion locus of Bombyx mori and of total genomic DNA to a subfragment of the cDNA clone containing relatively unique sequences, coupled to primer extension experiments, have demonstrated that m2282 mRNA originated from the pseudogene and that the pseudogene transcripts are initiated at the chorion cap site consensus sequence. We conclude that the 5'-flanking sequences retained by the pseudogene encompass elements necessary and adequate for correct transcriptional activation, but may not include those required for quantitative expression of the promoter. Possible reasons for the observed lack of random drift in the 5'-upstream sequences of the pseudogene and the maintenance of a functional promoter in a non-functional gene are discussed on the basis of the observation that elements resembling scaffold attachment sites are present in these sequences.
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PMID:Identification of a transcriptionally active pseudogene in the chorion locus of the silkmoth Bombyx mori. Regional sequence conservation and biological function. 321 Feb 42

When yeast cell extracts that faithfully transcribe class III genes are provided with different electrolyte ions, the pattern of transcripts changes. A transcription unit in pBR322, silent with 0.1M potassium chloride, becomes active in the presence of 0.1M potassium acetate. This pseudogene depends on transcription factors B and C and RNA polymerase III like a tRNA gene. The transcribed region contains the only sequence in pBR322 homologous to the modified B block consensus sequence GTTCRDNNC found in normal tRNA genes. The presence of a block A sequence is less evident. When a block A deleted tRNA(GLU) gene was constructed, it behaved similarly: poorly transcribed with 0.1M potassium chloride, well transcribed with 0.1M potassium acetate. In fact, the deletion of the A block promoter element from the tRNA(GLU) gene did not dramatically lower its transcription when tested with potassium acetate, while it had a strong negative effect when tested with potassium chloride. Consequently the requirement for this promoter element is not constant but is a function of the electrolyte composition.
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PMID:The requirement for the A block promoter element in tRNA gene transcription in vitro depends on the ionic environment. 330 45

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