Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The SRP1-1 mutation is an allele-specific dominant suppressor of temperature-sensitive mutations in the zinc-binding domain of the A190 subunit of Saccharomyces cerevisiae RNA polymerase I (Pol I). We found that it also suppresses temperature-sensitive mutations in the zinc-binding domain of the Pol I A135 subunit. This domain had been suggested to be in physical proximity to the A190 zinc-binding domain. We have cloned the SRP1 gene and determined its nucleotide sequence. The gene encodes a protein of 542 amino acids consisting of three domains: the central domain, which is composed of eight (degenerate) 42-amino-acid contiguous tandem repeats, and the surrounding N-terminal and C-terminal domains, both of which contain clusters of acidic and basic amino acids and are very hydrophilic. The mutational alteration (P219Q) responsible for the suppression was found to be in the central domain. Using antibody against the SRP1 protein, we have found that SRP1 is mainly localized at the periphery of the nucleus, apparently more concentrated in certain regions, as suggested by a punctate pattern in immunofluorescence microscopy. We suggest that SRP1 is a component of a larger macromolecular complex associated with the nuclear envelope and interacts with Pol I either directly or indirectly through other components in the structure containing SRP1.
Mol Cell Biol 1992 Dec
PMID:Cloning and characterization of SRP1, a suppressor of temperature-sensitive RNA polymerase I mutations, in Saccharomyces cerevisiae. 144 93

An in vitro runoff transcription assay of total genomic DNA was developed. As an example of use of this assay, analysis of a highly repetitive sequence in the cherry salmon (Oncorhynchus masou) is described. Total genomic DNA of the cherry salmon was completely digested with Hpa 1, whose site is known to be in the tRNA-unrelated region of the cherry salmon Hpa 1 family. On transcription of the digested DNA in a HeLa cell extract, a discrete-sized RNA of about 100 nucleotides, constituting 70% of the transcripts, was produced, whereas on transcription of the undigested total DNA, only smeared RNA was obtained. In a fingerprint, the oligonucleotides of the discrete transcript from the digested total DNA were very distinct and exactly corresponded to those of a transcript from an Hpa 1 digest of a cloned DNA, but with few extra oligonucleotides. These results showed that the cherry salmon Hpa 1 family constitutes a major repetitive family in the genome of the cherry salmon. For determination of the distribution of the salmonid Hpa 1 family in other salmonid species, the same analysis was applied to DNAs from the chum salmon (Onchorhynchus keta), brown trout (Salmo trutta), Japanese common charr (Salvelinus leucomaenis pluvius), and Japanese huchen (Hucho perryi). The results showed that the salmonid Hpa 1 family is widespread in the genomes of salmonid species. A method and equations are also presented for estimating the relationship between the ratio of a given repetitive family to all the Pol III genes and its average sequence divergence by calculating the molar ratio of the runoff transcript to all the in vitro Pol III transcripts.
J Mol Evol 1991 Jan
PMID:Distribution of the salmonid Hpa 1 family in the salmonid species demonstrated by in vitro runoff transcription assay of total genomic DNA: a procedure to estimate repetitive frequency and sequence divergence of a certain repetitive family with a few known sequences. 170 99

In the hamster, DNA polymerase-alpha (Pol-alpha) in follicles at stages 1-4 (1-4 layers granulosa cells and no theca) increased significantly during the proestrous (P) gonadotropin surges, remained high on estrus (E) and then declined to low levels by 09.00 h, proestrus (P). However, Pol-alpha in stages 5-8 (large preantral to small antral stages) remained steady throughout the cycle. Hypophysectomy on metestrus decreased Pol-alpha by 17 h which was reversed by 2.5 micrograms follicle stimulating hormone (FSH) but not by luteinizing hormone (LH) (2.5 micrograms) or human chorionic gonadotropin (hCG) (1 IU). Hypophysectomy on E resulted 72 h later in a fall in Pol-alpha in stages 1-6; FSH (2.5 micrograms) or LH (2 micrograms) restored enzyme activity within 5 h to stages 1-6 and 5-6, respectively. Thus, Pol-alpha in the smallest preantral follicles is induced by FSH; however, for large preantral and antral follicles, steady levels are maintained by tonic FSH and LH resulting in no apparent change in enzyme activity during active DNA synthesis.
Mol Cell Endocrinol 1989 Feb
PMID:Deoxyribonucleic acid polymerase-alpha activity in hamster follicles during the estrous cycle: roles of follicle stimulating hormone and luteinizing hormone. 249 57

An in vitro transcription system was developed from H411EC3 (H4) hepatoma cells, which mimics the in vivo up-regulation by glucocorticoid hormones on ribosomal RNA (rRNA) synthesis. Ribosomal DNA (rDNA) transcription in extracts derived from H4 cells grown in the presence of 100 nM triamcinolone acetonide was 4- to 5-fold greater than that in extracts derived from cells grown in the absence of glucocorticoid. This effect was not a general stimulation by the steroid, as RNA polymerase II transcription of the metallothionein-1 gene which lacked a glucocorticoid responsive element was unaffected. The increased transcription in hormone-treated extracts was also independent of differential ribonuclease activities or inhibitors as ascertained by the inclusion of ribonuclease inhibitor and mixing experiments, respectively. Chromatography of H4 cell extracts on heparin-sepharose followed by transcription complementation analysis, showed that the hormone-induced stimulatory activity eluted with the fraction (TFIA) which contains RNA polymerase I (Pol I). Immunoblot analysis with specific anti-Pol I antibody showed similar subunit profiles in the absence and presence of the hormone. The presence of a Pol I enhancer element in addition to the rDNA promoter did not further modify the glucocorticoid-induced transcription. These results indicate that the glucocorticoid-mediated effects could be observed in cell extracts which accurately initiate transcription of cloned rat rDNA. Moreover, the alterations of rDNA transcription by the hormone is effected by a factor which elutes with fraction TFIA.
Mol Endocrinol 1989 Nov
PMID:Glucocorticoid-induced stimulation of ribosomal gene transcription in rat hepatoma cells is mediated by modification of RNA polymerase I or an associated factor. 260 60

Human rRNA precursor from normal or stressed HeLa cells were studied by S1 nuclease mapping of unlabeled RNA and by antisense RNase mapping of RNA from cells that had been labeled in vivo with [32P]PO4. Heating cells to 43 degrees C decreased the amount of newly synthesized rRNA to less than 5% of the control level and led to greater than 95% inhibition of transcription termination at a region 355 to 362 nucleotides downstream of the 3' end of 28S rRNA, with readthrough continuing into the next transcription unit. Heating of cells to 42 degrees C led to 60% inhibition of termination at this site; 50% of transcripts that extended into the nontranscribed spacer ended in a region 200 to 210 nucleotides upstream of the polymerase I (Pol I) initiation site. This is presumed to be the human upstream transcription termination site because of the absence of RNAs with a 5' end corresponding to this region, the location relative to the Pol I initiation site (which is similar to the location of upstream terminators in other species), and the fact that it is 15 to 25 nucleotides upstream of the sequence GGGTTGACC, which has an 8-of-9 base identity with the sequence 3' of the downstream termination site. Surprisingly, treatment of cells with sodium arsenite, which also leads to the induction of a stress response, did not inhibit termination. Pol I initiation was decreased to the same extent as termination, which lends support to the hypothesis that termination and initiation are coupled. Although termination was almost completely inhibited at 43 degrees C, the majority of the recently synthesized rRNAs were processed to have the correct 3' end of 28S. This finding suggests that 3'-end formation can involve an endonucleolytic cut and is not solely dependent on exonucleolytic trimming of correctly terminated rRNAs.
Mol Cell Biol 1989 Jun
PMID:Analysis of pre-rRNAs in heat-shocked HeLa cells allows identification of the upstream termination site of human polymerase I transcription. 276 37

We have analysed nuclease S1-sensitive sites in cloned ribosomal DNA repeats from Drosophila melanogaster, D. hydei and D. virilis. All species contain major S1-sensitive sites in the spacer near the region of transcription termination, albeit with somewhat different positions and sensitivities. The same sites are also sensitive to the single-strand specificity of Bal31 nuclease at neutral pH. Additional major sites exist at each end of the intervening sequence within the 28 S gene of non-transcribed intervening-sequence-positive ribosomal DNA units of D. hydei. Only minor sites, however, were detected in the Pol I promoter regions. This is in contrast to Pol II transcribed genes, where S1 hypersensitivity becomes apparent at the 5' ends during gene expression. We have sequenced and mapped the S1 sites in the D. hydei spacer. They consist mainly of alternating A and T nucleotides that could form small cruciform structures. Cross-hybridization at low stringencies between the relevant S1-sensitive spacer regions of the three species indicates that the sites lie within very divergent sequences. We discuss the potential functional significance of S1 sites in rDNA spacers and intervening sequences, and the manner in which they might be maintained during rDNA sequence divergence.
J Mol Biol 1985 Jun 25
PMID:Conservation of major nuclease S1-sensitive sites in the non-conserved spacer region of ribosomal DNA in Drosophila species. 299 35

When Escherichia coli DNA polymerase I (Pol I) replicates a homopolymer, the excision/polymerization (exo/pol) ratio varies with enzyme and initiator concentration. The study of this effect in the case of poly(dA).oligo(dT) replication led us to propose a mnemonic model for Pol I, in which the 3' to 5' excision activity warms up when the enzyme is actively polymerizing, and cools down when it dissociates from the template. The model predicts that the exo/pol ratio must increase with processivity length and initiator concentration and decrease with enzyme concentration. It predicts also that contact of the enzyme with one template alters its excision efficiency towards another template. The exo/pol ratio and processivities of Pol I and its Klenow fragment were studied on four templates: poly(dA).(dT)10, poly(dT).(dA)10, poly(dC).(dG)10 and poly(dI).(dC)10. We show that the Klenow fragment is usually much less processive than Pol I and when this is the case it has a much lower exo/pol ratio. At equal processivity, the exo/pol ratios are nearly equal. Furthermore, many factors that influence processivity length (e.g. manganese versus magnesium, inorganic pyrophosphate, ionic strength) influence the exo/pol ratio in the same direction. The study of deaminated poly(dC) replication, where we followed incorporation and excision of both G and A residues, allowed us to assign the origin of the dNMP variations to changes in the 3' to 5' proof-reading activity of Pol I. Similarly, the lower dNMP turnover of the Klenow fragment observed with deaminated poly(dC) was specifically assigned to a decreased 3' to 5' exonuclease activity. The exo/pol ratio generally increased with initiator and decreased with enzyme concentration, in agreement with the model, except for poly(dI).oligo(dC), where it decreased with initiator concentration. However, by terminating chain elongation with dideoxy CTP, we showed directly that, even in this system, excision is relatively inefficient at the beginning of synthesis. Interaction of Pol I with poly(dA).(dT) or with poly(dC).(dG) modifies its exo/pol characteristics in the replication of poly(dI).(dC) and poly(dA).(dT), respectively. The Klenow enzyme is not sensitive to such influences and this correlates with its reduced processivity on the influencing templates. Our results reveal the existence of differences between Pol I and its Klenow fragment that are more profound than has been thought previously.(ABSTRACT TRUNCATED AT 400 WORDS)
J Mol Biol 1986 Jun 05
PMID:Mnemonic aspects of Escherichia coli DNA polymerase I. Interaction with one template influences the next interaction with another template. 353 8

The effects of deoxynucleoside monophosphates on the 3' leads to 5' exonuclease activity of DNA polymerase III holoenzyme have been correlated with their effects on the fidelity of DNA replication. In particular, dGMP inhibits the proofreading activity of the enzyme and decreases the fidelity in those cases where a "following nucleotide effect" is also noted. This is strong evidence for proofreading. However, the absence of the effects of proofreading inhibitors or following nucleotides need not be evidence against the occurrence of proofreading: a theoretical analysis shows that these effects may not be observed even though there is active proofreading. This is suggested to be the case with the phage T4 enzyme system. The proofreading activity of Pol III appears to be directed primarily towards removing purine x pyrimidine-mediated rather than purine x purine-mediated misincorporations. recA protein inhibits the proofreading activity of Pol III on synthetic templates containing mismatched 3' termini. This is paralleled by a decrease in the fidelity of DNA replication in vitro. The inhibition is increased in the presence of dGMP or dAMP but there is no further increase in the infidelity of replication. The presence of both dNMPs and recA protein does not enable Pol III to copy past pyrimidine photodimers.
J Mol Biol 1983 Apr 25
PMID:Contribution of 3' leads to 5' exonuclease activity of DNA polymerase III holoenzyme from Escherichia coli to specificity. 622 98

The fidelity of DNA replication in vitro by DNA polymerase I (large subfragment) of Escherichia coli has been measured by the standard bioassay: single-stranded phi X174 DNA (plus strand) containing an amber codon was primed with a synthetic oligodeoxynucleotide, replicated and the frequency of point mutations formed in the synthetic minus strand of the resultant double-stranded DNA determined from the number of revertant phage produced in a spheroplast assay. Since the assay depends crucially on the frequency of expression of the mutations in the heteroduplex, and this can vary for a variety of reasons, parallel control experiments were performed using a primer that covered the amber codon but contained the same mismatch that occurred during replication. The frequency of expression of these mutations was found to vary from 40 to 100% in fully ligated heteroduplexes, depending upon the age and batch of spheroplasts used. The variation probably reflects the viability of the post-replicative mismatch repair enzymes in the spheroplasts used for transfection. Far lower frequencies of expression were found under conditions of poor replication. Accurate data and rate laws for fidelity are obtained only when the bioassay is normalized for the variation in the expression frequency. There is active proofreading by the 3'-5'-exonuclease activity of the polymerase of a misincorporation resulting from a dGTP:T mismatch. The contribution of proofreading to fidelity is low: accuracy is enhanced by a factor of less than 7 at the concentrations of dNTPs in vivo. The lower accuracy of Pol I than Pol III is due mainly to poorer proofreading, which is manifested in a lower "cost" of replication: only 0.7 to 1.7% of the dNTPs are turned over to dNMPs during replication compared with 6 to 13% for Pol III. The error rates measured for Pol I under conditions used for oligodeoxynucleotide-directed mutagenesis are sufficiently low that extraneous errors should not be induced when the concentrations of dNTPs are balanced. However, even higher fidelity will be obtained using the lowest concentrations of dNTPs consistent with efficient replication (approximately 20 microM). Highly unbalanced concentrations as used in pulsed labelling should be avoided.
J Mol Biol 1984 Aug 05
PMID:Fidelity of DNA replication under conditions used for oligodeoxynucleotide-directed mutagenesis. 623 77

Amino acid sequences of haptoglobin and 11 proteins related and unrelated to haptoglobin were resolved into overlapping di-, tri-, and tetrapeptides. Comparison of the obtained peptides confirmed the existence of homology between haptoglobin and the family of serine proteases. The homology with light chain of immunoglobulins was relatively weak. A surprising similarity with concanavalin A was found. Tetrapeptide beta-turns (chain reversals), characterized by Chou & Fasman (1977, J. Mol. Biol., 115, 135-175) were compared with similar structures in light (alpha) and heavy (beta) subunits of haptoglobin.
Acta Biochim Pol 1982
PMID:Di-, tri-, and tetrapeptide sequences in haptoglobin. Contribution to understanding of haptoglobin structure. 715 75


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