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Query: UNIPROT:P06889 (
Mol
)
630,302
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The DNA sequences of three major class III T3 RNA polymerase promoters located at 45.0, 55.0, and 64.8% on the standard T3 genetic map have been determined. The precise RNA initiation sites were also determined by 5'-terminal RNA sequence analysis of the transcripts synthesized from the promoter-containing DNA fragments. Alignment of these three class III promoters and a previously determined T3 RNA polymerase promoter at 1.05% on T3 genetic map, with start points of transcription (+1) in register, indicates a high degree of sequence conservation among the four T3 RNA polymerase promoters. The sequences are identical between positions -12 and +4 and are uniformly
A-T
between -12 and -17. The conserved portion of the (-) strand sequence is 5' (sequence in text) Upstream from -17 and downstream from +4 the sequences diverge. Comparison of this sequence with a prototype 23-base pair promoter sequence for T7 RNA polymerase shows overall homology between positions -17 and +4 with conserved divergence at residues -2 and between -10 and -12. Furthermore, careful examination of the nucleotide sequences around 45.0 and 64.8 T3 map units shows that the putative RNA sequences arising from these regions by overlapping transcription from upstream promoters can be arranged into stable stemloop structures thought to be required for RNase III cleavage. This pattern is similar to those reported for the corresponding T7 RNA polymerase promoters on T7 DNA (Dunn. J. J., and Studier, F. W. (1983) J.
Mol
. Biol. 166, 477-535).
...
PMID:Locations and nucleotide sequences of three major class III promoters for bacteriophage T3 RNA polymerase on T3 DNA. 631 18
The optimal way of constructing a family of restriction endonuclease EcoRII substrates has been developed. The substrates are DNA-like duplexes containing regularly repeated native or modified sites of this enzyme as well as those of EcoRI and AluI. Synthesis of substrates was performed by water-soluble carbodiimide-induced polycondensation of two nonanucleotides, d(C-C-T-G-G-A-
A-T
-Tp) and d(C-C-A-G-G-A-G-C-Tp), as constituents of different complementary complexes. The products of reaction (degree of polymerization, 2-20) were isolated by G-200 gel-filtration. The yield of polymers was about 70%. The main products of reaction were dimers when dephosphorylated nonanucleotides (terminators of polycondensation) were used. The thermal stability of DNA-like duplexes is very high. The structure of the polymers obtained has been confirmed by UV-spectroscopy and by CD data as well as by the results of cleavage by EcoRI and AluI restriction endonucleases.
Mol
Biol (Mosk)
PMID:[DNA-like duplexes containing repetitive sequences. VIII. Synthesis and properties of DNA fragments--substrates of restriction endonuclease EcoRII]. 632 67
A family of mitochondrial RNAs hybridizes specifically to the var1 region on Saccharomyces cerevisiae mitochondrial DNA (Farrelly et al., J. Biol. Chem. 257:6581-6587, 1982). We constructed a fine-structure transcription map of this region by hybridizing DNA probes containing different portions of the var1 region and some flanking sequences to mitochondrial RNAs isolated from var1-containing petites. We also report the nucleotide sequence of more than 1.2 kilobases of DNA flanking the var1 gene. Our primary findings are: (i) The family of RNAs we detect with homology to var1 DNA is colinear with the var1 gene. Their direction of transcription is olil to cap, as it is for most other mitochondrial genes. (ii) Extensive hybridization anomalies are present, most likely due to the high
A-T
(A-U) content of the hybridizing species and to the asymmetric distribution of their G-C residues. An important conclusion is that failure to detect transcripts from
A-T
-rich regions of the yeast mitochondrial genome by standard blot transfer hybridizations cannot be interpreted to mean that such sequences, which are commonly supposed to be spacer DNA, are noncoding or lack direct function in the expression of mitochondrial genes.
Mol
Cell Biol 1983 Sep
PMID:Transcriptional analysis of the Saccharomyces cerevisiae mitochondrial var1 gene: anomalous hybridization of RNA from AT-rich regions. 635 29
The ssb-113 (formerly lexC113) gene encoding a mutant single-stranded DNA binding protein (SSB) has been cloned into plasmid pSC101 resulting in 5- to 10-fold more mutant protein than strains carrying only one (chromosomal) copy of the gene. Analysis of tryptic and chymotryptic peptides of the mutant protein by high pressure liquid chromatography and solid phase protein sequencing has shown that the ssb-113 mutation results in the substitution of serine for proline at residue 176 of SSB. This change could only occur in one step by a C leads to T transition in the DNA sequence. Physicochemical studies of the homogeneous mutant protein have shown that it binds as well as wild type SSB to single-stranded DNA and that it is a slightly better helix-destabilizing protein than wild type SSB as measured by its ability to lower the thermal melting transition of poly[d(
A-T
)]. In vivo studies of ssb-113 strains carrying the cloned ssb-113 gene in pSC101 have shown that overproduction of the mutant protein does not complement the temperature-sensitive conditional lethality caused by the ssb-113 mutation when present in single gene copy in contrast to effects recently observed in ssb-1 strains overproducing the ssb-1 encoded protein (Chase, J. W., Murphy, J. B., Whittier, R. F., Lorensen, E., and Sninsky, J. J. (1983) J.
Mol
. Biol. 164, 193-211). Also noted in this report are two corrections to the DNA sequence of wild type SSB, one of which places glycine (codon GGC) at residue 133 rather than serine as previously reported (Sancar, A., Williams, K. R., Chase, J. W., and Rupp, W. D. (1981) Proc. Natl. Acad. Sci. U.S.A. 78, 4274-4278). The second correction to the DNA sequence is in the serine 39 codon, previously reported to be TCA and now correctly shown to be TCC.
...
PMID:Characterization of the Escherichia coli SSB-113 mutant single-stranded DNA-binding protein. Cloning of the gene, DNA and protein sequence analysis, high pressure liquid chromatography peptide mapping, and DNA-binding studies. 636 9
The ssb-1 gene encoding a mutant single-stranded DNA binding protein (SSB-1) has been cloned into a vector placing its expression under lambda pL regulation. This construction results in more than 100-fold increased expression of the mutant protein following temperature induction. Tryptic peptide analysis of the mutant protein by high-pressure liquid chromatography and solid-phase protein sequencing has shown that the ssb-1 mutation results in these substitution of tyrosine for histidine at residue 55 of SSB. This change could only occur in one step by a C----T transition in the DNA sequence which has been confirmed. Physicochemical studies of the homogeneous mutant protein have shown that in contrast to that of the wild-type SSB, the tetrameric structure of SSB-1 is unstable and gradually dissociates to monomer as the protein concentration is decreased from about 10 microM to less than 0.5 microM. The SSB-1 tetramer appears to be stable to elevated temperature (45 degrees C) but the monomer is not. We estimate the normal cellular concentration of SSB-1 (single chromosomal gene) to be 0.5-1 microM. Thus, there is a plausible physical explanation for our previous finding that increased expression of ssb-1 reverses the effects of a single gene (chromosomal) copy amount of SSB-1 (Chase, J.W., Murphy, J.B., Whittier, R.F., Lorensen, E., and Sninsky, J.J. (1983) J.
Mol
. Biol. 164, 193-211). However, even though the in vivo effects of ssb-1 and most of the in vitro defects of SSB-1 protein are reversed simply by increasing SSB-1 protein concentration, the mutant protein is not as effective a helix-destabilizing protein as wild-type SSB as measured by its ability to lower the thermal melting transition of poly[d-(
A-T
)].
...
PMID:Characterization of the structural and functional defect in the Escherichia coli single-stranded DNA binding protein encoded by the ssb-1 mutant gene. Expression of the ssb-1 gene under lambda pL regulation. 638 14
The mutagenic repair of psoralen damage was examined by transforming Escherichia coli with psoralen-treated pBR322. Plasmid DNA randomly reacted with psoralen was repaired only when the E. coli was uvrA+ and recA+, and only when the cells were pre-irradiated with far-ultraviolet light. The recA dependence and requirement for pre-irradiation are characteristics of SOS repair. Psoralens were placed specifically near the BamHI site, in the tetracycline-resistance gene of pBR322, using a sulfhydryl-containing psoralen derivative. Repair of this damage also required pre-irradiation of the host cells. This repair was accompanied by a 4% frequency of mutagenesis to a tetracycline-sensitive phenotype. Sequence analysis of these mutant plasmids revealed that 75% had mutations within the targeted region, while 25% had no sequence changes within 100 bases of the BamHI site. In up to five independent isolates only one kind of mutation was observed at each site, suggesting that mutagenic SOS repair is influenced by DNA structure at the site of the psoralen. Most mutations were transitions, primarily G-C to
A-T
changes. Some transitions occurred at sites where psoralen crosslinks could not have formed, and these may have arisen from the repair of psoralen monoadducts.
J
Mol
Biol 1984 Sep 25
PMID:Mutagenic SOS repair of site-specific psoralen damage in plasmid pBR322. 638 53
We have identified the gene for a major component of the prohead core of bacteriophage T4, the 17K protein. The gene, which we call gene 68, lies between genes 67 and 21 in the major cluster of T4 head genes. All of the genes in this region of the T4 genome have overlapping initiation and termination codons with the sequence T-A-
A-T
-G. We present the DNA sequence of the gene and show that it codes for a protein containing 141 amino acids with an acidic amino-terminal half and a basic carboxyl terminus. Antibodies prepared against the 17K protein were used to show that it is cleaved by the phage-coded gp21 protease during head maturation and that most of the protein leaves the head after cleavage. A frameshift mutation of the gene was constructed in vitro and recombined back into the phage genome. The mutated phages had a drastically reduced burst size and about half of the particles produced were morphologically abnormal, having isometric rather than prolate heads. Thus, the 17K protein is involved in head shape determination but is only semi-essential for T4 growth.
J
Mol
Biol 1984 Nov 05
PMID:Gene 68, a new bacteriophage T4 gene which codes for the 17K prohead core protein is involved in head size determination. 651 58
We have determined the nucleotide sequence of sea urchin (Lytechinus pictus) late stage H3 and H4 histone genes contained on the clone pLpH3H4 -21 and of the early stage H3 gene contained on the plasmid pLpA . Comparison of these differentially regulated histone genes with each other and with other L. pictus late and early stage histone H3 and H4 genes previously sequenced confirms that members of each histone gene family (early and late) are more homologous to each other than they are to members of other histone gene families. The spacer regions between two late H3-H4 gene pairs on the clones pLpH3H4 -19 and pLpH3H4 -21 have diverged to the point where they are no longer homologous. However, comparative analysis of the 5' flanking DNA has identified a sequence 5'C-T-C-
A-T
-G-T-
A-T
-T3' upstream of both late H4 genes and another, 5'A-G-
A-T
-T-C-A3', upstream of both H3 genes. Except for a short conserved sequence near the initiation codon, the transcribed 5' leaders of the late mRNAs differ in length and sequence in the two non-allelic late histone gene pairs. This divergence contrasts with the 95 to 96% conservation found between late histone gene coding sequences. The results suggest that there is intergenic exchange in the germline among members of the late histone gene family and that the unit of exchange is the individual gene rather than the heterotypic dimer which includes the common spacer DNA.
J
Mol
Biol 1984 Apr 25
PMID:Sequence comparisons of non-allelic late histone genes and their early stage counterparts. Evidence for gene conversion within the sea urchin late stage gene family. 658 17
Helix-destabilization of double-stranded poly[d(
A-T
)]induced by various homologous pancreatic ribonucleases which differ in their net charges has been studied under different ionic strength conditions. The response of the destabilizing activity of the various proteins to ionic strength is represented by bell-shaped curves, whose maxima are shifted to higher ionic strength values the higher the number of positive charges of the RNAase involved in the nucleic acid-protein complex. This observation is discussed, and a model proposed, that could explain the experimental results presented.
Mol
Cell Biochem 1983
PMID:Influence of protein net charge on the nucleic acid helix-destabilizing activity of various pancreatic ribonucleases. 668 23
The stabilitye and dynamics of the duplex d(T-
A-T
-T-A-A--T-
A-T
-C-A-A-G-T-T-G) . d(C-A-A-C-T-T-G-
A-T
-
A-T
-T-A-
A-T
-A) has been studied by means of ultraviolet-melting, temperature-jump relaxation kinetics, stopped-flow and NMR spectroscopy. In addition, the influence of the mismatches A . A, G . T, A .C and T . C,-incorporated in this double helix through the introduction of non-complementary bases in the second strand, on these parameters has been investigated. The thermodynamic parameters characterizing the melting of the duplexes have been determined. Interestingly, a substantial decrease was observed for the values of the melting enthalpy when proceeding from 0.015 M to 0.1 M NaCl solutions. All duplexes that contain mismatches have melting temperatures below that of the totally complementary double helix. On the basis of NMR experiments and differences in the free enthalpy values between the totally complementary double helix and the duplexes with mismatches, it could be concluded that some degree of stacking of the two mispaired bases between the neighbouring base pairs is maintained. At 1 M NaCl the enthalpy and entropy of the helix-to-coil transition of the totally complementary double helix are in good agreement with values calculated on the basis of the thermodynamic data of Borer et al. [Borer, Ph. N., Dengler, B. & Tinoco, I. (1974) J.
Mol
. Biol. 86, 843--853] which were derived for RNA. The kinetics of the complementary duplex and duplexes with G . T and A . C mismatches were studied by means of stopped-flow and temperature-jump techniques. The rate constants of formation are the same for the three double helices. The decrease in stability of the duplexes with mismatches is therefore entirely due to an increase of the dissociation constant. In temperature-jump experiments very often a fast relaxation process is observed in addition to the relaxation characterizing the disruption of the double helix. This fast relaxation process is customarily attributed to base destacking in the single helix. By combining temperature-jump relaxation kinetics with NMR melting experiments, it is shown that at the low temperature side of the melting transition this fast relaxation process is caused by rapid changes in the double-helical structure.
...
PMID:The effect of single base-pair mismatches on the duplex stability of d(T-A-T-T-A-A-T-A-T-C-A-A-G-T-T-G) . d(C-A-A-C-T-T-G-A-T-A-T-T-A-A-T-A). 669 6
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