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The 31P chemical shifts of all 13 phosphates and the chemical shifts of nearly all of the non-exchangeable protons of a symmetrical 14 base pair lac pseudooperator DNA fragment have been assigned by regiospecific labeling with oxygen-17 and two-dimensional NMR techniques. At 22 degrees C, 8 of the 13 phosphorus resonances can distinctly be resolved while the remaining 5 resonances occur in two separate overlapping regions. The 31P chemical shifts of this particular 14 base pair oligonucleotide do not follow the general observation that the more internal the phosphate is located within the oligonucleotide sequence the more upfield the 31P resonance occurs, as shown from other 31P assignment studies. Failure of this general rule is believed to be a result of helical distortions that occur along the oligonucleotide double helix, on the basis of the analysis of Callidine [Callidine, C.R. (1982) J. Mol. Biol. 161, 343-352]. Notable exceptions to the phosphate position relationship are 5'-Py-Pu-3' dinucleotide sequences, which resonate at a lower field strength than expected in agreement with similar results as reported by Ott and Eckstein [Ott, J., & Eckstein, F. (1985) Biochemistry 24, 253]. A reasonable correlation exists between 31P chemical shifts values of the 14-mer and the helical twist sum function of Calladine. The most unusual 31P resonance occurs most upfield in the 31P spectrum, which has been assigned to the second phosphate position (5'-GpT-3') from the 5' end. This unusual chemical shift may be the result of the predicted large helical twist angle that occurs at this position in the 14-mer sequence. Further, it is believed that the large helical twist represents a unique structural feature responsible for optimum binding contact between lac repressor protein and this 14-mer lac pseudooperator segment. Assignments of proton resonances were made from two-dimensional 1H-1H nuclear Overhauser effect (NOESY) connectivities in a sequential manner applicable to right-handed B-DNA, in conjunction with two-dimensional homonuclear and heteronuclear J-correlated spectroscopies (1H-1H COSY and 31P-1H HETCOR). Most nonexchangeable base proton and deoxyribose proton (except for some unresolved H4', H5', and H5" protons) resonances were assigned.
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PMID:Assignment of phosphorus-31 and nonexchangeable proton resonances in a symmetrical 14 base pair lac pseudooperator DNA fragment. 282 Apr 76

Using proton relaxation and magnetization transfer from water we have measured the imino proton exchange kinetics in two dodecadeoxynucleotide duplexes. One is formed by the self-complementary sequence 5'-d(C-C-T-T-T-C-G-A-A-A-G-G), the other by the inverse sequence. The imino proton exchange rates are found to depend on the concentration of ammonia or imidazole, acting as basic catalysts of proton exchange. Extrapolation of exchange times to infinite catalyst concentration yields the base-pair lifetimes, for instance 40 milliseconds for the central G.C base-pair of the 5'-d(C-C-T-T-T-C-G-A-A-A-G-G) duplex and four milliseconds for its A.T neighbour, at 15 degrees C. These results differ markedly from those reported by other laboratories for similar deoxy compounds. An explanation of the discrepancy has been proposed recently. Differences between base-pair lifetimes indicate that opening is not co-operative. From the catalyst efficiency relative to exchange from isolated nucleosides, we estimate the dissociation constant of each base-pair, e.g. 0.3 x 10(-6) and 1.5 x 10(-5) at 15 degrees C, for the same G.C and A.T base-pairs. The lifetime and dissociation constant of corresponding base-pairs of the two duplexes are similar, except for the central G.C base-pair. This correlates with differences in the solution structures reported by others. We have completed the assignments of the imino protons and of the six cytosine amino protons of the 5'-d(G-G-A-A-A-G-C-T-T-T-C-C) 12-mer. A new base-pair numbering scheme is proposed.
J Mol Biol 1987 Aug 05
PMID:Proton exchange and base-pair lifetimes in a deoxy-duplex containing a purine-pyrimidine step and in the duplex of inverse sequence. 282 87

The sequences of two minicircles from the kinetoplast DNA of the CL strain and one of the Y strain of Trypanosoma cruzi are reported. These 1.4 kb molecules have a peculiar sequence organization, the most distinctive feature being the occurrence of a 120 bp sequence repeated four times, located at 0, 90, 180 and 270 degrees along each circle. We have termed these conserved regions in this species 'minirepeats'. Minirepeats have a 3-fold higher concentration of cytosine residues in comparison with the variable regions and contain the universal 12-mer motif GGGGTTGGTGTA present in all sequenced minicircles and which was shown to be involved in DNA replication. A consensus sequence of T. cruzi minirepeats was determined using the 20 minirepeats present in five known T. cruzi minicircle sequences. This consensus sequence contains regions which have been remarkably well preserved in strains which show great biological diversity. In addition a low level of intraminicircle sequence similarity was also observed within the variable region, but this similarity did not extend between strains. The abundance of conserved minirepeat sequences containing invariant restriction sites in T. cruzi cells may prove valuable for the development of new direct diagnostic methods for Chagas' disease based on DNA probe technology.
Mol Biochem Parasitol 1988 Jan 01
PMID:Peculiar sequence organization of kinetoplast DNA minicircles from Trypanosoma cruzi. 283 May 9

Using nuclear magnetic resonance line broadening, longitudinal relaxation and magnetization transfer from water, we have measured the imino proton exchange times in the duplex form of the 10-mer d-CGCGATCGCG and in seven other deoxy-duplexes, as a function of the concentration of exchange catalysts, principally ammonia. All exchange times are catalyst dependent. Base-pair lifetimes are obtained by extrapolation to infinite concentration of ammonia. Lifetimes of internal base-pairs are in the range of milliseconds at 35 degrees C and ten times more at 0 degrees C. Lifetimes of neighboring pairs are different, hence base-pairs open one at a time. Lifetimes of d(G.C) are about three times longer than those of d(A.T). The nature of neighbors usually has little effect, but lifetime anomalies that may be related to sequence and/or structure have been observed. In contrast, there is no anomaly in the A.T base-pair lifetimes of d-CGCGA[TA]5TCGCG, a model duplex of poly[d(A-T)].poly[d(A-T)]. The d(A.T) lifetimes are comparable to those of r(A.U) that we reported previously. End effects on base-pair lifetimes are limited to two base-pairs. The low efficiency of exchange catalysts is ascribed to the small dissociation constant of the deoxy base-pairs, and helps to explain why exchange catalysis had been overlooked in the past. This resulted in a hundredfold overestimation of base-pair lifetimes. Cytosine amino proteins have been studied in the duplex of d-CGm5CGCG. Exchange from the closed base-pair is indicated. Hence, the use of an amino exchange rate to evaluate the base-pair dissociation constant would result in erroneous, overestimated values. Catalyzed imino proton exchange is at this time the safest and most powerful, if not the only probe of base-pair kinetics. We propose that the single base-pair opening event characterized here may be the only mode of base-pair disruption, at temperatures well below the melting transition.
J Mol Biol 1988 Mar 20
PMID:Characterization of base-pair opening in deoxynucleotide duplexes using catalyzed exchange of the imino proton. 283 94

Structural features of pyrimidine.pyrimidine mismatches in the interior of oligonucleotide duplexes have been investigated by high resolution two-dimensional proton nuclear magnetic resonance (n.m.r.) spectroscopy. These studies were conducted on the self-complementary d(C-G-C-T-A-G-C-T-T-G-C-G) duplex (designated T.T 12-mer) and the self-complementary d(C-G-C-C-A-G-C-T-C-G-C-G) duplex (designated C.C 12-mer) containing T.T and C.C pairs located at identical positions four base-pairs from either end of the duplex. Proton n.m.r. studies on the T.T 12-mer duplex were undertaken in the neutral pH range, while studies on the C.C 12-mer duplex were recorded at acidic pH. The proton spectra narrowed considerably on lowering the pH below neutrality for the C.C 12-mer duplex. Two-dimensional nuclear Overhauser enhancement spectroscopy (NOESY) data sets have been recorded on the T.T 12-mer and C.C 12-mer duplexes in high salt H2O and D2O solution. The magnitude of the NOE crosspeaks and the directionality of the NOE connectivities demonstrate that both duplexes are right-handed with all bases, including those at the mismatch site, adopting an anti configuration about the glycosidic bond. The observed base and sugar proton chemical shifts suggest structural similarities for the trinucleotide segments centered about the T.T and C.C mismatches. A NOE is detected between the resolved imino protons of T4 and T9 at the mismatch site, consistent with formation of a stacked "wobble" T4(anti).T9(anti) pair in the T.T 12-mer duplex. A comparison of the imino proton chemical shift and NOE data suggests that the imino-carbonyl hydrogen bonds in the wobble T.T mismatch are weaker than the corresponding imino-carbonyl hydrogen bonds in the wobble G.T mismatch. The 4-amino protons of C4 and C9 at the mismatch site in the C.C 12-mer duplex do not exhibit the pattern of hydrogen-bonded and exposed protons separated by approximately 1.5 parts per million characteristic of cytidine amino protons involved in Watson-Crick G.C pairing. The experimental data are insufficient to differentiate between wobble C(anti).C+(anti) and other pairing possibilities for the mismatch in the C.C 12-mer duplex at acidic pH.
J Mol Biol 1988 Jul 05
PMID:Pyrimidine.pyrimidine base-pair mismatches in DNA. A nuclear magnetic resonance study of T.T pairing at neutral pH and C.C pairing at acidic pH in dodecanucleotide duplexes. 284 94

This study examines the immediate and longer-term changes in angiotensinogen mRNA and in plasma angiotensinogen which follow the withdrawal and replacement of glucocorticoids or thyroxine. RNA from rat liver was analysed by Northern blot and dot-blot hybridization with a 40-mer oligodeoxynucleotide probe specific for angiotensinogen mRNA. Adrenalectomy decreased plasma angiotensinogen and angiotensinogen mRNA to 55 and 50% of control values respectively over a period of 16 days. Similar decreases were obtained after propylthiouracil (1 mg/kg for 16 days) treatment, except when injected simultaneously with T3 (3 micrograms/kg/day). Over the same period plasma renin activity increased in adrenalectomized rats from 4.1 +/- 0.8 to 7.0 +/- 1.5 pmol angiotensin I (AI)/ml/h, and decreased in propylthiouracil-treated rats from 3.8 +/- 0.4 to 1.6 +/- 0.4 pmol AI/ml/h. Approximate half-times of 2-3 days were calculated for both plasma angiotensinogen and angiotensinogen mRNA post-adrenalectomy or after propylthiouracil treatment. Dexamethasone (400 micrograms/kg, i.m.) given to intact rats rapidly increased angiotensinogen mRNA to a maximum of 250% of control by 8 h and with a half-maximal response of 2.8 h. Plasma angiotensinogen responded similarly, apart from an initial delay of 2 h. Treatment with different doses of propylthiouracil and dexamethasone showed that responses were dose-related. We conclude that changes in plasma angiotensinogen and angiotensinogen mRNA are closely correlated, and that under various physiological circumstances angiotensinogen mRNA has a rapid rate of accumulation but a slow rate of decay.
Mol Cell Endocrinol 1989 Feb
PMID:Regulation of liver angiotensinogen mRNA by glucocorticoids and thyroxine. 291 84

Sequences that comprise the 244-base-pair polyomavirus enhancer region are also required in cis for viral DNA replication (Tyndall et al., Nucleic Acids Res. 9:6231-6250, 1981). We have studied the relationship between the sequences that activate replication and those that enhance transcription in two ways. One approach, recently described by de Villiers et al. (Nature [London], 312:242-246, 1984), in which the polyomavirus enhancer region was replaced with other viral or cellular transcriptional enhancers suggested that an enhancer function is required for polyomavirus DNA replication. The other approach, described in this paper, was to analyze a series of deletion mutants that functionally dissect the enhancer region and enabled us to localize four sequence elements in this region that are involved in the activation of replication. These elements, which have little sequence homology, are functionally redundant. Element A (nucleotides 5108 through 5130) was synthesized as a 26-mer with XhoI sticky ends, and one or more copies were introduced into a plasmid containing the origin of replication, but lacking the enhancer region. Whereas one copy of the 26-mer activated replication only to 2 to 5% of the wild-type level, two copies inserted in either orientation completely restored replication. We found that multiple copies of the 26-mer were also active as a transcriptional enhancer by measuring the beta-globin mRNA levels expressed from a plasmid that contained either the polyomavirus enhancer or one or more copies of the 26-mer inserted in a site 3' to the beta-globin gene. We observed a correlation between the number of inserted 26-mers and the level of beta-globin RNA expression.
Mol Cell Biol 1985 Apr
PMID:Polyomavirus enhancer contains multiple redundant sequence elements that activate both DNA replication and gene expression. 298 64

We have constructed a series of transposon delivery vectors derived from pRK2013. Since pRK2013 has a broad host range transfer system and a ColE1 replicon, it can be transferred to, but not replicated in, many non-enteric gram-negative bacteria. Thus pRK2013 provides an effective mechanism for the transient introduction of a transposon. Delivery vectors containing Tn7 (tmp str), Tn10 (tet), Tn10 HH104 (tet), or Tn5-132 (tet) have been constructed. When transposition in Caulobacter crescentus was examined, both Tn7 and Tn5-132 were found to transpose efficiently. In contrast, although the antibiotic resistances of Tn10 and Tn501 (mer) were expressed in C. crescentus, no transposition was observed with either transposon. However, transposition of Tn10 from the Tn10 vectors did occur in Acinetobacter calcoaceticus, and transposition of Tn501 from pMD100 has been demonstrated in Rhizobium japonicum (Bullerjahn and Benzinger 1984). Thus, transposon-host interactions play an important role in the determination of whether a particular transposon can transpose in a given host. Furthermore, the results with C. crescentus indicate that there must be different requirements for host interactions for Tn10 and Tn501 than for Tn5 and Tn7.
Mol Gen Genet 1985
PMID:Vectors for transposon mutagenesis of non-enteric bacteria. 299 23

The Escherichia coli HU-1 was cloned by use of mixed synthetic oligonucleotides (17-mer) predicted from a portion of its amino acid sequence. The amino acid sequence of the HU-1 protein deduced from the nucleotide sequence is in good agreement with the published sequence. The nucleotide sequence has a possible promoter and a typical ribosomal binding site upstream from the translational initiation codon (GUG) of the HU-1 gene.
Mol Gen Genet 1985
PMID:Molecular cloning and nucleotide sequence of the HU-1 gene of Escherichia coli. 300 40

The DNA sequences of the mercuric resistance determinants of plasmid R100 and transposon Tn501 distal to the gene (merA) coding for mercuric reductase have been determined. These 1.4 kilobase (kb) regions show 79% identity in their nucleotide sequence, and in both sequences two common potential coding sequences have been identified. In R100, the end of the homologous sequence is disrupted by an 11.2 kb segment of DNA which encodes the sulfonamide and streptomycin resistance determinants of Tn21. This insert contains terminal inverted repeat sequences and is flanked by a 5 base pair (bp) direct repeat. The first of the common potential coding sequences is likely to be that of the merD gene. Induction experiments and mercury volatilization studies demonstrate an enhancing but non-essential role for these merA-distal coding sequences in mercury resistance and volatilization. The potential coding sequences have predicted codon usages similar to those found in other Tn501 and R100 mer genes.
Mol Gen Genet 1986 Jan
PMID:The nucleotide sequence of the mercuric resistance operons of plasmid R100 and transposon Tn501: further evidence for mer genes which enhance the activity of the mercuric ion detoxification system. 300 31

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