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Query: UNIPROT:P06889 (
Mol
)
630,302
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have investigated the nonspecific interactions of Escherichia coli RNA polymerase core and holoenzyme with double-stranded (ds) and single-stranded (ss) DNA. Binding constants for these interactions as functions of such solution variables as monovalent and/or divalent cation concentration, temperature, or pH were determined by the method of deHaseth et a. [deHaseth, P.L., Gross, C.A., Burgess, R.R. and Record, M.T. (1977), Biochemistry 16, 4777--4783] from analysis of the elution of the proteins from small columns containing immobilized DNA. This technique, although as yet empirical, has been demonstrated to yield accurate binding constants fot the nonspecific interation of lac repressor with ds DNA. We find that observed binding constants (Kobsd) are extraordinarily sensitive functions of the monovalent cation concentration for the interactions of both core and holoenzyme with ds DNA. In the absence of divalent cations, the derivatives --(d log Kobsd/d log [Na+]) are 11 +/- 2 for the holo--ds DNA interaction and 21 +/- 3 for the core--ds DNA interaction. Consequently, approximately 11 and 21 low-molecular-weight ions are released, iin the thermodynamic sense, in the formation of the holo--ds and core--ds complexes, respectively (Record, M.T., Jr., Lohman, T.M., and deHaseth, P.L. (1976), J.
Mol
. Biol. 107, 145--158; Record, M.T., Jr., Anderson, C.F., and Lohman, T.M. (1978), Q. Rev. Biophys., in press). Ion release is a thermodynamic driving force for these nonspecific interactions and causes the stability of the complexes to increase very substantially with a reduction in monovalent ion concnetration. Possible molecular models which account for the different salt sensitivities of the holo--ds and core--ds complexes are discussed. Effects of the competitive ligand Mg2+ on these interactions are also examined. Substantial ion release (approximately 18 monovalent ions) also accompanies the interaction of either holo or core polymerase with ss DNA. Over the range of ion concentrations investigated the holo--ss interaction is substantially stronger than the core--ss interaction; furthermore, we conclude that the interactions of polymerase with ss DNA are, in general, stronger than the nonspecific interations of the enzyme with ds DNA. It is likely that the nonspecific interactions of RNA polymerase with DNA have physiological relevance. Not only is it plausible to assume that the same regions of the protein are involved in both specific and nonspecific interactions, but in addition nonspecific interactions of RNA polymerase and DNA may play role in determining the availability of this protein, in both the thermodynamic and the kinetic sense, for promoter binding and RNA chain initiation [von
Hippel
. P.H., Revzin, A., Gross, C.A., and Wang, A.C. (1974), Proc. Natl. Acad. Sci U.S.A. 71, 4808--4812]. Consequently, the strong dependences of the nonspecific interactions of RNA polymerase on ionic conditions suggest the possibility of a modulating role of ion concentrations in the control of transcription.
...
PMID:Nonspecific interactions of Escherichia coli RNA polymerase with native and denatured DNA: differences in the binding behavior of core and holoenzyme. 35 Feb 71
An ethidium homodimer and acridine ethidium heterodimer have been synthesized (Gaugain, B., Barbet, J., Oberlin, R., Roques, B. P., & Le Pecq, J. B. (1978) Biochemistry 17 (preceding paper in this issue)). The binding of these molecules to DNA has been studied. We show that these dimers intercalate only one of their chromophores in DNA. At high salt concentration (Na+ greater than 1 M) only a single type of DNA-binding site exists. Binding affinity constants can then be measured directly using the Mc Ghee &
Von Hippel
treatment (Mc Ghee, J. D., &
Von Hippel
, P. H. (1974) J.
Mol
. Biol. 86, 469). In these conditions the dimers cover four base pairs when bound to DNA. Binding affinities have been deduced from competition experiments in 0.2 M Na+ and are in agreement with the extrapolated values determined from direct DNA-binding measurements at high ionic strength. As expected, the intrinsic binding constant of these dimers is considerably larger than the affinity of the monomer (ethidium dimer K = 2 X 10(8) M-1; ethidium bromide K = 1.5 X 10(5) M-1 in 0.2 M Na+). The fluorescence properties of these molecules have also been studied. The efficiency of the energy transfer from the acridine to the phenanthridinium chromophore, in the acridine ethidium heterodimer when bound to DNA, depends on the square of the AT base pair content. The large increase of fluorescence on binding to DNA combined with a high affinity constant for nucleic acid fluorescent probes. In particular, such molecules can be used in competition experiments to determine the DNA binding constant of ligands of high binding affinity such as bifunctional intercalators.
...
PMID:DNA Bifunctional intercalators. 2. Fluorescence properties and DNA binding interaction of an ethidium homodimer and an acridine ethidium heterodimer. 56 95
We have screened cosmids on chromosome 3p for (dC-dA)n.(dG-dT)n dinucleotide-repeat sequences. Eighty-nine of 155 cosmids (58%) contained (dC-dA)n.(dG-dT(n repeats as determined by colony hybridization with a (dG-dT)10 oligonucleotide probe; 29 of these were subcloned and the sequences flanking the dinucleotide repeats were determined. Nineteen of the 24 loci examined for polymorphisms by PCR were found to be polymorphic with heterozygosities ranging from 3% to 86%. These dinucleotide repeat polymorphisms will be useful markers for high-resolution mapping of genes that have been localized to 3p, including tumour suppressor genes associated with several types of cancer and genes responsible for various hereditary disorders, such as von
Hippel
-Lindau disease.
Hum
Mol
Genet 1992 May
PMID:Isolation and characterization of 19 dinucleotide repeat polymorphisms on chromosome 3p. 130 Nov 49
A method using binding site "neighbor-effect" parameters (NEPs) is introduced to evaluate the effects of interaction between adjacent ligands on their binding to an infinite linear lattice. Binding site overlap is also taken into account. This enables the conditional probability approach of McGhee & von
Hippel
to be extended to more complex situations. The general equation for the isotherm is v/LF = SFKF, where v is the ratio of bound ligands to lattice residues, LF is the free ligand concentration, SF is the fraction of binding sites that are free, and KF is the average association constant of a free site. Solutions are derived for three cases: symmetric ligands, and asymmetric ligands on isotropic or anisotropic lattices. For symmetric ligands there is one NEP, E, which is the ratio of the average binding affinity of a free site if the status of the lattice residue neighboring one end of the site is unspecified (left to chance) to the affinity when this residue is free (holding the other neighbor constant). Thus KF is KE2, where K is the affinity of an isolated site. If a site is n residues long, SF is f ffn-1, where f = 1 - nv is the fraction of residues that are free and ff is the conditional probability that a free residue is bordered on a given side by another free residue. The expression for ff is 1/(1 + x/E), where x is v/f, E is (1 - x + [(1 - x)2 + 4x omega]1/2)/2, and omega is the co-operativity parameter. The binding of asymmetric ligands to an isotropic lattice is described by two NEPs; the last case involves four NEPs and a bound ligand orientation parameter. For each case, the expected length distribution of clusters of bound ligands can be calculated as a function of v. When Scatchard plots with the same intercepts and initial slope are compared, it is found that ligand asymmetry lowers the isotherm (relative to the corresponding symmetric ligand isotherm), whereas lattice anisotrophy raises it.
J
Mol
Biol 1992 Feb 20
PMID:Use of binding site neighbor-effect parameters to evaluate the interactions between adjacent ligands on a linear lattice. Effects on ligand-lattice association. 153 90
The rho-dependent transcription terminator tR1 of bacteriophage lambda stops RNA synthesis downstream of the major rightward promoter, PR, shortly after the cro gene. Terminated transcripts produced in a purified in vitro transcription system display a heterodisperse set of 3' termini, occurring in clusters located at +290-300, 308-312, 340-345, 385-390, and 440-450 nucleotides from the transcription start site [Morgan, W.D., Bear, D.G., & von
Hippel
, P.H. (1983) J. Biol. Chem. 258, 9553-9564]. However, transcripts from the same promoter in vivo have been reported to end primarily at +310-312 [Court, D., Brady, C., Rosenberg, M., Wulff, D. L., Behr, M., Mahoney, M., & Izumi, S. (1980) J.
Mol
. Biol. 138, 231-254]. In order to understand the nature of this discrepancy, we have carried out a comparative analysis of lambda PR transcription products produced in translationally active S30 cell extracts, in a purified in vitro system and in vivo. RNAs from the cell extracts coupled to translation show primarily three PR-derived transcripts beginning at one predominant 5' end and terminating at +263, 308, and 318. Sites +263 and +308 appear to be RNA processing sites. S1 nuclease mapping studies of RNAs produced in vivo show one 5' end and two 3' termini ending at +263 and 311; the +263 site is the predominant 3' end. When transcripts produced in a purified in vitro transcription system are incubated in the S30 cell extract under various conditions, the RNAs are degraded to two primary products with lengths of 263 and 308-311 nt.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:3'-end formation at the phage lambda tR1 rho-dependent transcription termination site. 182 93
A bacterial expression system in Escherichia coli has been developed that produces as much as 10 mg/l of culture of the VH protein associated with monoclonal antibodies specific for the 5-dimethylaminonaphthalene-2-sulfonyl (Dns) group. This system has been applied to the expression of the VH genes derived from a low-affinity, IgM-producing hybridoma and from a high-affinity, IgG-producing cell line. The plasmid vectors (contributed by Dr William F. Studier) utilize a T7 expression cassette whose activity is initiated by infection with a lambda phage derivative carrying the T7 RNA polymerase gene. The VH proteins were extracted from the bacterial pellet in 8 M urea and purified by chromatography in 8 M urea. Recombinants with the homologous light (L) chains were prepared to yield
VHL
molecules. These were used to measure intrinsic affinity for Dns-lysine by resonance energy transfer. The association constants were 7 x 10(6) M-1 and 7 x 10(9) M-1 for the low- and high-affinity systems, respectively. These values are not significantly different from those observed with monoclonal antibodies secreted from the corresponding cell lines. This system lends itself to the quantitative evaluation of the binding properties of the VH protein itself as well as the modulation of affinity by site-directed mutagenesis.
Mol
Immunol 1990 Jan
PMID:Bacterial expression of immunoglobulin VH proteins. 210 93
We made use of enhancement of fluorescence anisotropy of protein upon DNA binding to analyze interactions between Ada protein and DNA. Ada protein is a DNA repair enzyme that also acts as a transcription regulator. The isotropic fluorescence was not significantly affected upon interaction with DNA and could not be used as a signal for detection of the binding. The anisotropy did became larger because the binding to DNA reduces diffusion of the protein. The change was reproducible and independent of protein concentration and also independent of the degree of saturation of DNA with the protein when DNA was large; these values can readily be converted to the proportion of the complexed protein. The binding parameters were then determined by direct comparison between experimental and theoretical variations of anisotropy, with increasing concentrations of DNA. The theoretical variations were computed by considering the overlap of potential binding sites on the DNA lattice [McGhee & von
Hippel
(1974) J.
Mol
. Biol. 86, 469-489]. Binding does not seem to occur in a cooperative manner. The number of base pairs covered by a protein monomer was 7 +/- 1; this number is independent of the salt concentration. The equilibrium association constant decreased from 4 X 10(7) to 3 X 10(5) M-1 for an increase of NaCl concentration from 0.1 to 0.2 M, thereby indicating the possible involvement of ionic interactions between phosphate groups of DNA and the protein.
...
PMID:Interaction of Ada protein with DNA examined by fluorescence anisotropy of the protein. 235 46
The binding of 125I- and 14C-caldesmon to actin and actin-tropomyosin was studied using a cosedimentation technique and was analyzed by the method of McGhee and von
Hippel
[1974) J.
Mol
. Biol. 86, 469-489) for the binding of large ligands to a homogeneous lattice. The binding was adequately described by a single class of binding sites with a stoichiometry between 1:7 and 1:10. The binding exhibited a small degree of positive cooperativity (omega = 5-6) which was the same in the presence and absence of tropomyosin. The association constant for the binding of caldesmon to an isolated binding site was enhanced, from about 6 X 10(5) to about 1.4 X 10(6) M-1, by the presence of smooth muscle tropomyosin. Caldesmon inhibited the actin-activated ATPase activity of skeletal myosin subfragment 1 in both the absence and presence of tropomyosin. Maximum inhibition of ATPase activity occurred when one caldesmon molecule bound to seven actin monomers. A greater degree of inhibition was observed in the presence of tropomyosin than in the absence. This greater inhibition cannot be explained totally by the increased strength of binding of caldesmon to actin in the presence of tropomyosin. Finally, Ca2+-calmodulin completely reversed the binding of caldesmon to actin.
...
PMID:The binding of caldesmon to actin and its effect on the ATPase activity of soluble myosin subfragments in the presence and absence of tropomyosin. 252 87
The complex formed between adenovirus DNA-binding protein (AdDBP) and poly(rA) was investigated with circular dichroism spectroscopy. The binding process was studied at a variety of salt concentrations, and the titration curves were analyzed according to the contiguous cooperative binding model given by McGhee and von
Hippel
[McGhee, J.D., & von
Hippel
, P.H. (1974) J.
Mol
. Biol. 86, 469-489]. The cooperativity factor omega of the binding process is low (omega approximately 20-30) and independent of the salt concentration. This in contrast to the binding constant K for which a moderately strong salt dependence is observed: delta log (K omega)/delta log [NaCl] = -3.1. The size of the binding site was consistently calculated to be about 13. We also studied the C-terminal 39-kDa fragment which is sufficient for DNA replication in vitro. Complex formation between this fragment of AdDBP and poly(rA) appeared to be characterized by spectroscopic and binding properties similar to those of the intact protein. Only, the binding constant in 50 mM NaCl is a factor of 5 lower.
...
PMID:Complex formation between the adenovirus DNA-binding protein and single-stranded poly(rA). Cooperativity and salt dependence. 261 Dec 64
There have been many different approaches employed to define the "consensus" sequence of various DNA binding sites and to use the definition obtained to locate and rank members of a given sequence family. The analysis presented here enlists two of these approaches, each in modified form, to develop a highly efficient search protocol for Escherichia coli promoters and to provide a relative ranking of these sites showing good agreement with in vitro measurements of promoter strength. Schneider et al. have applied Shannon's index of information content to evaluate the significance of each position within the consensus of a family of aligned sequences. In a formal sense, this index is only applicable to a group of sequences, providing at each position a negative entropy value between zero (random) and two bits (total conservation of a single base) for sequences in which all bases are equally represented. A method for evaluating how well an individual sequence conforms to the information content pattern of the consensus is described. A function is derived, by analogy to the information content of the sequence family, for application to individual sequences. Since this function is a measure of conformity, it can be used in a search protocol to identify new members of the family represented by the consensus. A protocol for locating E. coli promoters is presented. The Berg-von
Hippel
statistical-mechanical function is also tested in a similar application. While the information content function provides a superior search protocol, the Berg-von
Hippel
function, when scaled at each position by the information content, does well at ranking promoters according to their strength as measured in vitro.
J
Mol
Biol 1989 May 20
PMID:Consensus methods for finding and ranking DNA binding sites. Application to Escherichia coli promoters. 266 73
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