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1.
The interaction of tomaymycin and 8-O-methyltomaymycin with calf thymus DNA was studied by steady-state fluorescence techniques. The 8-phenolic proton of tomaymycin has a pK = 8.0, and the phenolate anion is essentially nonfluorescent. However, the fluorescence of the DNA adduct does not decrease until pH greater than 10.5, when the DNA double helix denatures. Acrylamide quenches the fluorescence of the free antibiotic with a quenching rate constant kq = 7 x 10(9) M-1 s-1. In DNA adducts, the quenching rate constant is reduced about 50-fold, indicating that the aromatic ring of the drug is shielded from the solvent. The four possible binding modes of the antibiotics were modeled on a 6-mer duplex by molecular mechanics calculations in the absence and presence of water and counterions. The modeling studies show that the antibiotic is buried in the minor groove in all binding modes, with the 8-substituent pointing away from the DNA core. Three or five waters are displaced from the minor groove, depending on the orientation of the drug on the DNA.  相似文献   

2.
Tomaymycin is a member of the pyrrolo[1,4]benzodiazepine [P(1,4)B] antitumor antibiotic group. This antibiotic is proposed to react with the exocyclic 2-amino group (N2) of guanine to form a covalent adduct that lies snugly within the minor groove of DNA. While DNA-footprinting experiments using methidiumpropyl-EDTA have revealed the favored bonding sequences for tomaymycin and related drugs on DNA, the stereochemistry at the covalent bonding site (C-11) and orientation in the minor groove were not established by these experiments. In previous studies using a combined fluorescence, high-field NMR, and molecular modeling approach, we have shown that for tomaymycin there are two diastereomeric species (11R and 11S) on both calf thymus DNA and d(ATGCAT)2. Although we were able to infer the identity (stereochemistry at C-11 and orientation in the minor groove) of the two species on d(ATGCAT)2 by high-field NMR and fluorescence studies, in combination with molecular mechanics calculations, definitive experimental evidence was lacking. We have designed and synthesized a self-complementary 12-mer [d(CICGAATTCICG)2] based on the Dickerson dodecamer [d(CGCGAATTCGCG)2] that bonds identically two tomaymycin molecules, each having a defined orientation and stereochemistry. Thus the bis(tomaymycin)-12-mer adduct maintains the self-complementarity of the original duplex molecule. Two-dimensional proton J-correlated spectroscopy (COSY) of the bis(tomaymycin)-d(CICGAATTCICG)2 adduct (I = inosine) unequivocally shows that C-11 of tomaymycin covalently bonds through N2 of guanine with an 11S stereochemistry in the sequence 5'-CGA-3'.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

3.
Tomaymycin is an antibiotic belonging to the pyrrolo[1,4]benzodiazepine group of antitumor compounds. Previous studies have shown that tomaymycin and other members of this group, which include anthramycin, sibiromycin, and the neothramycins, bind covalently through N-2 of guanine and lie within the minor groove of DNA. Two fluorescent ground-state species of tomaymycin were observed in protic solvents and on DNA. 1H NMR studies showed that the two fluorescent species in methanol are the 11R,11aS and 11S,11aS diastereomeric 11-methyl ethers of tomaymycin. On the basis of epimerization experiments and exchange of carbon-13 from 13CH3OH into the C-11 methoxy group of the tomaymycin methyl ether, a mechanism is proposed for their interconversion via 10,11-anhydrotomaymycin. Coupling information revealed that the solution conformations of the two diastereomers differ, with the C-5 carbonyl lying closer to the plane of the aromatic ring in the 11R,11aS diastereomer. The fluorescence excitation and emission spectra of the two emitting species in methanol were separated by time-resolved fluorescence spectroscopy and were associated with the diastereomeric forms identified by 1H NMR. Time-resolved fluorescence studies of tomaymycin in protic solvents and on DNA indicated that the absorption spectrum of the longer lifetime component (11R,11aS form) is red-shifted relative to the absorption spectrum of the shorter lifetime component (11S,11aS form), consistent with more extensive conjugation. The two conformational forms of tomaymycin on DNA were tentatively identified as the 11S,11aS and 11R,11aS diastereomeric adducts, which bind in opposite orientations in the minor groove. This proposal is supported by molecular modeling studies using a 6-mer duplex adduct of d(ATGCAT)2.  相似文献   

4.
DNA covalent binding studies with enantiomers of trans-7,8-dihydroxy- anti-9,10-epoxy-7,8,9,10-tetrahydro-benzo[a]pyrene (anti-BPDE) have been carried out by means of spectroscopic techniques (UV, CD, and fluorescence). Synthetic polynucleotides are employed to investigate binding differences between the G.C and A.T base pairs and to elucidate the bases for the stereoselective covalent binding of DNA toward anti-BPDE. The results indicate that of all the polynucleotides studied, only poly(dA-dT).poly(dA-dT) exhibits predominant intercalative covalent binding towards (+)-anti-BPDE and suffers the least covalent modification. Only minor intercalative covalent contributions are found in alternating polymer poly(dA-dC).poly(dG-dT). These observations parallel the DNA physical binding results of anti-BPDE and its hydrolysis products. They support the hypothesis that intercalative covalent adducts derive from intercalative physical binding while the external covalent adducts derive from external bimolecular associations. In contrast to the A.T polymers, the guanine containing polymers exhibit pronounced reduction in covalent modification by (-)-anti-BPDE. The intercalative covalent binding mode becomes relatively more important in the adducts formed by the (-) enantiomer as a consequence of decreased external guanine binding. These findings are consistent with the guanine specificity, stereoselective covalent binding at dG, the absence of stereoselectivity at dA for anti-BPDE, and the enhanced binding heterogeneity for the (-) enantiomer as found in the native DNA studies. The possible sequence and/or conformational dependence of such stereoselective covalent binding is indicated by the opposite pyrenyl CD sign exhibited by (+)-anti-BPDE bound to polynucleotides with pyrimidine on one strand and purine on another vs. that bound to polymers containing alternating purine-pyrimidine sequences.  相似文献   

5.
6.
F M Chen 《Nucleic acids research》1983,11(20):7231-7250
Solubilization as well as spectral studies of pyrene in natural DNA and synthetic deoxypolynucleotide solutions at neutral pH reveal at least two binding modes. Sites I are predominant in native DNA and in poly(dA-dT): poly(dA-dT) whereas sites II are found with denatured DNA and other polynucleotides such as poly(dA):poly(dT) and three different types of guanine containing copolymers which solubilize pyrene to a lesser extent. Spectral comparison with the covalent adducts of trans-7,8-dihydroxy-anti-9,10-epoxy-7,8,9,10- tetrahydro-benzo(a)pyrene (anti-BPDE) and the physical complexes of its tetraols lead to the suggestion of a base sequence specific binding model for this carcinogenic metabolite to account for the puzzling fact that although its physical binding is predominantly intercalative, the covalent adducts appear not to be intercalated. It is speculated that in neutral solutions, intercalation may have little, if any, to do with the chemical lesion of this metabolite to the guanine base of the DNA and may, on the contrary, provide an efficient pathway for detoxification.  相似文献   

7.
Abstract

DNA covalent binding studies with enantiomers of trans-7,8-dihydroxy- anti-9,10-epoxy- 7,8,9,10-tetrahydro-benzo [a] pyrene (anti-BPDE) have been carried out by means of spectroscopic techniques (UV, CD, and fluorescence). Synthetic polynucleotides are employed to investigate binding differences between the G · C and A · T base pairs and to elucidate the bases for the stereoselective covalent binding of DNA toward anti-BPDE. The results indicate that of all the polynucleotides studied, only poly(dA-dT) · poly(dA-dT) exhibits predominant intercalative covalent binding towards (+)-anti-BPDE and suffers the least covalent modification. Only minor intercalative covalent contributions are found in alternating polymer poly(dA-dC) · poly(dG-dT). These observations parallel the DNA physical binding results of anti-BPDE and its hydrolysis products. They support the hypothesis that intercalative covalent adducts derive from intercalative physical binding while the external covalent adducts derive from external bimolecular associations. In contrast to the A · T polymers, the guanine containing polymers exhibit pronounced reduction in covalent modification by (-)-anti-BPDE. The intercalative covalent binding mode becomes relatively more important in the adducts formed by the (-) enantiomer as a consequence of decreased external guanine binding. These findings are consistent with the guanine specificity, stereoselective covalent binding at dG, the absence of stereoselectivity at dA for anti-BPDE, and the enhanced binding heterogeneity for the (-) enantiomer as found in the native DNA studies. The possible sequence and/or conformational dependence of such stereoselective covalent binding is indicated by the opposite pyrenyl CD sign exhibited by (+)-anti-BPDE bound to polynucleotides with pyrimidine on one strand and purine on another vs. that bound to polymers containing alternating purine-pyrimidine sequences.  相似文献   

8.
The study of the interactions in the ground state between 4,5′-dimethylangelicin, an angular furocoumarin, and various synthetic and natural DNA samples have evidenced the presence in the macromolecule of preferred sequences suitable for binding the small ligand. They are represented by an alternate sequence of purine and pyrimidine bases in each strand of the macromolecule, without difference between the two base pairs A-T and C-G.The study of the photochemical interactions between the same DNA samples and the 4,5′-dimethylangelicin shows that preferred sites are present in the macromolecule for the covalent addition of the furocoumarin to the macromolecule too. These sites however have more strict requirements than those useful for dark binding; they are in fact represented by alternate sequences of A-T in each strand such as those present in poly[d(A-T)] · poly[d(A-T)].Moreover fluorescence studies made on the same DNA samples irradiated in the presence of the furocoumarin suggest that the alternate C-G regions favour formation of 4′,5′-fluorescent adducts.  相似文献   

9.
Fluorescence of (+)-anti-benzo(a)pyrene diol epoxide [(+)-anti-BPDE] covalently bound to poly(dG-dC) has been studied with steady-state and time-resolved techniques. Extensive formation of excimers is found, even at small (0.008) BPDE/nucleotide ratios. This indicates favored covalent binding to bases close to already modified guanines. Both fluorescence excitation spectra and lifetime measurements reveal two populations of (+)-anti-BPDE adducts: one that can form excimers and one that cannot. Three excimer lifetimes (4.5, 29, and 83 ns) are observed. Differently shifted monomer and excimer excitation spectra are discussed in terms of pyrene-pyrene exciton interactions, consistent with a distance shorter than 7 A between the excimer-forming BPDE chromophores.  相似文献   

10.
Time-resolved fluorescence studies have been performed on (+)-anti-7,8-dihydrodiol-9,10-epoxybenzo[a]pyrene adducts in double-stranded poly(dG-dC).(dG-dC). Part of the adduct population gives rise to excimer fluorescence. The heterogeneous fluorescence emission decay curves at 22 degrees C could be resolved into three components with lifetimes: 0.4 ns, 3 ns and 24 ns for the total fluorescence (monomer and excimer emission), and 0.5 ns, 5 ns and 24 ns, respectively, for excimer emission alone. The relative amplitudes for the longer lifetimes were larger for the pure excimer population than for the mixed population. The fluorescence polarization anisotropy decay curves were resolved into two components of rotational correlation times: 0.4 ns and 25 ns for the total fluorescence and 0.3 ns and 33 ns for the excimer fluorescence. We interpret the two rotational correlation times to correspond to local motion of the adduct and segmental motion of the polynucleotide, respectively.  相似文献   

11.
The noncovalent interaction of 2-aminodipyrido[1,2-a:3',2'-d]imidazole (Glu-P-2) and its derivatives, which are potent mutagens isolated from L-glutamic acid pyrolysate, with calf thymus DNA was studied by steady-state and nanosecond fluorescence spectroscopies. The fluorescence of these compounds exhibits static quenching by noncovalent interaction with DNA. Fluorescence lifetimes of the free and intercalated states of these compounds were determined to be 9-10 and 0.5-1 ns, respectively. The bisintercalative effect of the dimeric analogue of Glu-P-2, bis(Glu-P-2)spermine (2GP-SP), to DNA was also investigated. This 2GP-SP, which has two Glu-P-2 moieties at each end of spermine, indicates a strong intramolecular interaction exhibiting remarkable quenching of fluorescence spectrum and lifetime (tau = 3.5 ns) in the absence of DNA. In the presence of DNA, however, the 3.5-ns lifetime component of fluorescence disappeared, and a two-exponential decay of fluorescence (t = approximately 10 and 1.5 ns) was observed at a DNA concentration of more than approximately 0.001 mM P, while the solution containing a very dilute DNA concentration (less than or equal to 0.001 mM P) exhibits a three-component decay of fluorescence (1.5, 3.5, and approximately 10 ns). The potent bis intercalation of two moieties in 2GP-SP with an identical DNA molecule was suggested by the DNA-concentration dependence of these fluorescence lifetimes and their intensity.  相似文献   

12.
The first lifetime measurements of DNA fluorescence are reported. Natural and synthetic DNA have been excited by 1.76 ns pulses of synchrotron ultraviolet radiation (270 nm) and the time profile of the fluorescence has been measured by synchronous single-photon counting. A post-pulse exponentially decaying emission has been observed with a lifetime of 2.9 +/- 0.4 ns for calf thymus DNA and 3.0 +/- 0.3 ns for poly(dA-T); this is most likely an excimer fluorescence.  相似文献   

13.
Using multifrequency phase fluorometry, fluorescence lifetimes have been assigned to the different protolytic forms of the antibiotic virginiamycin S. These lifetimes are 0.476 +/- 0.005 ns for the uncharged form, 1.28 +/- 0.2 and 7.4 +/- 0.2 ns for the zwitterionic form, 1.19 +/- 0.01 ns for the negatively charged form, and 1.9 +/- 0.1 ns for the double negatively charged form. The assignments are based on lifetime measurements as a function of pH, volume percent ethanol, and excitation wavelength. Excited-state proton transfer is taken into account. It is complete at pH values lower than 1, and no fluorescence of the fully protonated charged form is observed. At pH 8, an excited-state pK* increase is calculated, but proton association is too slow to cause excited-state proton transfer. The addition of divalent cations, at pH 9.4, increases the lifetime of the negatively charged form to a value dependent upon the specific nature of the cation (7.58 +/- 0.06 ns for Mg2+, 6.54 +/- 0.02 ns for Ca2+, and 3.74 +/- 0.05 ns for Ba2+). Monovalent cations do not influence the lifetimes, indicating that their binding to the macrocycle does not influence the fluorescent moiety. The model compound 3-hydroxypicolinamide shows an analogous behavior, but the retrieved lifetime can differ significantly.  相似文献   

14.
Conformational change in rat liver phenylalanine hydroxylase associated with activation by phenylalanine or N-(1-anilinonaphth-4-yl)maleimide was investigated by measuring fluorescence spectra and fluorescence lifetimes of tryptophanyl residues as well as the probe fluorophore conjugated with SH groups of the hydroxylase. The fluorescence spectrum of tryptophan exhibited its maximum at 342 nm. It shifted by 8 nm toward longer wavelength accompanied by an increase in its intensity, by preincubation with 1 mM phenylalanine. The fluorescence intensity of tryptophan increased by 36% upon the activation. On the other hand, the binding of (6R)-L-erythro-tetrahydrobiopterin, a natural cofactor of the enzyme, induced a decrease in the fluorescence intensity by 79% without a shift of the maximum wavelength. The fluorescence lifetime of tryptophan of phenylalanine hydroxylase exhibited two components with lifetimes of 1.7 and 4.1 ns. The values of the lifetimes changed to 1.4 and 5.6 ns, respectively, upon the activation. It is considered that the change in the longer lifetime is correlated with the shift of the emission peak upon the activation. The values of both the lifetimes decreased to 0.64 and 3.6 ns upon the binding of (6R)-L-erythro-tetrahydrobiopterin, which is coincident with the decrease in the fluorescence intensity. Conjugation of N-(1-anilinonaphth-4-yl)maleimide with SH of phenylalanine hydroxylase brought about a decrease in both the fluorescence intensity and the value of the shorter lifetime of the tryptophanyl residues, while the longer lifetime remained unchanged.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

15.
Hariharan C  Reha-Krantz LJ 《Biochemistry》2005,44(48):15674-15684
The fluorescence of the base analogue 2-aminopurine (2AP) was used to probe bacteriophage T4 DNA polymerase-induced conformational changes in the template strand produced during the nucleotide incorporation and proofreading reactions. 2AP fluorescence in DNA is quenched by 2AP interactions with neighboring bases, but T4 DNA polymerase binding to DNA substrates labeled with 2AP in the templating position produces large increases in fluorescence intensity. Fluorescence lifetime studies were performed to characterize the fluorescent complexes. Three fluorescence lifetime components were observed for unbound DNA substrates as reported previously, but T4 DNA polymerase binding modulated the amplitudes of these components and created a new, highly fluorescent 10.5 ns component. Experimental evidence for correlation of fluorescence lifetimes with functionally distinct complexes was obtained by forming complexes under different reaction conditions. T4 DNA polymerase complexes were formed with DNA substrates with matched and mismatched primer ends and with A+T- or G+C-rich primer-terminal regions. dTTP was added to binary complexes to form ternary DNA polymerase-DNA-nucleotide complexes. The effect of temperature on complex formation was studied, and complexes were formed with proofreading-defective T4 DNA polymerases. Complexes characterized by the 10.5 ns lifetime were demonstrated to be formed at the crossroads of the primer-extension and proofreading pathways.  相似文献   

16.
17.
The binding of 4',6-diamidino-2-phenylindole (DAPI) to double-stranded GC polymers either in the alternating or in homopolymer sequence was investigated using fluorescence techniques. We employed fluctuation correlation spectroscopy, which measures the diffusion coefficient of fluorescent particles, to demonstrate that the fluorescence was originating from relatively slowly diffusing entities. These entities display a very large heterogeneity of diffusing coefficients, indicating that molecular aggregation is extensive in our samples. We used frequency domain fluorometry to characterize the fluorescence lifetime of the species, while varying the GC polymer-dye coverage systematically. At very low coverage we observed a relatively bright fluorescent component with a lifetime value of approximately 4 ns. The stoichiometry of binding of this bright species was such that it can only arise from rare molecular structures, either unusual loops or large molecular aggregates. The amount and characteristics of this bright fluorescent component were different between the homo and the alternating polymer, indicating that the difference in sequence of the two polymers is responsible for the different aggregates which are then detected in the fluorescence experiment. At large GC polymer coverage we observed a relatively wide distribution of fluorescent species with short lifetime values, in the range between 0.12 and 0.2 ns. Given the stoichiometry of binding of this fluorescent component, we concluded that it could arise either from intercalative and/or non-specific binding to the DNA double-stranded molecules. We comment on the origin of the rare but brightly fluorescent binding sites and discuss the potential to detect such unusual DNA structures.  相似文献   

18.
Many agents successfully used in cancer chemotherapy either directly or indirectly covalently modify DNA. Examples include cisplatin, which forms a covalent adduct with guanines, and doxorubicin, which traps a cleavage intermediate between topoisomerase II and torsionally strained DNA. In most cases, the efficacy of these drugs depends on the efficiency and specificity of their DNA binding, as well as the discrimination between normal and neoplastic cells in their handling of the drug-DNA adducts. While much is known about the chemistry of drug-DNA adducts, little is known regarding the overall specificity of their formation, especially in the context of a whole human genome, where potentially billions of binding sites are possible. We used the combinatorial selection method restriction endonuclease protection, selection, and amplification (REPSA) to determine the DNA-binding specificity of the semisynthetic covalent DNA-binding polyamide tallimustine, which contains a benzoic acid nitrogen mustard appended to the minor groove DNA-binding natural product distamycin A. After investigating over 134 million possible sequences, we found that the highest affinity tallimustine binding sites contained one of two consensus sequences, either the expected distamycin hexamer binding sites followed by a CG base pair (e.g., 5'-TTTTTTC-3' and 5'-AAATTTC-3') or the unexpected sequence 5'-TAGAAC-3'. Curiously, we found that tallimustine preferentially alkylated the N7 position of guanines located on the periphery of these consensus sequences. These findings suggested a cooperative binding model for tallimustine in which one molecule noncovalently resides in the DNA minor groove and locally perturbs the DNA structure, thereby facilitating alkylation by a second tallimustine of an exposed guanine on another side of the DNA.  相似文献   

19.
The protamine thynnine is an arginine-rich protein approximately 30 amino acids long with a tyrosine in the middle of its sequence. Its fluorescence decay kinetics can be described by a biexponential function with lifetimes of 0.52 and 2.1 ns, with almost equal preexponential factors. The fluorescence quencher CsCl does not affect the short lifetime but shifts the equilibrium between the long and short lifetime toward the short one and reduces the long lifetime. In nature, thynnine is found complexed with chromosomal DNA. In vitro complexes of thynnine with double-stranded (ds) DNA are stable at physiologic ionic strength but dissociate at high NaCl concentration. This dissociation can be monitored by steady-state fluorescence. From the salt concentration dependence of the dissociation of the complex of thynnine with ds-DNA 145 bp long, it can be concluded that only 4 of 21 possible full electrostatic bonds are involved in thynnine-DNA binding. In addition, the binding constant at 1M NaCl is of the order of 106, indicating a strong nonelectrostatic component in arginine-DNA binding.  相似文献   

20.
Studies of the fluorescence of N-(1-pyrene)maleimide and N-(1-pyrenyl)iodoacetamide with actin from rabbit skeletal muscle tropomyosin revealed the presence of excimer fluorescence characterized by a broad emission band at 480 nm with a shoulder at 505 nm. Monomer fluorescence decay exhibited different lifetimes, viz., about 3, 22 and 87 ns for the pyrenemaleimide adduct; about 2.5, 11 and 51 ns for the aminolyzed maleimide adduct: and about 2.5, 15 and 74 ns for the pyrenyliodoacetamide adduct. Almost identical excimer fluorescence lifetimes were found for all adducts; about 9, 35 and 65 ns. Excimer fluorescence was sensitive to changes in ionic strength and pH of the medium while monomer fluorescence did not change. The protein denaturants guanidine hydrochloride and urea caused dissociation of the two tropomyosin subunits and partial disappearance of excimer fluorescence, but not as effectively as the hydrophobic surfactant sodium dodecyl sulfate. The sensitivity of excimer fluorescence to changes in the micro-environment make these pyrene derivatives very useful probes for studying conformational changes and binding interaction of tropomyosin with other contractile proteins. The unique location of the excimer probe at tropomyosin Cys-190 and its characteristic long lifetimes could make it useful in time-resolved anisotropy studies and fluorescence energy-transfer experiments.  相似文献   

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