A study of phi X-174 DNA torus and lambda DNA torus tertiary structure and the implications for DNA self-assembly

Hydrated torus shaped complexes were examined by transmission electron microscopy in both spermidine-condensed linear and nicked circular phi X-174 DNA and lambda DNA preparations. Freeze-etch replicas of both these torus samples, produced with very low Pt metal deposition levels (9APt/C), were found to have circumferentially wound single DNA double helix size surface fibers in the range of 30A width. Measurements of torus inner and outer circumference as well as ring thickness were performed. Observed differences in the torus dimension distributions from circular phi X-174 DNA and linear phi X-174 DNA may be related to the different topological constraints on DNA folding in these two samples (1). On the basis of annulus thickness measurements phi X-174 DNA toruses, in contrast to lambda DNA toruses, were observed to fall into two classes identified as being formed from monomer DNA condensation and multimer DNA condensation. All of the torus substructure and population dimensions observed here are consistent with the continuous circumferential DNA winding model of torus organization proposed by Marx and Reynolds (1) to explain the micrococcal nuclease cleavage properties of the toruses. End-on view measurements of the torus thickness were made from micrographs obtained by extensive tilting of the object replica. These direct measurements confirmed quaternary structure interpretations made from simple strand packing models. We compared the measured torus properties in this linear DNA size series (5386-48000 bp). With increasing DNA length the pattern of DNA strand self-assembly was found to be more varied producing lambda DNA toruses of varying shape. The relevance of our study to the problem of lambda bacteriophage DNA head packaging was discussed.     

A Study of øX-174 DNA Torus and Lambda DNA Torus Tertiary Structure and the Implications For DNA Self-Assembly

Abstract

Hydrated torus shaped complexes were examined by transmission electron microscopy in both spermidine-condensed linear and nicked circular øX-174 DNA and lambda DNA preparations. Freeze-etch replicas of both these torus samples, produced with very low Pt metal deposition levels (9APt/C), were found to have circumferentially wound single DNA double helix size surface fibers in the range of 30A width. Measurements of torus inner and outer circumference as well as ring thickness were performed. Observed differences in the torus dimension distributions from circular øX-174 DNA and linear øX ?174 DNA may be related to the different topological constraints on DNA folding in these two samples (1). On the basis of annulus thickness measurements øX ?174 DNA toruses, in contrast to lambda DNA toruses, were observed to fall into two classes identified as being formed from monomer DNA condensation and multimer DNA condensation. All of the torus substructure and population dimensions observed here are consistent with the continuous circumferential DNA winding model of torus organization proposed by Marx and Reynolds (1) to explain the micrococcal nuclease cleavage properties of the toruses. End-on view measurements of the torus thickness were made from micrographs obtained by extensive tilting of the object replica. These direct measurements confirmed quaternary structure interpretations made from simple strand packing models. We compared the measured torus properties in this linear DNA size series (5386–48000 bp). With increasing DNA length the pattern of DNA strand self- assembly was found to be more varied producing lambda DNA toruses of varying shape. The relevance of our study to the problem of lambda bacteriophage DNA head packaging was discussed.     

Ion competition and micrococcal nuclease digestion studies of spermidine-condensed calf thymus DNA. Evidence for torus organization by circumferential DNA wrapping

Spermidine-condensed calf thymus DNA structures have been studied by ion competition using a sedimentation assay and by micrococcal nuclease digestion. Competitor ions Mg2+, Ca2+ and putrescine2+ show specific ion effects; but all three appear to affect the DNA condensation-decondensation equilibrium caused by spermidine3+ in a qualitatively similar manner, suggesting the spermidine3+-DNA interaction is largely electrostatic. Our data show a hysteresis in condensation and decondensation transition directions. We interpret this in terms of a kinetic block in the condensation direction with decondensation representing the equilibrium state of the system. These results agree with results obtained from related systems using different measurement techniques. Micrococcal nuclease digestion of spermidine-condensed calf thymus DNA produces broad but discrete bands in gel electrophoresis experiments. At least two bands determined to be 760 +/- 87 bp and 1355 +/- 135 bp, possess the size ratio 1:1.8 +/- 0.4 consistent with their forming the monomer and dimer fragments of an arithmetic band series. We rationalize this result in terms of a localized micrococcal nuclease cleavage model of circumferentially-wrapped DNA toruses proposed previously by Marx, K.A. and Reynolds, T.C. (Proc. Natl. Acad. Sci. (1982) 79, 6484-6488). The arithmetic series monomer band (760 +/- 87 bp), corresponding to wrapping B DNA once circumferentially about the torus, is in agreement with the electron microscopic measurements of hydrated calf thymus DNA torus circumferences presented by Marx, K.A. and Ruben, G.C. (Nucleic Acids Res. (1983) 11, 1839-1853).     

Influence of DNA length on spermine-induced condensation. Importance of the bending and stiffening of DNA

Using DNA restriction fragments of 258 to 4362 base-pairs, we have investigated the influence of the DNA length on the condensation process induced by spermine, with the aid of electric dichroism measurements. The 258- and 436 bp fragments condensed into rod-like particles, while the fragments of 748 bp or more condensed into torus-shaped particles. Our results suggest that a DNA molecule longer than the circumference of the toroids observed previously (680 bp) is required to serve as a nucleus for the growth of the condensed particles. The toroids were more stable in the electric field than the rod-shaped particles, suggesting that rapid fluctuations of the bound spermine counterions can provide one of the main attractive forces yielding to the condensation process. Relaxation time data for the 436 bp fragment revealed that the structure of DNA was altered at a spermine concentration as low as one-tenth of that required for condensation: the DNA became bent in the presence of spermine. Moreover, the field strength dependence of the relaxation times, as well as the fitting of the decay curves at 12.5 kV/cm, showed an increase of the stiffness of the DNA double helix upon spermine addition. We estimated that, in the case of DNA condensation by spermine, a decrease in the measured persistence length may occur, irrespective of the DNA flexibility, owing to the bending of the DNA molecule.     

Influence of DNA length on spermine-induced condensation: Importance of the bending and stiffening of DNA

Using DNA restriction fragments of 258 to 4362 base-pairs, we have investigated the influence of the DNA length on the condensation process induced by spermine, with the aid of electric dichroism measurements. The 258- and 436 bp fragments condensed into rod-like particles, while the fragments of 748 bp or more condensed into torus-shaped particles. Our results suggest that a DNA molecule longer than the circumference of the toroids observed previously (680 bp) is required to serve as a nucleus for the growth of the condensed particles. The toroids were more stable in the electric field than the rod-shaped particles, suggesting that rapid fluctuations of the bound spermine counterions can provide one of the main attractive forces yielding to the condensation process. Relaxation time data for the 436 bp fragment revealed that the structure of DNA was altered at a spermine concentration as low as one-tenth of that required for condensation: the DNA became bent in the presence of spermine. Moreover, the field strength dependence of the relaxation times, as well as the fitting of the decay curves at 12.5 kV/cm, showed an increase of the stiffness of the DNA double helix upon spermine addition. We estimated that, in the case of DNA condensation by spermine, a decrease in the measured persistence length may occur, irrespective of the DNA flexibility, owing to the bending of the DNA molecule.     

Experimental studies on the nature of bonding of DNA*bipyridyl-(ethylenediamine)platinum(II) and DNA*netropsin complexes in solution and oriented wet-spun films

The stability of complexes of NaDNA with bipyridyl- (ethylenediamine)platinum(II) (abbreviated [(bipy)Pt(en)](2+)) and with netropsin has been studied using two techniques: (i) ultraviolet (UV) melting experiments were done on NaDNA* [(bipy)Pt(en)](2+), showing that the [(bipy)Pt(en)](2+) ligand stabilizes the DNA double helix structure; and (ii) swelling measurements (via optical microscopy) as a function of relative humidity were done on wet-spun oriented films of NaDNA*[(bipy)Pt(en)](2+) and of NaDNA*netropsin. The swelling data shows that an irreversible transition of the films occurs at high relative humidity, first for the NaDNA*netropsin, then for pure NaDNA, and lastly for the NaDNA*[(bipy)Pt(en)](2+). These results are indicative that the [(bipy)Pt(en)](2+) complex stabilizes the intermolecular bonds which mediate the film swelling characteristics. A model is suggested for the binding of [(bipy)Pt(en)](2+) to DNA to explain why the swelling experiments show this ligand as increasing the intermolecular bond strength between the DNA double helices, while netropsin decreases this degree of stabilization.     

Mutagenic and genotoxic effects of DNA adducts formed by the anticancer drug cis-diamminedichloroplatinum(II).

The toxicity and mutagenicity of three DNA adducts formed by the anticancer drug cis-diamminedichloroplatinum(II) (cis-DDP or cisplatin) were investigated in Escherichia coli. The adducts studied were cis-[Pt(NH3)2(d(GpG))] (G*G*), cis-[Pt(NH3)2(d(ApG))] (A*G*) and cis-[Pt(NH3)2(d(GpTpG))] (G*TG*), which collectively represent approximately 95% of the DNA adducts reported to form when the drug damages DNA. Oligonucleotide 24-mers containing each adduct were positioned at a known site within the viral strand of single stranded M13mp7L2 bacteriophage DNA. Following transfection into E. coli DL7 cells, the genomes containing the G*G*, A*G* and G*TG* adducts had survival levels of 5.2 +/- 1.2, 22 +/- 2.6 and 14 +/- 2.5% respectively, compared to unmodified genomes. Upon SOS induction, the survival of genomes containing the G*G* and A*G* adducts increased to 31 +/- 5.4 and 32 +/- 4.9% respectively. Survival of the genome containing the G*TG* adduct did not increase upon SOS induction. In SOS induced cells, the G*G* and A*G* adducts gave rise predominantly to G-->T and A-->T transversions respectively, targeted to the 5' modified base. In addition, A-->G transitions were detected for the A*G* adduct and low levels of tandem mutations at the 5' modified base as well as the adjacent 5' base were also observed for both adducts. The A*G* adduct was more mutagenic than the G*G* adduct, with a mutation frequency of 6% compared to 1.4% for the latter adduct. No cis-[Pt(NH3)2)2+ intrastrand crosslink-specific mutations were observed for the G*TG* adduct.     

Structure of the nucleosome core particle at 8 A resolution

The x-ray crystallographic structure of the nucleosome core particle has been determined using 8 A resolution diffraction data. The particle has a mean diameter of 106 A and a maximum thickness of 65 A in the superhelical axis direction. The longest chord through the histone core measures 85 A and is in a non-axial direction. The 1.87 turn superhelix consists of B-DNA with about 78 base pairs or 7.6 helical repeats per superhelical turn. The mean DNA helical repeat contains 10.2 +/- 0.05 base pairs and spans 35 A, slightly more than standard B-DNA. The superhelix varies several Angstroms in radius and pitch, and has three distinct domains of curvature (with radii of curvature of 60, 45 and 51 A). These regions are separated by localized sharper bends +/- 10 and +/- 40 base pairs from the center of the particle, resulting in an overall radius of curvature about 43 A. Compression of superhelical DNA grooves on the inner surface and expansion on the outer surface can be seen throughout the DNA electron density. This density has been fit with a double helical ribbon model providing groove width estimates of 12 +/- 1 A inside vs. 19 +/- 1 A outside for the major groove, and 8 +/- 1 A inside vs. 13 +/- 1 A outside for the minor groove. The histone core is primarily contained within the bounds defined by the superhelical DNA, contacting the DNA where the phosphate backbone faces in toward the core. Possible extensions of density between the gyres have been located, but these are below the significance level of the electron density map. In cross-section, a tripartite organization of the histone octamer is apparent, with the tetramer occupying the central region and the dimers at the extremes. Several extensions of histone density are present which form contacts between nucleosomes in the crystal, perhaps representing flexible or "tail" histone regions. The radius of gyration of the histone portion of the electron density is calculated to be 30.4 A (in reasonable agreement with solution scattering values), and the histone core volume in the map is 93% of its theoretical volume.     

Anisotropic and inhomogeneous tensile behavior of the human anulus fibrosus: experimental measurement and material model predictions

The anulus fibrosus (AF) of the intervertebral disc exhibits spatial variations in structure and composition that give rise to both anisotropy and inhomogeneity in its material behaviors in tension. In this study, the tensile moduli and Poisson's ratios were measured in samples of human AF along circumferential, axial, and radial directions at inner and outer sites. There was evidence of significant inhomogeneity in the linear-region circumferential tensile modulus (17.4+/-14.3 MPa versus 5.6+/-4.7 MPa, outer versus inner sites) and the Poisson's ratio v21 (0.67+/-0.22 versus 1.6+/-0.7, outer versus inner), but not in the axial modulus (0.8+/-0.9 MPa) or the Poisson's ratios V12 (1.8+/-1.4) or v13 (0.6+/-0.7). These properties were implemented in a linear an isotropic material model of the AF to determine a complete set of model properties and to predict material behaviors for the AF under idealized kinematic states. These predictions demonstrate that interactions between fiber populations in the multilamellae AF significantly contribute to the material behavior, suggesting that a model for th     

Studies on the interaction of altromycin B and its platinum(II) and palladium(II) metal complexes with calf thymus DNA and nucleotides

The interaction of the anticancer antibiotic altromycin B and its isostructrural Pt(II) and Pd(II) metal complexes with native calf thymus (CT) DNA was studied using UV-thermal denaturation experiments, circular dichroism spectroscopy and temperature controlled spectrophotometric titrations. Altromycin B stabilizes the double helix by raising the T(m), mainly by intercalation of its chromophore between the base pairs and interacting electrostatically via its sugar moieties with the edges of the DNA helix. Moreover, altromycin B induces a B-->A structural transition of CT DNA. The effect on DNA stability and conformation depends on the metal ion. Pt(II) and Pd(II) complexes induce the B-->A structural transition and stabilize the double helix similarly but they present lower final hyperchromicity due to premelting effects which were caused by intra- and interstrand crosslinking. Thus, a synergic effect of the metal ions to altromycin B-CT DNA interaction is observed in both cases. Altromycin B interacts with 5'-GMP, 5'-AMP and 5'-CMP by electrophilic attack of the opened epoxide ring to the N(7)G, N(1)/N(7)A and N(3)C. Thus, covalent binding between these nucleotides and altromycin B takes place and explain the multiple binding mode suggested by the studies of the interaction of altromycin B and its complexes with DNA. The [Pd(II)-altroB] complex dissociates in the presence of the nucleotides, and various species of Pd(II)-nucleotide complexes, especially with 5'-GMP, are formed. The [Pt(II)-altroB] complex dissociates too, but only one or two species of Pt(II)-nucleotide complexes are formed, and in the case of 5'-AMP interaction the formation of a tertiary altroB-Pt(II)-5'AMP complex is proposed. 5'-TMP reacts very weakly in comparison with the other three nucleotides. These interactions were followed by 1H-NMR.     

Immunochemical quantitation of adducts induced in DNA by cis-diamminedichloroplatinum (II) and analysis of adduct-related DNA-unwinding

Antibodies elicited against the haptens cis-Pt(NH3)2dGuodGMP and its ribo-analog, both covalently coupled to bovine serum albumin, recognize adducts of cis-diamminedichloroplatinum(II) (cis-DDP) in DNA. Antibody-binding to cis-DDP-DNA strongly depends on the accessibility of the adducts to the antibodies. In double-stranded cis-DDP-DNA with low Pt: nucleotide ratios (rb's), this accessibility is enhanced by unwinding of the cis-DDP-DNA, e.g. by heat-denaturation. An unwinding effect is also induced by the cis-DDP treatment itself. A260nm readings of cis-DDP-DNA samples indicate an increased denaturation of the DNA at increasing Pt-contents. The data obtained after heat-denaturation of the same samples show a growing capability to renaturation when the rb-values increase from 0 to 0.04; at 0.04 less than rb less than 0.18 the renaturation effect gradually disappears. In the competitive enzyme-linked immunosorbent assay (ELISA), the cis-DDP-adducts in heat-denatured DNA are detected in the pmol range; in DNA-digests, however, they are recognized in fmol amounts. For the individual Pt-containing (oligo)nucleotides the amounts causing 50% inhibition in the ELISA were established for the two anti-sera; they were 13.3 +/- 3.8 (fmol +/- S.D.) and 5.4 +/- 1.8 for cis-Pt(NH3)2d(GMP)2; 15.5 +/- 5.4 and 4.0 +/- 1.5 for cis-Pt(NH3)2d(pGpG); (2.6 +/- 1.1) X 10(3) and (2.0 +/- 1.0) X 10(3) for cis-Pt(NH3)2d(pApG); (5.6 +/- 1.9) X 10(3) and (2.9 +/- 0.4) X 10(3) for Pt(NH3)3dGMP. Pt-adducts in a trans-DDP-DNA digest are recognized in pmol amounts and dGMP in nmol quantitatives. Finally, the usefulness of these antibodies for the detection and quantitation of individual cis-DDP-adducts in cis-DDP-DNA digests was demonstrated.     

Mapping the interaction of DNA with the Escherichia coli DNA polymerase clamp loader complex

Sliding clamps are loaded onto DNA by ATP-dependent clamp loader complexes. A recent crystal structure of a clamp loader-clamp complex suggested an unexpected mechanism for DNA recognition, in which the ATPase subunits of the loader spiral around primed DNA. We report the results of fluorescence-based assays that probe the mechanism of the Escherichia coli clamp loader and show that conserved residues clustered within the inner surface of the modeled clamp loader spiral are critical for DNA recognition, DNA-dependent ATPase activity and clamp release. Duplex DNA with a 5'-overhang single-stranded region (corresponding to correctly primed DNA) stimulates clamp release, as does blunt-ended duplex DNA, whereas duplex DNA with a 3' overhang and single-stranded DNA are ineffective. These results provide evidence for the recognition of DNA within an inner chamber formed by the spiral organization of the ATPase domains of the clamp loader.     

RPA repair recognition of DNA containing pyrimidines bearing bulky adducts

Recognition of new DNA nucleotide excision repair (NER) substrate analogs, 48-mer ddsDNA (damaged double-stranded DNA), by human replication protein A (hRPA) has been analyzed using fluorescence spectroscopy and photoaffinity modification. The aim of the present work was to find quantitative characteristics of RPA-ddsDNA interaction and RPA subunits role in this process. The designed DNA structures bear bulky substituted pyrimidine nitrogen bases at the inner positions of duplex forming DNA chains. The photoreactive 4-azido-2,5-difluoro-3- pyridin-6-yl (FAP) and fluorescent antracenyl, pyrenyl (Antr, Pyr) groups were introduced via different linker fragments into exo-4N of deoxycytidine or 5C of deoxyuridine. J-dU-containing DNA was used as a photoactive model of undamaged DNA strands. The reporter group was a fluorescein residue, introduced into the 5'-phosphate end of one duplex-forming DNA strand. RPA-dsDNA association constants and the molar RPA/dsDNA ratio have been calculated based on fluorescence anisotropy measurements under conditions of a 1:1 RPA/dsDNA molar ratio in complexes. The evident preference for RPA binding to ddsDNA over undamaged dsDNA distinctly depends on the adduct type and varies in the following way: undamaged dsDNA < Antr-dC-ddsDNA < mmdsDNA < FAPdU-, Pyr-dU-ddsDNA < FAP-dC-ddsDNA (K(D) = 68 +/- 1; 25 +/- 6; 13 +/- 1; 8 +/- 2, and 3.5 +/- 0.5 nM correspondingly) but weakly depends on the chain integrity. Interestingly the bulkier lesions not in all cases have a greater effect on RPA affinity to ddsDNA. The experiments on photoaffinity modification demonstrated only p70 of compactly arranged RPA directly interacting with dsDNA. The formation of RPA-ddsDNA covalent adducts was drastically reduced when both strands of DNA duplex contained virtually opposite located FAP-dC and Antr-dC. Thus RPA requires undamaged DNA strand presence for the effective interaction with dsDNA bearing bulky damages and demonstrates the early NER factors characteristic features underlying strand discrimination capacity and poor activity of the NER system toward double damaged DNA.     

Grading follicular lymphoma on fine needle aspiration specimens. Comparison with proliferative index by DNA image analysis and Ki-67 labeling index

OBJECTIVE: To determine whether follicular lymphoma (FL) can be graded on fine needle aspiration (FNA) biopsies by determining the percentage of centroblasts in the neoplastic follicles on the smears. STUDY DESIGN: Eighty-nine cases of histologically confirmed cases of FL, including 31 grade 1, 46 grade 2 and 12 grade 3, were evaluated. Proliferative index (PI) by DNA image analysis (DIA) and Ki-67 labeling index (LI) were obtained on all cases. A minimum of 200 cells were counted per case (range, 200-800 cells) at 40x magnification, and the number of large cells (centroblasts) was expressed as a percentage of the total number of cells counted within the follicles. RESULTS: The percentage of centroblasts in the follicular aggregates was 9.7 +/- 2.9% in grade 1 FLs, 24.7 +/- 5.6% in grade 2 and 48.4 +/- 7.5% in grade 3. These differences were significant (P < .05). DNA image analysis of PI and Ki-67 LI differed significantly between grade 1 FLs and grade 2 and 3 FLs (P < .05), but there were no significant differences between grade 2 and 3 FLs. CONCLUSION: Determining the percentage of centroblasts in the follicular aggregates on FNA specimens is a good method of grading FLs. Using the percentage of centroblasts per follicular structure, FL grades 1, 2 and 3 were adequately distinguished. PI by DIA and Ki-67 LI clearly distinguished FL grade 1 from FL grades 2 and 3; however, it did not clearly distinguish between grades 2 and 3.     

Cellular accumulation and DNA platination of two new platinum(II) anticancer compounds based on anthracene derivatives as carrier ligands

The anticancer properties of two new fluorescent platinum(II) compounds, cis-[Pt(A9opy)Cl₂] and cis-[Pt(A9pyp)(dmso)Cl₂] are described. These compounds are highly active against several human tumor cell lines, including human ovarian carcinoma sensitive and cisplatin-resistant cell lines (A2780 and A2780R). To study the cellular processing of these new compounds, a series of in vitro studies have been performed, including the investigation of intracellular platinum accumulation and DNA-platination experiments in A2780 and A2780R cells. Compared to cisplatin, both compounds are accumulated highly in both sensitive and resistant cell lines, and more platinum has been found to bind to the nuclear DNA. Interestingly, cis-[Pt(A9opy)Cl₂] shows high accumulation and DNA adduct formation in the resistant cell line A2780R, as compared to the sensitive counterpart A2780 cell line. This suggests that cis-[Pt(A9opy)Cl₂] is able to overcome some of the well-known resistance mechanisms in this cell line, such as decreased cellular uptake and increased DNA repair.     

Superhelical torsion controls DNA interstrand cross-linking by antitumor cis- diamminedichloroplatinum(II).

Negatively supercoiled, relaxed and linearized forms of pSP73 DNA were modified in cell-free medium by cis-diamminedichloroplatinum(II) (cisplatin). The frequency of interstrand cross-links (ICLs) formed in these DNAs has been determined by: (i) immunochemical analysis; (ii) an assay employing NaCN as a probe of DNA ICLs of cisplatin; (iii) gel electrophoresis under denaturing conditions. At low levels of the modification of DNA (<1 Pt atom fixed per 500 bp) the number of ICLs formed by cisplatin was radically enhanced in supercoiled in comparison with linearized or relaxed DNA. At these low levels of modification, the frequency of ICLs in supercoiled DNA was enhanced with increasing level of negative supercoiling or with decreasing level of modification. In addition, the replication mapping of DNA ICLs of cisplatin was consistent with these lesions being preferentially formed in negatively supercoiled DNA between guanine residues in both the 5'-d(GC)-3' and the 5'-d(CG)-3' sites. Among the DNA adducts of cisplatin the ICL has the markedly greatest capability to unwind the double helix. We suggest that the formation of ICLs of cisplatin is thermodynamically more favored in negatively supercoiled DNA owing mainly to the relaxation of supercoils.     

Tissue-specific elevated genomic cytosine methylation levels are associated with an overgrowth phenotype of bovine fetuses derived by in vitro techniques

Epigenetic perturbations are assumed to be responsible for abnormalities observed in fetuses and offspring derived by in vitro techniques. We have designed an experiment with bovine Day 80 fetuses generated by somatic cell nuclear transfer (SCNT), in vitro fertilization (IVF), and artificial insemination (AI) to determine the relationship between fetal phenotype and genome-wide 5-methylcytosine (5mC) content. When compared with AI controls, SCNT and IVF fetuses displayed significantly increased body weight (61% and 28%), liver weight (100% and 36%), and thorax circumference (20% and 11%). A reduced crown-rump length:thorax circumference ratio (1.175 +/- 0.017 in SCNT and 1.292 +/- 0.018 in IVF vs. 1.390 +/- 0.018 in AI, P < 0.001 and P < 0.002) was the external hallmark of this disproportionate overgrowth phenotype. The SCNT fetuses showed significant hypermethylation of liver DNA in comparison with AI controls (3.46% +/- 0.08% vs. 3.17% +/- 0.09% 5mC, P < 0.03), and the cytosine methylation levels for IVF fetuses (3.34% +/- 0.09%) were, as observed for phenotypic parameters, intermediate to the other groups. Regressions of fetal body and liver weight and thorax circumference on 5mC content of liver DNA were positive (P < 0.073-0.079). Furthermore, a significant negative regression (P < 0.021) of the crown-rump length:thorax circumference ratio on liver 5mC was observed. The 5mC content of placental cotyledon DNA was 46% lower than in liver DNA (P < 0.0001) but did not differ among groups. These data are in striking contrast with the recently reported hypomethylation of DNA from SCNT fetuses and indicate that hypermethylation of fetal tissue, but not placenta, is linked to the overgrowth phenotype in bovine SCNT and IVF fetuses.     

Influence of treatment temperature on the genotoxic effects of cisplatin in CHO cells: cytotoxicity, mutagenicity and induction of lesions in DNA

In cells exposed in vitro to the cytotoxic and mutagenic antitumor drug cisplatin (cis-Pt(NH3)2Cl2), various adducts with nuclear DNA are formed. A comparative study was made of the influence of temperature variation during treatment of cultured Chinese hamster ovary (CHO) cells with cisplatin on cytotoxicity, mutation induction and Pt-DNA adduct formation. Before and after treatment (1 h at 32, 37 or 40 degrees C) cells were kept at 37 degrees C. Cytotoxicity increased with temperature; D0 values were 29.6 +/- 1.6, 21.1 +/- 1.2 and 11.4 +/- 0.6 microM at 32, 37 and 40 degrees C, respectively. Pt-DNA binding to DNA at 40 degrees C was 2.0 (+/- 0.3) times as high as at 32 degrees C. This factor remained practically constant over a 24-h post-treatment incubation of the cells, during which about 60% of DNA-bound Pt were removed. As the increase in cytotoxicity between 32 and 40 degrees C was roughly in proportion to that in Pt binding, no substantial changes in the spectrum of adducts appeared to occur. The induction of DNA interstrand cross-links, studied at 32 and 40 degrees C, varied linearly with dose. Influence of temperature on cross-link formation was comparable to that on total Pt binding. Amounts of cross-links highly increased during 24 h after treatment. Plots of cross-links against survival after treatments at 32 and 40 degrees C almost coincided. Induction of 6-thioguanine-resistant (HGPRT) mutants at various cisplatin concentrations did not show a clear temperature dependency. Consequently, equitoxic treatments were significantly more mutagenic at 32 degrees C than at 40 degrees C, the opposite of what has been reported for E. coli.