Your search keyword '"Garner MM"' showing total 13 results

1. Use of DNA toolbox for the characterization of mutation scanning methods. II: evaluation of single-strand conformation polymorphism analysis.

Author

Highsmith WE Jr, Nataraj AJ, Jin Q, O'Connor JM, El-Nabi SH, Kusukawa N, and Garner MM

Subjects

Evaluation Studies as Topic, DNA analysis, Mutation, Polymerase Chain Reaction methods, Polymorphism, Single-Stranded Conformational

Abstract

Single-strand conformation polymorphism (SSCP) is one of the most commonly used methods for searching for unknown base changes (mutations). In order to characterize systematically the effects of important physical parameters on the sensitivity and specificity of SSCP, we used the DNA toolbox constructed as described in the companion paper [2]. Using this set of DNA molecules as polymerase chain reaction (PCR) templates, amplicons of various lengths with the same base, mutated to all other bases, were generated. The behavior of these constructs in manual and automated SSCP was analyzed as a function of the size, overall base content of the fragment, nature and location of the base change, and the temperature and pH of electrophoresis. Our results demonstrate that all of these variables interact to determine the rate of detection of single-base changes, with the GC content being the predominant determinant of detection sensitivity.

Published

1999

2. Commercial automated gel electrophoresis apparatus: application to DNA, band dispersion, nonlinear Ferguson curves, and isolation.

Author

Chrambach A, Yarmola E, Zakharov SF, and Garner MM

Subjects

Buffers, Electrophoresis, Agar Gel methods, Equipment Design, Software, Time Factors, DNA analysis, Electrophoresis, Agar Gel instrumentation

Abstract

Recently available commercial automated gel electrophoresis apparatus with intermittent scanning of fluorescently labeled gel patterns (the HPGE-1000 apparatus of LabIntelligence, Menlo Park CA) was tested with regard to (i) its applicability to DNA in its native conformation, (ii) its ability to recognize the correct number of components, (iii) its capability to evaluate the width and shape of bands detected during electrophoresis, (iv) its ability to yield nonlinear Ferguson plots in a labor-saving fashion, and (v) its preparative potential. Ethidium homodimer (EtD) DNA (bp) ratios were systematically varied and the mobility of DNA fragments labeled at each ratio was measured in order to find a ratio which provided an unaltered mobility and presumably therefore an unaltered conformation of the fragment. That ratio was found to be 1/40 EtD/DNA (bp) or less. With such weak labeling of DNA, a representative fragment of 527 bp length requires a minimum load of 200 ng and a 2 micrograms load for a full-scale peak height. Using the baseline automatically selected by the software of the apparatus, the band areas of the 17 components of a DNA digest were consistently evaluated by the software, as evidenced by the proportionality between DNA length and area. The areas of the separated bands of DNA fragments of 1857 and 121 bp length were found to be constant with time of electrophoresis. The dispersion coefficient was found to decrease with agarose concentration in electrophoresis at 1 V/cm; however, at higher field strength, the band width of the 1857 bp fragment was surprisingly found to increase with gel concentration, presumably due to stretching.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1995

3. Water release associated with specific binding of gal repressor.

Author

Garner MM and Rau DC

Subjects

Binding, Competitive, Escherichia coli Proteins, Kinetics, Operon genetics, Osmolar Concentration, Polydeoxyribonucleotides metabolism, Polyethylene Glycols, Sucrose, Thermodynamics, DNA metabolism, Operator Regions, Genetic, Repressor Proteins metabolism, Water metabolism

Abstract

Water release coupled to the association of gal repressor with DNA is measured from the sensitivity of the binding constant to the solution osmotic pressure, using neutral solutes that are typically excluded from polar protein and DNA surfaces. Differences in water release for binding of repressor to different sequences are linked with differences in specificity and binding energies. With sucrose, the specific binding of repressor to operator sequences is accompanied by the release of 130 water molecules. No water release is seen for the weak, non-specific binding of repressor to poly(dI-dC).(dI-dC). A difference in the release of six water molecules is seen even for the binding of gal repressor to two different operator sequences that differ in affinity by only a factor of two.

Published

1995

4. Fluorescent labeling of DNA with ethidium homodimer without measurable decrease in DNA mobility: application to automated gel electrophoresis apparatus.

Author

Zakharov SF, Garner MM, and Chrambach A

Subjects

Electrophoresis, Ethidium analogs & derivatives, Fluorescence, DNA chemistry

Abstract

Mobilities of DNA, fluorescently labeled with ethidium homodimer (EtD), and normalized to the mobility of the 50-bp fragment [Rf(50)], are constant with time of electrophoresis, permitting one to conduct studies on DNA mobility in an automated electrophoresis apparatus with fluorescence detection. DNA mobility decreases with an increasing binding density of ethidium homodimer, as previously reported by others and expected since the dye decreases both the net charge and the conformational flexibility of the DNA. However, it was found that this effect of ethidium binding on electrophoretic mobility becomes undetectable at binding densities less than 1 EtD/40 bp. This implies that for the purposes of electrophoretic analysis in an apparatus with fluorescence detector, DNA with ethidium homodimer intercalated at dye-DNA ratios less than 1/40 bp behaves like unlabeled DNA and may be assumed to be in a conformation similar to that of the unliganded DNA. Necessarily, the low labeling ratio lowers the sensitivity of detection and, in particular, increases the load requirement for a full-scale band height required for the analysis of bandwidth and band shape during electrophoresis.

Published

1995

5. Recovery of SDS-protein and DNA using commercial automated gel electrophoresis apparatus.

Author

Zakharov SF, Garner MM, and Chrambach A

Subjects

Conalbumin chemistry, Electrochemistry, Fluoresceins, Fluorescent Dyes, Image Processing, Computer-Assisted, Osmolar Concentration, Autoanalysis instrumentation, Conalbumin isolation & purification, DNA isolation & purification, Electrophoresis, Agar Gel, Nucleosomes chemistry, Sodium Dodecyl Sulfate chemistry

Abstract

The HPGE-1000 apparatus (LabIntelligence, Menlo Park, CA) is a gel electrophoresis instrument with intermittent fluorescence scanning of the migration path and with preparative capability. An electroelution cup sealed with gel is placed onto the band of interest, identified and located under computer control, and the band is electroeluted into the cup at a right angle to the orientation of the resolving gel. The correct location of the eluted band and the degree of its recovery into the elution cup are then verified on the gel pattern, visualized on the computer screen. Using that procedure, SDS-conalbumin-FLUOS was electrophoresed at 5 V/cm in a discontinuous tricinate-chloride-Tris system at loads of 0.25 to 20 micrograms, using 5% agarose (MetaPhor, FMC), 0.03% SDS gel at 5 degrees C. The horizontal gel was partitioned at the sample loading slit between a gel in Tris-tricinate (prepared at the concentrations of an operative phase ZETA) and in Tris-chloride (prepared as phase BETA). The elution cup was sealed with the latter gel and overlayered with buffer of the composition of the former. This arrangement should provide for electroelution of the band as a highly concentrated stack. At electroelution times of 2, 3.5, 4-5, 12, 15 and 15 min at 15 V/cm yields were 58, 60, 54-76, 99, 99 and 84% for loads of 0.25, 0.5, 1, 4, 10 and 20 micrograms, respectively. At the most sensitive scale of detection (13), a full-scale peak was obtained at a load of 1.7 micrograms when the fluorophore (FLUOS, Boehringer-Mannheim) to protein ratio was 10:1. Similarly, homogeneous nucleosomal DNA (146 bp), electrophoresed in 0.2 x TBE buffer at a load of 5 micrograms, was near-quantitatively recovered into the same buffer by electroelution at 15 V/cm for 2.5 or 6 min.

Published

1995

6. Transverse pore gradient gel electrophoresis, using the PhastSystem.

Author

Buzás Z, Wheeler DL, Garner MM, Tietz D, and Chrambach A

Subjects

Base Composition, DNA chemistry, Electrophoresis, Polyacrylamide Gel instrumentation, Indicators and Reagents, Molecular Weight, Software, DNA isolation & purification, Electrophoresis, Polyacrylamide Gel methods

Abstract

The application of pore gradient gels prefabricated for the PhastSystem (Pharmacia) to transverse pore gradient gel electrophoresis is demonstrated. It has the twofold advantage of (i) horizontal positioning, avoiding gel stretching during the preparation of these gels and resulting pore size irreproducibility experienced with vertically applied pore gradient gels, which necessitate an orthogonal transfer of spacers, and (ii) miniaturized gel dimensions, which allow a small sample load and a short duration of electrophoresis and staining.

Published

1994

7. Detection of a single base mismatch in double-stranded DNA by electrophoresis on uncrosslinked polyacrylamide gel.

Author

Pulyaeva H, Zakharov SF, Garner MM, and Chrambach A

Subjects

Acrylic Resins, Cross-Linking Reagents, DNA genetics, DNA isolation & purification, Electrophoresis, Polyacrylamide Gel instrumentation, Gels, Genetic Techniques, Indicators and Reagents, Nucleic Acid Heteroduplexes isolation & purification, Base Composition, DNA chemistry, Electrophoresis, Polyacrylamide Gel methods, Mutation, Nucleic Acid Heteroduplexes chemistry

Abstract

Uncrosslinked polyacrylamide forms gels in the concentration range of 15-40% acrylamide. Electrophoresis in these gels of a commercially available 350 bp heteroduplex DNA preparation separates it from the homoduplex DNA of the same size. The separation is qualitatively equivalent to that previously achieved in a commercial proprietary gel ("Mutation Detection Gel" of AT-Biochem), or in an equivalent 14% T, 0.15% C (N,N'-methylenebisacrylamide) gel, but the mechanical stability of mutation detection electrophoresis (MDE) gels or 0.15% C gels is better than that of uncrosslinked polyacrylamide gels. The separation in any of these three gel media can be carried out in short gel tubes within a few hours of electrophoresis time. In both uncrosslinked polyacrylamide and MDE gel media, the Ferguson plots [log(mobility) vs. gel concentration] and the plots of effective molecular radius vs. gel concentration ("T-plots") of both the heteroduplex and homoduplex DNA indicate an augmented size but similar flexibility upon passage through the gel than exhibited by the components of a DNA standard ladder. Homoduplex and heteroduplex DNA correspondingly exhibit a parallelism of their Ferguson curves in transverse MDE pore gradient gel electrophoresis, suggesting a surface net charge difference, possibly due to a conformational reorientation too subtle to be detected by a shift in the slope of the Ferguson plot, as has been observed once previously with a "kinked" DNA species. The gel fiber radius or length per unit volume of uncrosslinked polyacrylamide and MDE gels do not differ significantly within confidence limits, which are wide compared to unconventionally crosslinked gels, presumably because of their greater swelling.

Published

1994

8. Characterization of the electrophoretic properties of nucleosome core particles by transverse polyacrylamide pore gradient gel electrophoresis.

Author

Orbán L, Garner MM, Wheeler D, Tietz D, and Chrambach A

Subjects

Animals, Chickens, DNA blood, DNA-Binding Proteins blood, DNA-Binding Proteins chemistry, Erythrocytes ultrastructure, Mathematics, Nucleic Acid Conformation, Nucleosomes ultrastructure, Particle Size, DNA chemistry, Electrophoresis, Polyacrylamide Gel methods, Nucleosomes chemistry

Abstract

Transverse pore gradient gel electrophoresis, previously applied to bent DNA, has extended the usefulness of the gel retardation assay in two ways: (i) by differentiating between different DNA conformations; (ii) by providing information regarding the physical properties of DNA. In the present study, similarly extended information is obtained with regard to a well-characterized DNA-protein complex, the chicken erythrocyte nucleosome core particle. (i) The winding of DNA around the protein core constrains the DNA which renders its Ferguson curve (migration distance vs. gel concentration) similar to that of kinetoplast DNA, i.e. it intersects sharply with the Ferguson curves of linear DNA standards. By contrast, the deproteinized nucleosome DNA exhibits a Ferguson curve similar to linear standards of the same length. (ii) Interpretation of the Ferguson curve based on a mathematical model shows that the nucleosome exhibits a linear Ferguson plot [log(mobility) vs. gel concentration]. This is similar to and characteristic of spherical proteins, contrasting with the concave plot typical for linear and bent DNA. (iii) The effective size of the nucleosome, evaluated in terms of an "equivalent sphere" (i.e. a hypothetical spherical particle with a radius, Res, having the same electrophoretic mobility as DNA for a particular set of experimental conditions), remains invariant across the gel concentration range of 3-9%T. This is similar to proteins and bacteriophages and contrasts with the progressive decline of Res with increasing gel concentration observed for linear DNA and the deproteinized nucleosomal DNA.

Published

1993

9. Z-DNA binding and inhibition by GTP of Drosophila topoisomerase II.

Author

Arndt-Jovin DJ, Udvardy A, Garner MM, Ritter S, and Jovin TM

Subjects

Animals, Cells, Cultured, Chromatography methods, DNA Topoisomerases, Type II drug effects, DNA Topoisomerases, Type II isolation & purification, DNA, Superhelical drug effects, DNA, Superhelical metabolism, DNA-Binding Proteins drug effects, DNA-Binding Proteins isolation & purification, Guanosine 5'-O-(3-Thiotriphosphate) pharmacology, Models, Biological, Nucleic Acid Conformation, Phosphorylation, Phosphotransferases metabolism, DNA metabolism, DNA Topoisomerases, Type II metabolism, DNA-Binding Proteins metabolism, Drosophila enzymology, Guanosine Triphosphate pharmacology, Polydeoxyribonucleotides metabolism

Abstract

A Z-DNA binding protein has been isolated and characterized by biochemical means from Drosophila melanogaster tissue culture cells and embryos. This protein shares the following properties with the known, cloned Drosophila topoisomerase II: (1) expression of an ATP-dependent relaxation activity on supercoiled DNA; (2) a monomer mass of 165 kDa in SDS denaturing gels; (3) a sedimentation coefficient, S20,w, of approximately 10 S for the active enzyme; (4) cross-reactivity for the respective monoclonal and polyclonal antibodies; (5) generation of covalent enzyme-DNA intermediates at preferred cutting sites in the Drosophila HSP70 intergenic spacer region; (6) inhibition of DNA relaxation activity by antitumor drugs, e.g., the etoposide VM26, and by monospecific antibodies raised against the protein; and (7) in vitro phosphorylation by a casein kinase activity. However, we have identified new properties for our topoisomerase II preparation not previously reported for the conventionally isolated enzyme: (1) The enzyme binds to Z-DNA with an affinity 2 orders of magnitude greater than that for B-DNA. (2) The binding to Z-DNA is increased 5-10-fold by GTP or GTP-gamma-S. (3) GTP and GTP-gamma-S inhibit the catalytic activity of topoisomerase II through a proposed allosteric mechanism. (4) Z-DNA inhibits the relaxation of closed circular supercoiled DNA. (5) The preparation consists of a single polypeptide chain of 165 kDa on denaturing SDS gels with no evidence of proteolytic degradation. We postulate that the Z-DNA binding activity of undegraded topoisomerase II may be important in targeting the enzyme both to structural motifs required for chromatin organization and to sites of local supercoiling. Some of these features arise during processes such as replication and gene expression and may be more frequent during embryogenesis and early development.

Published

1993

10. Advances in DNA electrophoresis in polymer solutions.

Author

Tietz D, Aldroubi A, Pulyaeva H, Guszczynski T, Garner MM, and Chrambach A

Subjects

Acrylic Resins, DNA chemistry, Evaluation Studies as Topic, Particle Size, Sepharose, Solutions, DNA isolation & purification, Electrophoresis, Agar Gel methods, Electrophoresis, Polyacrylamide Gel methods

Abstract

DNA electrophoresis in gels and solutions of agarose and polyacrylamide was objectively evaluated with regard to separation efficiency at optimal polymer concentrations. In application to DNA fragments, polyacrylamide gels were superior for separating fragments of less than 7800 bp, and agarose gels are the best choice for larger fragments. Agarose solutions are nearly as good as polyacrylamide gels for small DNA (< 300 bp). Agarose solutions have a higher efficiency than polyacrylamide solutions for DNA of less than 1200 bp. Separation efficiency sharply decreases with increasing length of DNA. Retardation in polyacrylamide solutions was found to depend on polymer length in a biphasic fashion. The choice of resolving polymer concentrations depends on the progressive stretching of DNA in proportion to polymer concentration. The rate of that stretching appears higher in polyacrylmide solution than in gels or in liquid or gelled agarose. Application of polymer solutions to capillary electrophoresis raises further problems concerning agarose plugs, DNA interactions with the polymers, operation at low field strength and long durations as well as detection sensitivity.

Published

1992

11. Computer-aided analysis of DNA curves on transverse gradient gels.

Author

Wheeler D, Orban L, Garner MM, and Chrambach A

Subjects

Buffers, Confidence Intervals, DNA chemistry, Reproducibility of Results, Staining and Labeling, DNA analysis, Electrophoresis, Polyacrylamide Gel, Image Processing, Computer-Assisted

Abstract

Transverse pore gradient polyacrylamide gel electrophoresis of DNA restriction fragments was used to generate gel patterns describing migration distance as a function of gel concentration (Ferguson curves). These Ferguson curves were digitized, traced and analyzed with the aid of a personal computer. The traced curves were plotted semi-logarithmically and the plots were subjected to least-squares linear regression analysis to yield values of the slope (KR) and the intercept at %T = 0 (YO). These values are highly precise since they are based on approx. 100 measurements per curve. The computerized method reduces the errors due to manual measurements of migration distances and is time and labor saving. The method is still limited to intra-experimental comparison of Ferguson curves, since it does not as yet comprise a determination of gel concentration. At present, curve tracing remains semi-automated, requiring manual intervention when Ferguson curves cross or approach one another. Potentially, the importance of the computerized analysis of transverse pore gradient gels lies in the rapid quantitative interpretation of Ferguson curves for detection of anomalously migrating DNA species. Potentially, that application provides a more sensitive and informative mode of detection than either the mere visual observation of crossing Ferguson curves or of a shift in mobility at a single gel concentration.

Published

1992

12. Effect of Z-DNA on nucleosome placement.

Author

Garner MM and Felsenfeld G

Subjects

Base Composition, Centrifugation, Density Gradient, DNA, Superhelical, Electrophoresis, Agar Gel, Plasmids, DNA, Nucleic Acid Conformation, Nucleosomes metabolism

Abstract

Histone octamers were reconstituted on plasmids carrying the alternating nucleotide sequence (G-C)15. The plasmids, radioactively labeled at one of two neighboring sites near the (G-C) insert, were digested with micrococcal nuclease. Nucleosome core particles were isolated and the monomer DNA subjected to restriction analysis. Quite different results are obtained if the reconstitution is carried out with relaxed plasmids, in which the (G-C) insert is in the B form, or with supercoiled plasmids, where it is in the Z form. With supercoiled plasmids, there is a marked reduction (compared with relaxed plasmids) in the abundance of labeled monomers, the result of a large decrease in core particles carrying any (G-C) sequence. Some core particles formed on supercoiled (Z) plasmids are positioned either just outside the (G-C) sequence, or with the sequence occupying the terminal position within the core particle. In contrast, monomers obtained from relaxed plasmids incorporate the (G-C) sequence in the B form more or less randomly in the interior of the core particle; species showing discrete positioning make only a minor contribution. We conclude that DNA in the Z form cannot be incorporated within core particles, except at their termini, and that a transition from the B to the Z form in vivo might result in a significantly altered local placement of nucleosomes.

Published

1987

13. A gel electrophoresis method for quantifying the binding of proteins to specific DNA regions: application to components of the Escherichia coli lactose operon regulatory system.

Author

Garner MM and Revzin A

Subjects

Carrier Proteins metabolism, Cloning, Molecular, DNA metabolism, DNA Restriction Enzymes, DNA, Bacterial metabolism, DNA-Binding Proteins, DNA-Directed RNA Polymerases metabolism, Escherichia coli metabolism, Macromolecular Substances, Plasmids, Receptors, Cyclic AMP metabolism, Carrier Proteins genetics, DNA genetics, DNA, Bacterial genetics, Escherichia coli genetics, Lac Operon

Abstract

The use of gel electrophoresis for quantitative studies of DNA-protein interactions is described. This rapid and simple technique involves separation of free DNA from DNA-protein complexes based on differences in their electrophoretic mobilities in polyacrylamide gels. Under favorable conditions both unbound DNA and DNA associated with protein can be quantified. This gel method is applied to the study of the E. coli lactose operon regulatory system. At ionic strengths in the physiological range, the catabolite activator protein (CAP) is shown to form a long-lived complex with the wild type lac promotor, but not with a CAP-insensitive mutant. Formation of a stable "open" or "melted-in" complex of RNA polymerase with the wild type promoter requires the participation of CAP and cyclic AMP. Further, it is demonstrated that even when pre-formed in the presence of CAP-cAMP, the polymerase-promoter open complex becomes unstable if CAP is then selectively removed.

Published

1981