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1.
A systematic study of field inversion gel electrophoresis.   总被引:5,自引:3,他引:2       下载免费PDF全文
The mobilities of oligomers of phage lambda DNA and of yeast chromosomes in agarose gels during field inversion gel electrophoresis (FIGE) were measured at different pulse times and electric fields. Also the ratios between forward and backward pulse times and/or field gradients were varied. The problem of 'band inversion' during FIGE, leading to an ambiguity in the mobility of large DNA fragments, was solved by using two dimensional gel electrophoresis with different parameters in the first and second dimension. The results are compared with those obtained with other pulsed electrophoresis systems and with a theoretical model.  相似文献   

2.
Circular DNAs have been shown to migrate in an unusual manner during field inversion gel electrophoresis (FIGE) and orthogonal field alternating gel electrophoresis (OFAGE). We studied the effect of varying pulse time and agarose concentration on the electrophoretic mobility of supercoiled (ccc) DNAs ranging from 2 kbp to 16 kbp during FIGE and contoured homogeneous electric fields (CHEF). Both supercoiled and linear molecules display a minimum mobility as a function of pulse time in a CHEF apparatus. Linear and cccDNAs of the same size are differently affected by pulse time. Pulse-time dependence was observed for cccDNAs in both systems. Pulse-time dependence in FIGE is very small at a 1.0% agarose concentration, but is pronounced in 0.8% or 1.2% gels.  相似文献   

3.
S B Smith  C Heller  C Bustamante 《Biochemistry》1991,30(21):5264-5274
A model is presented for the motion of individual molecules of DNA undergoing pulse field gel electrophoresis (PFGE). The molecule is represented by a chain of charged beads connected by entropic springs, and the gel is represented by a segmented tube surrounding the beads. This model differs from earlier reptation/tube models in that the tube is allowed to leak in certain places and the chain can double over and flow out of the side of the tube in kinks. It is found that these kinks often lead to the formation of U shapes, which are a major source of retardation in PFGE. The results of computer simulations using this model are compared with real DNA experimental results for the following cases: steady field motion as seen in fluorescence microscopy, mobility in steady fields, mobility in transverse field alternation gel electrophoresis (TFAGE), mobility in field inversion gel electrophoresis (FIGE), and linear dichroism (LD) of DNA in agarose gels during PFGE. Good agreement between the simulations and the experimental results is obtained.  相似文献   

4.
The newly designed equipment for alternating field gel electrophoresis which permits the separation of very large DNA molecules and the simultaneous analysis of up to 35 samples is described. The field alternation is effected by intermittently rotating the submerged agarose gel by optitional angles. The time intervals between changes of position are controlled by a computer program driving a simple switching device which was designed to suit any technique using periodic switching or inversion of the electrical field. Because the electrophoresis unit provides an absolutely homogeneous electrical field, no distortion of migration lanes occurs and the resolution is very good. Moreover, by using a switching time interval gradient an almost perfect linear relationship between migration distances and molecule sizes in the range of about 100-1250 kilobase pairs is observed. In two-dimensional separations, different switching time programs for the first and second dimension allow maximum resolution of selected size ranges. Field inversion gel electrophoresis is possible as well. The performance of the method is demonstrated by comparing the chromosome sizes of different yeast strains.  相似文献   

5.
C Heller  S Beck 《Nucleic acids research》1992,20(10):2447-2452
The velocities of single stranded DNA molecules in denaturing polyacrylamide gels during symmetric and asymmetric field inversion were measured at different pulse times and gel concentrations. Under the conditions chosen in our study, pulse times as short as a few milliseconds lead to a retardation of DNA molecules larger than 400 bases. We found that a field inversion with an electric field in the forward direction of about double the strength of that applied in the backward direction is a good compromise between the degree of retardation, the temperature control requirements and the run time of the gel.  相似文献   

6.
The effects of variation in the lengths of forward and reverse pulses, voltage gradient, gel concentration and gel temperature on the mobility of DNA molecules in agarose gels during field inversion gel electrophoresis (FIGE) have been determined. A curve, which best fits the empirical data, is presented and allows the choice of pulse conditions and voltage gradient most suitable for the resolution of molecules of chosen size. The use of FIGE in the analysis and direct mapping of large virus genomes is illustrated using vaccinia virus DNA.  相似文献   

7.
The physical characteristics of the plastid DNA in Neospora caninum were investigated using pulsed-field gel electrophoresis and TEM. In a comparison of contour-clamped homogenous electric field and field inversion gel electrophoresis, the latter proved the more successful technique for studying the plastid molecules. In most cases, restriction or modifying enzymes were required to enable the plastid DNA molecules to enter the gel from the well area. The unit length of the plastid of N. caninum is approximately 35 kb; however, there is evidence for the formation of oligomeric molecules, which may migrate as linear molecules in approximate multiples of the unit length. Four different plastid genes encoding the ssrRNA, lsrRNA, rpoC and tufA genes were identified by hybridisation studies of contour-clamped homogenous electric field and field inversion gel electrophoresis gels. Transmission EM was performed on isolated plastid DNA, and circular structures similar in size and appearance to those described in other apicomplexans were observed, with an approximate length of 19 microm. The data presented here conclusively show that the Nc-Liverpool canine strain of N. caninum possesses a plastid DNA, with physical characteristics similar to the plastids found in other apicomplexans.  相似文献   

8.
Conventional agarose gel electrophoresis separates DNA using a static electric field. The maximum size limit for separation of DNA by this method is about 20 kilobase pairs (kb). A number of new electrophoretic techniques which employ periodic reorientation of electric fields permit separation of DNA well beyond this size limit. We sought to determine whether the use of very fast (millisecond) field switching could improve separation of DNA in the size range of 1 to 50 kb. Additionally, we have compared the resolution obtained with each of the different field switching regimens for DNA in this size range. Switching intervals of from 0.2 to 900 ms were used with unidirectional pulsing of a single electric field, with pulsed field gels, and with field inversion gel electrophoresis. Plotting the mobility of DNA as a function of size demonstrates that under the conditions used, each of these techniques offers comparable resolution. We also have examined the separation obtained when field inversion gels are run with forward and reverse fields of equal voltage and different durations, versus using fields of equal duration and different voltages. Field inversion which uses forward and reverse fields of different voltages yields resolution which is superior to the other methods examined.  相似文献   

9.
Pulsed-field capillary electrophoresis represents a new tool for rapid and highly efficient separations of large biopolymers. The method has been utilized here to study dependencies of the electrophoretic mobility upon the frequency and pulse shape of applied voltage for large, double-stranded DNA molecules (5-100 kb) migrating in neutral polymer solutions. Two different shapes of alternating electric field (sine- and square-wave impulses) were examined with the frequency values ranging from 1 to 30 Hz. The linear dependence between duration of the forward pulse (at which the DNA molecule experiences a minimum mobility) and the product N.In(N) (where N is the number of base pairs) was experienced in field-inversion gel electrophoresis, while exponential dependence was found with the sinusoidal electric field. The mobility minima were lower in field-inversion electrophoresis than with the biased sinusoidal-field technique. The DNA (5 kb concatamers) was adequately separated using a ramp of frequency in the square-wave electric field, in approximately 1 h. The migration order of DNA fragments was referenced through adding a monodisperse DNA (48.5 kb) into the sample. The band inversion phenomena were not observed under any experimental conditions used in this work.  相似文献   

10.
T Woolf  E Lai  M Kronenberg    L Hood 《Nucleic acids research》1988,16(9):3863-3875
A new two-dimensional gel electrophoresis technique has been developed for the mapping of multigene families. Resolution in the first dimension is based on the generation of large size DNA fragments by infrequently-cutting restriction enzymes, and separation of these fragments by field inversion gel (FIG) electrophoresis. A second restriction enzyme digestion is then carried out with the separated DNA fragments in the agarose gel. Standard gel electrophoresis in the second dimension allows one to estimate the number of hybridizing genes contained in each large DNA fragment. We have also developed a novel method to increase the separation, resolution and hybridization signal in the second dimension by condensing the bands from the first dimension into spots. As an example, we have applied these techniques to determine the organization of the murine T-cell receptor gamma locus. The murine gamma gene family was found to be contained on two DNA fragments encompassing 195 kilobases of DNA. The two-dimensional gel electrophoresis method is particularly useful in the analysis of the organization of multigenic families where single copy probes are not readily available, and should extend the potential usefulness of field inversion gel electrophoresis in gene mapping.  相似文献   

11.
The transient orientation of lambda DNA and lambda-DNA oligomers has been measured during pulsed field gel electrophoresis. The DNA becomes substantially aligned parallel to the electric field E. In response to a single rectangular pulse, orientation shows an overshoot with a peak at 1 second, then a small undershoot, and finally a plateau. When the field is turned off, the orientation dissipates in two distinct exponential phases. Field inversion leads to periods of orientation with intervening periods of reduced orientation as the chains reverse direction. Field inversion pulses applied to linear oligomers of lambda-DNA show that orientation responses slow down but increase in amplitude as molecular weight increases, for a given field. Because DNA stretching and alignment parallel to E are expected to correlate with DNA velocity, the velocity in response to a pulsed field is also expected to exhibit an overshoot.  相似文献   

12.
We have examined the use of pulsed-field gel electrophoresis (PFGE) to measure DNA double-strand breaks induced in CHO cells by ionizing radiation. The PFGE assay provides a simple method for the measurement of DNA double-strand breaks for doses as low as 3-4 Gy ionizing radiation, and appears applicable for the measurement of damage produced by any agent producing double-strand breaks. The conditions of transverse alternating field electrophoresis determined both the sensitivity of the assay and the ability to resolve DNA fragments with different sizes. For example, with 0.8% agarose and a 1-min pulse time at 250 V for 18 h of electrophoresis, 0.39% of the DNA per gray migrated into the gel, and only molecules less than 1500 kb could be resolved. With 0.56% agarose and a 60-min pulse time at 40 V for 6 days of electrophoresis, 0.55-0.90% of the DNA per gray migrated into the gel, and molecules between 1500 and 7000 kb could be resolved.  相似文献   

13.
N J Rampino  A Chrambach 《Biopolymers》1991,31(11):1297-1307
Individual DNA molecules in the Mb size range were monitored by epifluorescence video microscopy during field inversion gel electrophoresis (FIGE). DNA migrating in an agarose gel gives rise to characteristic V-conformational elements and when doing so exhibits a reduced mobility. When the V-conformational elements per DNA molecule are few, the degree of retardation appears proportional to the number of V's, and since larger DNA species exhibit more V's, to DNA size. For a particular pulse frequency, the proportionality breaks down progressively as the number of V-conformational elements per DNA molecule increases. The loss of proportionality between DNA length and migration rate is being correlated with the macroscopically observed loss of electrophoretic size discrimination known as band compression. For a particular pulsing frequency and size class of DNA, the loss of size discrimination is thought to be due to the different orientations of migration, caused by the asymmetric distribution of V-conformational elements when the number of these elements is moderate. Small and very large DNA by contrast migrate with the direction of the biased field. These events, analyzed by microscopic measurement, are consistent with the known macroscopically observed double-valued mobilities in FIGE.  相似文献   

14.
The genomes of 11 Bradyrhizobium japonicum serocluster 123 field isolates were analyzed by using field inversion gel electrophoresis. Genomic fingerprints produced by digestion of intact genomic DNA in agarose plugs with the rare-cutting restriction enzymes AseI, DraI, SpeI, and XbaI showed that the isolates were genetically diverse. Few (30 to 50%) isolates exhibited the same fingerprint as the USDA serogroup strain with which they are antigenically related. Southern hybridization with a nifHD gene probe to the blotted field inversion electrophoresis gels provided further evidence of the relatedness between members of serogroups 123 and 127.  相似文献   

15.
The genomes of 11 Bradyrhizobium japonicum serocluster 123 field isolates were analyzed by using field inversion gel electrophoresis. Genomic fingerprints produced by digestion of intact genomic DNA in agarose plugs with the rare-cutting restriction enzymes AseI, DraI, SpeI, and XbaI showed that the isolates were genetically diverse. Few (30 to 50%) isolates exhibited the same fingerprint as the USDA serogroup strain with which they are antigenically related. Southern hybridization with a nifHD gene probe to the blotted field inversion electrophoresis gels provided further evidence of the relatedness between members of serogroups 123 and 127.  相似文献   

16.
B W Birren  M I Simon    E Lai 《Nucleic acids research》1990,18(6):1481-1487
We have previously shown that asymmetric-voltage field inversion electrophoresis produces more uniform separation for fragments between 1 and 50 kilobases (kb) than other modes of pulsed field gel electrophoresis. We now report on the basis of this phenomenon. As in conventional electrophoresis, the pulsed field mobility of DNAs between 1 and 50 kb varies with voltage in a size dependent manner. The complex migration pattern obtained with asymmetric-voltage field inversion electrophoresis reflects the difference between the mobilities of each sized fragment under the conditions used for the forward and reverse fields. We have applied this technique to DNA sequencing gels and find improvement in resolution for single-stranded fragments in polyacrylamide gels.  相似文献   

17.
Five pathogenic strains each of Staphylococcus epidermidis, S. haemolyticus, S. lugdunensis and S. schleiferi were analysed by conventional electrophoresis and field inversion gel electrophoresis. For these coagulase-negative staphylococci, the restriction endonuclease SmaI emerged as the most suitable enzyme for pulsed-field electrophoresis by providing an adequate number of clearly separated DNA fragments. Field inversion gel electrophoresis confirmed the differences among strains already discriminated by conventional electrophoresis, and furthermore, differentiated strains which had previously appeared identical. Among the species that were studied, S. epidermidis showed great genomic diversity with a few common bands. On the contrary, S. haemolyticus, S. lugdunensis and S. schleiferi showed less diversity. Although these minor variations may be epidemiologically significant, this question has to be investigated on a larger number of strains.  相似文献   

18.
BBC microcomputer controlled field inversion gel electrophoresis   总被引:1,自引:0,他引:1  
Agarose gel electrophoresis to separate DNA molecules is a widelyused technique in molecular biology but there is an upper limitto the sizes that can be resolved. Pulsed field techniques haveextended this limit but require expensive equipment. Here wedescribe a home-made control unit to interface conventionalelectrophoresis equipment to a BBC microcomputer for the purposesof field inversion gel electrophoresis. Received on October 6, 1987; accepted on November 10, 1987  相似文献   

19.
P Serwer  S J Hayes 《Biochemistry》1989,28(14):5827-5832
Pulsed field agarose gel (PFG) electrophoresis, originally used to improve the resolution by length of linear DNA [Cantor et al. (1988) Annu. Rev. Biophys. Biophys. Chem. 17, 287-304], is found here to cause atypical sieving of 48.5-97.0-kb open circular DNA. Two procedures of PFG electrophoresis are used: rotating gel electrophoresis with rotation of 2 pi radians [2 pi RGE; Serwer, P., & Hayes, S.J. (1989) Appl. Theor. Electrophor. (in press)] and field inversion gel electrophoresis [FIGE; Carle, G.F., Frank, M., & Olson, M. V. (1986) Science 232, 65-68]. During 2 pi RGE at 6 V/cm, the electrophoretic mobility (mu) of 48.5-kb open circular DNA increases in magnitude as agarose percentage (A) increases from 0.4 to 1.5. The sieving revealed by this mu vs A relationship is highly atypical (possibly unique) for any particle. The extent of this atypical sieving increases as electrical potential gradient, DNA length, and pulse time increase. In some cases a maximum is observed in a plot of mu's magnitude vs A. The mu of open circular lambda DNA is smaller in magnitude than the mu of equally long linear lambda DNA. Atypical sieving has also been observed by use of FIGE. As pulse times used during FIGE decrease below those achievable by 2 pi RGE, the progressive loss of circular DNA's atypical sieving is accompanied by both a dramatic increase in mu's magnitude at the lower A values and a decrease in mu's magnitude at the higher A values. At the lower A values, open circular DNA sometimes migrates more rapidly than linear DNA of the same length.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

20.
The fractionation of eukaryotic DNA by field inversion gel electrophoresis results in the appearance of discrete DNA-fragments. The set of these fragments is similar to that of different eukaryotic representatives and consists of various chromosomal DNAs, unified by size. The physical properties of DNA-fragments suggest that they can form multimeric structures due to the presence of sticky ends flanking discrete fragments. We suppose that the set of discrete DNA-fragments results in a specific cleavage of intact nuclear DNA and can reflect different levels of chromatin structural organization.  相似文献   

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