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Abstract
The determination of mutation rates is an important experimental procedure for characterizing mutation processes. The accepted method of determining mutation rates, the fluctuation test, was introduced by Luria and Delbrück in 1943. Since then it has been applied to various microorganisms and cells. The Luria-Delbrück test is based on a restrictive hypothesis of mutations being due to single irreversible events. However, some inherited changes in phenotype, like gene amplification, may be due to two or more genetic changes, some of which may be reversible. The Luria-Delbrück model of mutation was compared to other models which included reversibility and more than one mutation stage. The Luria-Delbrück model has been confirmed to be consistent with the original bacteriophage resistance data. However, for gene amplification this model gives incompatible estimates of mutation rates by the P0 and r methods. Relaxing the hypotheses of the single-stage models did not improve the fit. In contrast, a two-stage reversible model provided a fit. Analysis of gene amplification data by the two-stage reversible model provides new information, including estimates of rates for each of the two forward stages and of the reverse step.
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Affiliation(s)
- M Kimmel
- Department of Statistics, Rice University, Houston, TX 77251
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3
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Hunter DJ, Gurney EG. The genomic instability associated with integrated simian virus 40 DNA is dependent on the origin of replication and early control region. J Virol 1994; 68:787-96. [PMID: 8289382 PMCID: PMC236515 DOI: 10.1128/jvi.68.2.787-796.1994] [Citation(s) in RCA: 19] [Impact Index Per Article: 0.6] [Reference Citation Analysis] [Abstract] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 01/29/2023] Open
Abstract
DNA rearrangements in the form of deletions and duplications are found within and near integrated simian virus 40 (SV40) DNA in nonpermissive cell lines. We have found that rearrangements also occur frequently with integrated pSV2neo plasmid DNA. pSV2neo contains the entire SV40 control region, including the origin of replication, both promoters, and the enhancer sequences. Linearized plasmid DNA was electroporated into X1, an SV40-transformed mouse cell line that expresses SV40 large T antigen (T Ag) and shows very frequent rearrangements at the SV40 locus, and into LMtk-, a spontaneously transformed mouse cell line that contains no SV40 DNA. Stability was analyzed by subcloning G-418-resistant clones and examining specific DNA fragments for alterations in size. Five independent X1 clones containing pSV2neo DNA were unstable at both the neo locus and the T Ag locus. By contrast, four X1 clones containing mutants of pSV2neo with small deletions in the SV40 core origin and three X1 clones containing a different neo plasmid lacking SV40 sequences were stable at the neo locus, although they were still unstable at the T Ag locus. Surprisingly, five independent LMtk- clones containing pSV2neo DNA were unstable at the neo locus. LMtk- clones containing origin deletion mutants were more stable but were not as stable as the X1 clones containing the same plasmid DNA. We conclude that the SV40 origin of replication and early control region are sufficient viral components for the genomic instability at sites of SV40 integration and that SV40 T Ag is not required.
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Affiliation(s)
- D J Hunter
- Department of Biology, University of Utah, Salt Lake City 84112
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4
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Acquisition of telomere repeat sequences by transfected DNA integrated at the site of a chromosome break. Mol Cell Biol 1993. [PMID: 8423817 DOI: 10.1128/mcb.13.2.977] [Citation(s) in RCA: 40] [Impact Index Per Article: 1.3] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/20/2022] Open
Abstract
Previous analysis of plasmid DNA transfected into 108 cell clones demonstrated extensive polymorphism near the integration site in one clone. This polymorphism was apparent by Southern blot analysis as diffuse bands that extended over 30 kb. In the present study, nucleotide sequence analysis of cloned DNA from the integration site revealed telomere repeat sequences at the ends of the integrated plasmid DNA. The telomere repeat sequences at one end were located at the junction between the plasmid and cell DNA. The telomere repeat sequences at the other end were located in the opposite orientation in the polymorphic region and were shown by digestion with BAL 31 to be at the end of the chromosome. Telomere repeat sequences were not found at this location in the plasmid or parent cell DNA. Although the repeat sequences may have been acquired by recombination, a more likely explanation is that they were added to the ends of the plasmid by telomerase before integration. Comparison of the cell DNA before and after integration revealed that a chromosome break had occurred at the integration site, which was shown by fluorescent in situ hybridization to be located near the telomere of chromosome 13. These results demonstrate that chromosome breakage and rearrangement can result in interstitial telomere repeat sequences within the human genome. These sequences could promote genomic instability, because short repeat sequences can be recombinational hotspots. The results also show that DNA rearrangements involving telomere repeat sequences can be associated with chromosome breaks. The introduction of telomere repeat sequences at spontaneous or ionizing radiation-induced DNA strand breaks may therefore also be a mechanism of chromosome fragmentation.
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Murnane JP, Yu LC. Acquisition of telomere repeat sequences by transfected DNA integrated at the site of a chromosome break. Mol Cell Biol 1993; 13:977-83. [PMID: 8423817 PMCID: PMC358982 DOI: 10.1128/mcb.13.2.977-983.1993] [Citation(s) in RCA: 12] [Impact Index Per Article: 0.4] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 01/30/2023] Open
Abstract
Previous analysis of plasmid DNA transfected into 108 cell clones demonstrated extensive polymorphism near the integration site in one clone. This polymorphism was apparent by Southern blot analysis as diffuse bands that extended over 30 kb. In the present study, nucleotide sequence analysis of cloned DNA from the integration site revealed telomere repeat sequences at the ends of the integrated plasmid DNA. The telomere repeat sequences at one end were located at the junction between the plasmid and cell DNA. The telomere repeat sequences at the other end were located in the opposite orientation in the polymorphic region and were shown by digestion with BAL 31 to be at the end of the chromosome. Telomere repeat sequences were not found at this location in the plasmid or parent cell DNA. Although the repeat sequences may have been acquired by recombination, a more likely explanation is that they were added to the ends of the plasmid by telomerase before integration. Comparison of the cell DNA before and after integration revealed that a chromosome break had occurred at the integration site, which was shown by fluorescent in situ hybridization to be located near the telomere of chromosome 13. These results demonstrate that chromosome breakage and rearrangement can result in interstitial telomere repeat sequences within the human genome. These sequences could promote genomic instability, because short repeat sequences can be recombinational hotspots. The results also show that DNA rearrangements involving telomere repeat sequences can be associated with chromosome breaks. The introduction of telomere repeat sequences at spontaneous or ionizing radiation-induced DNA strand breaks may therefore also be a mechanism of chromosome fragmentation.
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Affiliation(s)
- J P Murnane
- Laboratory of Radiobiology and Environmental Health, University of California, San Francisco 94143-0750
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Abstract
It is now clear from in vitro studies that mutagens induce recombination in the cell, both homologous and nonhomologous exchanges. The recombination events induced are extrachromosomal events, exchanges between extrachromosomal DNA and chromosomes, and inter- as well as intrachromosomal exchanges. However, not all types of DNA damage can induce recombination. The mechanisms involved in the induction process are not known but may involve activation of DNA repair systems. In addition, stimulation of mRNA transcription by mutagens, different recombination pathways and how the assay system is constructed may affect the frequency and characteristics of the observed recombination events.
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Affiliation(s)
- D Hellgren
- Department of Clinical Genetics, Karolinska Hospital, Karolinska Institute, Stockholm, Sweden
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Roelofs H, Tasseron-de Jong JG, van der Wal-Aker J, Rodenburg RJ, van Houten GB, van de Putte P, Giphart-Gassler M. Gene amplification in a human osteosarcoma cell line results in the persistence of the original chromosome and the formation of translocation chromosomes. Mutat Res 1992; 276:241-60. [PMID: 1374517 DOI: 10.1016/0165-1110(92)90011-w] [Citation(s) in RCA: 12] [Impact Index Per Article: 0.4] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 12/26/2022]
Abstract
Although gene amplification, a process that is markedly enhanced in tumor cells, has been studied in many different cell systems, there is still controversy about the mechanism(s) involved in this process. It is still unclear what happens to the DNA sequences that become amplified, whether they remain present at their original location (conservative gene amplification) or whether gene amplification necessarily results in a deletion at the original location (non-conservative gene amplification). We have studied gene amplification in a human osteosarcoma cell line, starting from a cell clone which contains only one copy of a plasmid integrate. Independent amplificants, originating from this clone and containing elevated plasmid copy numbers, were isolated and analyzed. Based on previous observations, encompassing the persistence of single-copy DNA sequences besides amplified DNA sequences clustered at a different location in the independent amplificants, we proposed an amplification pathway including a local duplication step and transposition of the duplicated DNA to other chromosomal positions. Now we have extended our study to more independent amplificants. We prove that the single-copy plasmid-containing chromosomes in the different amplificants and the single-copy plasmid-containing chromosome in the original parental cell clone are indeed identical, namely a translocation chromosome composed of at least three parts of which two originate from chromosomes 14 and 17. We show that the unit of amplification and the unit of the proposed transposition event are at least 1.5 Mb. We also demonstrate that the amplified DNA sequences, present at genomic locations other than the original single-copy DNA sequences, are preferentially associated with chromosome 16. We find that the amplified DNA sequences are often located at or near a site of chromosome translocation involving chromosome 16. In one cell clone we detect the amplified DNA sequences in most of the cells to be located within a complete chromosome 16 while in a minority of cells the amplified sequences are located at or near a breakpoint on a translocation chromosome 16. This indicates that this amplification region is highly unstable and frequently gives rise to translocation events.
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Affiliation(s)
- H Roelofs
- Department of Molecular Genetics, University of Leiden, The Netherlands
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Abstract
We have developed a plasmid-based system for isolating gene rearrangements in mammalian cells by selection for reversion of a promoterless drug resistance gene. pNH4 contains the selectable marker gene neo under the control of the herpes simplex virus, thymidine kinase (tk) promoter and, upstream and in the opposite orientation, a dormant promoterless hygromycin B resistance gene (hph) that can be expressed following rearrangement events. An NIH 3T3 cell line stably transfected with pNH4 that has a spontaneous frequency of generation of Hphr colonies of approximately 10(-8) was isolated. Treatment of this line with ethyl methanesulfonate raised the frequency of Hphr colony formation approximately 100-fold. Approximately 60% (21 of 35) of ethyl methanesulfonate-induced Hphr clones showed rearrangements detectable by Southern blot analysis within a 40-kb region surrounding the integrated construct, including a nonhomologous recombination event and, possibly, a large insertion. Additionally, three Hphr clones showed evidence of gene amplification. Northern (RNA) blot analysis of hph mRNA suggests that the rearrangements may provide a function that allows the tk promoter to initiate transcription off the opposite strand, thus yielding hph transcripts. Cell lines harboring pNH4, or modifications of it, may be valuable for studying recombination mechanisms responsible for the various types of genetic rearrangements found in cancer cells.
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Krauss RS, Weinstein IB. A novel, plasmid-based system for studying gene rearrangements in mammalian cells. Mol Cell Biol 1991; 11:3915-24. [PMID: 2072898 PMCID: PMC361183 DOI: 10.1128/mcb.11.8.3915-3924.1991] [Citation(s) in RCA: 4] [Impact Index Per Article: 0.1] [Reference Citation Analysis] [Abstract] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 12/30/2022] Open
Abstract
We have developed a plasmid-based system for isolating gene rearrangements in mammalian cells by selection for reversion of a promoterless drug resistance gene. pNH4 contains the selectable marker gene neo under the control of the herpes simplex virus, thymidine kinase (tk) promoter and, upstream and in the opposite orientation, a dormant promoterless hygromycin B resistance gene (hph) that can be expressed following rearrangement events. An NIH 3T3 cell line stably transfected with pNH4 that has a spontaneous frequency of generation of Hphr colonies of approximately 10(-8) was isolated. Treatment of this line with ethyl methanesulfonate raised the frequency of Hphr colony formation approximately 100-fold. Approximately 60% (21 of 35) of ethyl methanesulfonate-induced Hphr clones showed rearrangements detectable by Southern blot analysis within a 40-kb region surrounding the integrated construct, including a nonhomologous recombination event and, possibly, a large insertion. Additionally, three Hphr clones showed evidence of gene amplification. Northern (RNA) blot analysis of hph mRNA suggests that the rearrangements may provide a function that allows the tk promoter to initiate transcription off the opposite strand, thus yielding hph transcripts. Cell lines harboring pNH4, or modifications of it, may be valuable for studying recombination mechanisms responsible for the various types of genetic rearrangements found in cancer cells.
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Affiliation(s)
- R S Krauss
- Institute of Cancer Research and Comprehensive Cancer Center, Columbia University College of Physicians and Surgeons, New York, New York 10032
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10
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Abstract
Genome instability has been associated with progression of transformed cells to high tumorigenicity. Although genome instability may result from a variety of factors, some studies suggest that DNA in the region of a chromosome rearrangement can subsequently have much higher rates of DNA deletions or gene amplification. One approach to studying the factors that produce these high rates of DNA rearrangement is by analysis of unstable integration sites for DNA transfected into mammalian cells. Integrated sequences commonly show a temporary instability, and at rare locations this instability is continuous and can be observed even after multiple subclonings. These continuously unstable locations undergo DNA amplification of both the integrated sequences and the surrounding cell DNA, and it can occur either at the original site or on episomes after looping out from the chromosome. Because the adjacent cell DNA plays a role in this instability, and the region can be shown to be stable before integration, the results indicate that these recombinational hotspots can be formed de novo by the process of integration. Current studies are attempting to determine which sequences are responsible for the high rates of recombination and whether similar types of event are involved in the instability associated with endogenous cellular genes in cancer cells.
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Affiliation(s)
- J P Murnane
- Laboratory of Radiobiology and Environmental Health, University of California, San Francisco 94143-0750
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Cheng RZ, Murano S, Kurz B, Shmookler Reis RJ. Homologous recombination is elevated in some Werner-like syndromes but not during normal in vitro or in vivo senescence of mammalian cells. Mutat Res 1990; 237:259-69. [PMID: 2079965 DOI: 10.1016/0921-8734(90)90008-f] [Citation(s) in RCA: 52] [Impact Index Per Article: 1.5] [Reference Citation Analysis] [Abstract] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 12/30/2022]
Abstract
Werner syndrome (WS) is a recessive genetic condition associated with markedly reduced replicative lifespans of cells in culture, high chromosomal instability in vivo and in vitro, and premature appearance of many characteristics of normal aging, including an increased incidence of cancer. We have monitored plasmid homologous recombination frequencies in diploid fibroblasts from 6 Werner or Werner-like syndrome patients, following transfection with a plasmid substrate containing 2 overlapping fragments of the TN5 Neor gene. Plasmid DNA recovered from these cells was then assayed for homologous recombination by (a) transformation of recA- bacteria to Ampr (indicating total viable plasmid) or Neor (indicating viable recombinant plasmid), and (b) by limited-cycle polymerase chain reaction (PCR) to co-amplify a recombinant fragment containing the overlap region, and a control region of the same plasmid, without bacterial transformation. Bacterial assay data indicated that recombination rates in 3 of the 6 WS strains were significantly elevated above normal controls; 4 of 6 appeared elevated by PCR assay. The highest-recombination WS strain showed evidence of reduced degradation of transfected plasmid DNA. For this small sample of WS strains, clinical severity of WS was not well correlated with recombination rate as determined by either assay (Pearson r = 0.78, not significant, for PCR assay); elevated recombination may, however, define a subset of WS at greatest risk for cancer and/or atherosclerosis. PCR assay of a hyperoxia-resistant HeLa cell line, displaying substantially increased chromosome breakage, indicated increased recombination between direct-repeat fragments. Nevertheless, elevated recombination in WS strains is unlikely to be secondary to impaired replicative capacity characteristic of WS cells, or to defective repair of chromosome damage which is increased in WS, since recombination in non-WS strains was unaffected by passage level or repeated UV irradiation.
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Affiliation(s)
- R Z Cheng
- Department of Medicine, University of Arkansas for Medical Sciences, Little Rock
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Murnane JP, Yezzi MJ, Young BR. Recombination events during integration of transfected DNA into normal human cells. Nucleic Acids Res 1990; 18:2733-8. [PMID: 2339059 PMCID: PMC330758 DOI: 10.1093/nar/18.9.2733] [Citation(s) in RCA: 59] [Impact Index Per Article: 1.7] [Reference Citation Analysis] [Abstract] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 12/31/2022] Open
Abstract
The mechanisms of recombination responsible for random integration of transfected DNA into the genome of normal human cells have been investigated by analysis of plasmid-cell DNA junctions. Cell clones containing integrated plasmid sequences were selected by morphological transformation of primary human fibroblasts after transfection with a plasmid containing simian virus 40 sequences. Nucleotide sequence analysis of the plasmid-cell DNA junctions was performed on cloned DNA fragments containing the integration sites from two of these cell clones. Polymerase chain reaction was then performed with human cell DNA from primary fibroblasts to isolate the cell DNA from the same sites before plasmid integration. Comparison of the sequences at the plasmid-cell DNA junctions with those of both the original plasmid and the cell DNA demonstrated short sequence similarities and additional nucleotides, typical of nonhomologous recombination. Evidence of short deletions in the cell DNA at the plasmid integration sites suggests that integration occurred by a mechanism similar to that used for repair of spontaneous or gamma ray-induced strand breaks. Plasmid integration occurred within nonrepetitive cell DNA with no major rearrangements, although rearrangements of the cell DNA at the integration site occurred in one of the clones after integration.
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Affiliation(s)
- J P Murnane
- Laboratory of Radiobiology and Environmental Health, University of California, San Francisco 94143
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Murnane JP. Influence of cellular sequences on instability of plasmid integration sites in human cells. SOMATIC CELL AND MOLECULAR GENETICS 1990; 16:195-209. [PMID: 1972815 DOI: 10.1007/bf01233356] [Citation(s) in RCA: 9] [Impact Index Per Article: 0.3] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 12/29/2022]
Abstract
To learn more about mechanisms of genome instability in human cells, I investigated DNA sequences that promote high rates of recombination by analyzing rare unstable plasmid integration sites in simian virus 40-transformed human fibroblasts. Previous studies had hypothesized that rearrangement or loss of integrated sequences could be attributed to adjacent cellular DNA. Consistent with this interpretation, a cloned fragment containing both the integrated plasmid and 2.0 kb of adjacent cell DNA from one such unstable integration site in the cell line LM205 demonstrated a much higher incidence of rearrangements when integrated into other chromosome locations than did the original plasmid. To further test this hypothesis, portions of cellular DNA from this region were integrated in duplicate in other locations to determine their ability to promote restriction-fragment-length polymorphism, an indicator of high rates of homologous recombination. Although two types of instability were observed, neither could be attributed solely to the cell sequences being tested in the plasmid. The first type of instability was a transient deletion or amplification of the plasmid DNA soon after integration, which appeared to be a general phenomenon often associated with any type of newly integrated sequence. A second type of instability continued indefinitely for many cell generations, as did that observed in cell line LM205. Because this was rare (one of 78 clones tested), it could not be attributed solely to cell sequences contained within the plasmid. However, the rearrangements in this cell clone occurred exclusively within the cell DNA adjacent to the integration site, again suggesting a role for cis-acting cell sequences in this process. The inability to identify specific cell sequences responsible for instability may therefore indicate that a complex combination of sequences is involved, possibly within both the plasmid and cell DNA.
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Affiliation(s)
- J P Murnane
- Laboratory of Radiobiology and Environmental Health, University of California, San Francisco 94143
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Murnane JP, Young BR. Nucleotide sequence analysis of novel junctions near an unstable integrated plasmid in human cells. Gene X 1989; 84:201-5. [PMID: 2606360 DOI: 10.1016/0378-1119(89)90157-1] [Citation(s) in RCA: 13] [Impact Index Per Article: 0.4] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 01/01/2023] Open
Abstract
Characterization of human cell clones containing a promoterless selectable gene (neo), integrated at various locations in the genome, demonstrated that one of the integration sites had a high rate of spontaneous tandem duplications. Other investigators have suggested that specific sequences, such as short repeats, found near an integration site, could be responsible for this kind of instability. To learn more about this process, we sequenced the DNA at the recombination site in two independently derived subclones, and compared these sequences with those found in the parental cell DNA. The results demonstrate that specific sequences are not required at the recombination site. In one G418-resistant subclone, recombination occurred between an Alu retroposon in the cellular DNA and integrated pBR322 sequences sharing 3 bp of similarity at the recombination site. In the other subclone, recombination occurred between single-copy cellular DNA and integrated simian virus 40 sequences sharing a single bp of similarity at the recombination site. This heterogeneity at the recombination site indicates a general enhancement of the rate of recombination within the entire region, with little if any sequence specificity or similarity required.
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Affiliation(s)
- J P Murnane
- Laboratory of Radiobiology and Environmental Health, University of California, San Francisco 94143
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Chatterjee B, Lo CW. Chromosomal recombination and breakage associated with instability in mouse centrometric satellite DNA. J Mol Biol 1989; 210:303-12. [PMID: 2600968 DOI: 10.1016/0022-2836(89)90332-x] [Citation(s) in RCA: 5] [Impact Index Per Article: 0.1] [Reference Citation Analysis] [Abstract] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 01/01/2023]
Abstract
A mouse L cell line containing the centromeric insertion of herpes thymidine kinase genes (tk) was previously shown to undergo a high frequency of DNA rearrangement at the site of tk insertion. Analysis of TK- revertants had demonstrated that DNA rearrangements were usually associated with DNA deletion and were always mediated by intrachromosomal recombinations. In this study, we further analyzed several TK+ subclones to examine the mode of DNA rearrangements in the absence of negative selection pressure. In two clones, LC2-3F and LC2-3E17, rearrangements were accompanied by DNA amplification and were mediated by intrachromosomal recombination. In subclone LC2-3E17-19, we further detected perturbations in the pattern of centromeric heterochromatization. This was associated with chromosome instability, as evidenced by chromosome breakage at the centromere. The analysis of three other sibling clones, LC2-3, LC2-6 and LC2-15, further suggests that reciprocal recombination events may play a role in such centromeric rearrangements. These results suggest that DNA rearrangements in the centromere may be mediated by a number of different mechanisms, and generally do not affect chromosome stability except when accompanied by changes in the pattern of heterochromatization.
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Affiliation(s)
- B Chatterjee
- Biology Department, University of Pennsylvania, Philadelphia 19104-6017
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Slabaugh MB, Roseman NA, Mathews CK. Amplification of the ribonucleotide reductase small subunit gene: analysis of novel joints and the mechanism of gene duplication in vaccinia virus. Nucleic Acids Res 1989; 17:7073-88. [PMID: 2674905 PMCID: PMC318434 DOI: 10.1093/nar/17.17.7073] [Citation(s) in RCA: 28] [Impact Index Per Article: 0.8] [Reference Citation Analysis] [Abstract] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 01/02/2023] Open
Abstract
Amplification of the M2 gene encoding the small subunit of ribonucleotide reductase (EC 1.17.4.1) was analyzed in a collection of vaccinia virus (VV) isolates selected for resistance to 5 mM hydroxyurea (HU). Most of the mutants harbored tandem direct repeat arrays of the M2 gene, but several had duplicated M2 as an inverted repeat by genomic rearrangements involving the chromosomal termini. Novel joints formed by direct repeats were mapped, amplified in vitro, and sequenced. The junctions were simple fusions between DNA downstream and upstream of the M2 gene. Lack of sequence homology at the breakpoints indicated that the initial genomic rearrangements leading to gene amplification were due to nonhomologous recombination events.
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Affiliation(s)
- M B Slabaugh
- Department of Biochemistry and Biophysics, Oregon State University, Corvallis 97331-6503
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