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1.
S. H. Clark  M. McCarron  C. Love    A. Chovnick 《Genetics》1986,112(4):755-767
DNA extracts of several rosy-mutation-bearing strains were associated with large insertions and deletions in a defined region of the molecular map believed to include the rosy locus DNA. Large-scale, intragenic mapping experiments were carried out that localized these mutations within the boundaries of the previously defined rosy locus structural element. Molecular characterization of the wild-type recombinants provides conclusive evidence that the rosy locus DNA is localized to the DNA segment marked by these lesions. One of the mutations, ry2101, arose from a P-M hybrid dysgenesis experiment and is associated with a copia insertion. Experiments are described which suggest that copia mobilizes in response to P-M hybrid dysgenesis. Relevance of the data to recombination in higher organisms is considered.  相似文献   

2.
A. J. Hilliker  S. H. Clark    A. Chovnick 《Genetics》1991,129(3):779-781
The effect of simple DNA sequence polymorphisms on intragenic recombination in the rosy locus of Drosophila melanogaster was assayed. Two crosses were performed involving nearly identical molecular distances between selective ry null mutations (3778 nucleotides and 3972 nucleotides). In one heterozygote (ry606/ry531), in addition to the nucleotide substitution ry- mutations, there were 11 simple nucleotide polymorphisms between the selective markers as well as additional flanking simple nucleotide polymorphisms within the rosy locus. In the other heterozygote (ry606/ry609), there were no additional polymorphisms because the two rosy nucleotide substitution mutations were induced on the same rosy isoallele (ry+6). From ry606/ry531 heterozygous females, 27 intragenic crossovers and five marker conversions were seen among 4.53 x 10(5) progeny. From ry606/ry609 heterozygous females, 23 intragenic crossovers and eight marker conversions were seen among 4.18 x 10(5) progeny. The intragenic crossover frequencies per kilobase of DNA were very similar, 1.6 x 10(-5) for ry606/ry531 and 1.4 x 10(-5) for ry606/ry609. Thus, simple DNA sequence polymorphisms neither inhibit nor promote intragenic recombination in D. melanogaster.  相似文献   

3.
Molecular Mapping of the ROSY Locus in DROSOPHILA MELANOGASTER   总被引:30,自引:20,他引:10       下载免费PDF全文
The DNA from the chromosomal region of the Drosophila rosy locus has been examined in 83 rosy mutant strains. Several spontaneous and radiation-induced alleles were associated with insertions and deletions, respectively. The lesions are clustered in a 4-kb region. Some of the alleles identified on the DNA map have been located on the genetic map by fine-structure recombination experiments. The genetic and molecular maps are collinear, and the alignment identifies the DNA location of the rosy control region. A rosy RNA of 4.5 kb has been identified; its 5' end lies in or near the control region.  相似文献   

4.
The present report summarizes our recent progress in the genetic dissection of an elementary genetic unit in a higher organism, the rosy locus (ry:3--52.0) in Drosophila melanogaster. Pursuing the hypothesis that the rosy locus includes a noncoding control region, as well as a structural element coding for the xanthine dehydrogenase (XDH) peptide, experiments are described that characterize and map a rosy locus variant associated with much lower than normal levels of XDH activity. Experiments are described that fail to relate this phenotype to alteration in the structure of the XDH peptide, but clearly associate this character with variation in number of molecules of XDH per fly. Large-scale fine-structure recombination experiments locate the genetic basis for this variation in the number of molecules of XDH per fly to a site immediately to the left of the XDH structural element within a region previously designated as the XDH control element. Moreover, experiments clearly separate this "underproducer" variant site from a previously described "overproducer" site within the control region. Examination of enzyme activity in electrophoretic gels of appropriate heterozygous genotypes demonstrates the cis-acting nature of this variation in the number of molecules of XDH. A revision of the map of the rosy locus, structural and control elements is presented in the light of the additional mapping data now available.  相似文献   

5.
6.
Utilizing the method of P-M hybrid dysgenesis-mediated gene transfer to insert rosy locus DNA into various chromosomal locations, we recovered a transformed strain that carries an ry+ transposon inserted in or near the scalloped locus in polytene section 13F on the X chromosome. The resultant product, when stabilized, behaves as a homozygous and hemizygous viable and fertile extreme scalloped allele associated with wild-type expression of the rosy locus. We have labeled this allele, sdry+. This allele has been destabilized by subsequent P-M hybrid dysgenesis, and mutations were recovered that exhibit alterations in the rosy and/or scalloped phenotypes. Representative samples of all phenotypic classes have been characterized by Southern blot analyses of restricted DNA. The most common events are excisions of DNA wholly internal to the transposon and representing sections of rosy DNA. In addition to loss of rosy locus function, such excisions affect the scalloped locus expression.--A second dysgenesis experiment was carried out involving an ry+ transposon inserted in polytene section 16D on the X chromosome. A minimal estimate of the relative frequency of imprecise excisions, determined in this experiment is 75%.--A successful pilot experiment is described that utilizes dysgenic perturbation of the sdry+ allele to select for small deletions of the 5' noncoding region of the rosy locus.  相似文献   

7.
8.
A Chovnick 《Genetics》1973,75(1):123-131
Prior studies of recombination which monitor exchange events in exceedingly short intervals (i.e., separable sites within a cistron) reveal that the basic event in recombination involves a non-reciprocal transfer of information, termed conversion. As a logical consequence of the model suggested by the work in Drosophila, the present investigation examined recombination between rosy mutant alleles (ry:3-52.0) in Drosophila melanogaster in a paracentric inversion (In(3R)P(18)) heterozygote, which placed the rosy region approximately at the center of the inverted region. Comparison of the results of this study with experiments carried out in standard chromosome homozygotes reveals a dramatic suppression of classical crossovers between the rosy mutant alleles in the inversion heterozygote. However, conversions continue to occur for all rosy mutant alleles in all heterozygous combinations in the inversion heterozygote. Moreover, the order of magnitude of conversion frequencies seen in the inversion heterozygote does not change from that seen in the standard chromosome homozygote study. The significance of these observations with reference to the role of rearrangements as barriers of information transfer is discussed. Particular attention is directed to the elaborate inversion polymorphisms seen in natural populations, and to notions concerning their role in the evolution of adaptive gene complexes.  相似文献   

9.
P Sch?r  J Kohli 《The EMBO journal》1994,13(21):5212-5219
The ade6-M26 mutation of Schizosaccharomyces pombe stimulates intragenic and intergenic meiotic recombination. M26 is a single base pair change creating a specific heptanucleotide sequence that is crucial for recombination hotspot activity. This sequence is recognized by proteins that may facilitate rate-limiting steps of recombination at the ade6 locus. To start the elucidation of the intermediate DNA structures formed during M26 recombination, we have analyzed the aberrant segregation patterns of two G to C transversion mutations flanking the heptanucleotide sequence in crosses homozygous for M26. At both sites the level of post-meiotic segregation is typical for G to C transversion mutations in S. pombe in general. Quantitative treatment of the data provides strong evidence for heteroduplex DNA being the major recombination intermediate at the M26 site. We can now exclude a double-strand gap repair mechanism to account for gene conversion across the recombination hotspot. Furthermore, the vast majority (> 95%) of the heteroduplexes covering either of the G to C transversion sites are produced by transfer of the transcribed DNA strand. These results are consistent with ade6-M26 creating an initiation site for gene conversion by the introduction of a single-strand or a double-strand break in its vicinity, followed by transfer of the transcribed DNA strands for heteroduplex DNA formation.  相似文献   

10.
The 2 mu plasmid of the yeast Saccharomyces cerevisiae encodes a site-specific recombination system consisting of plasmid-encoded FLP protein and two recombination sites on the plasmid. The recombination site possesses a specific orientation, which is determined by an asymmetric 8-base pair spacer sequence separating two 13-base pair inverted repeats. The outcome or directionality of site-specific recombination is defined by the alignment of two sites in the same orientation during the reaction. Sites containing point mutations or 1-base pair insertions or deletions within the spacer generally undergo recombination with unaltered sites at reduced levels. In contrast, recombination between the two identical mutant sites (where homology is restored) proceeds efficiently in all cases. Sites containing spacer sequences of 10 base pairs or more are nonfunctional under all conditions. A recombination site in which 5 base pairs are changed to yield an entirely symmetrical spacer sequence again recombines efficiently, but only with an identical site. This reaction, in addition, produces a variety of new products which can only result from random alignment of the two sites undergoing recombination, i.e. the reaction no longer exhibits directionality. These and other results demonstrate that both the efficiency and directionality of site-specific recombination is dependent upon homology between spacer sequences of the two recombining sites. This further implies that critical DNA-DNA interactions between the spacer region of the two sites involved in the reaction occur at some stage during site-specific recombination in this system. The specific spacer sequence itself appears to be unimportant as long as homology is maintained; thus, these sequences are probably not involved in recognition by FLP protein.  相似文献   

11.
Genetic Fine Structure of the BRONZE Locus in Maize   总被引:6,自引:6,他引:0       下载免费PDF全文
Dooner HK 《Genetics》1986,113(4):1021-1036
The bronze (bz) locus in maize, located in the short arm of chromosome 9 (9S), is the structural gene for the anthocyanin biosynthetic enzyme UFGT. The gene has been cloned and its physical map has been oriented relative to the centromere of 9S. We report here the genetic fine structure mapping of several biochemically characterized EMS-induced bz-E mutations, derived from the Bz-W22 isoallele, and Ds insertion bz-m mutations, derived from the Bz-McC isoallele. Two UFGT(-), CRM(+ ) mutants (bz-E2 and bz-E5), which genetically identify coding sequences in the gene, and three UFGT(-), CRM(- )bz-E mutants were mapped against the Ds insertion mutants bz-m1 and bz-m2(DI) by selecting Bz intragenic recombinants from heterozygotes of the type bz-E/bz-m . The exclusive occurrence of one recombinant outside marker class allowed the unambiguous placement of the mutants in a genetic fine structure map. Peculiarly, the two CRM(+)bz-E mutants lie upstream of the three CRM(-)bz-E mutants and at a considerable genetic distance. The UFGT allozymes encoded by the progenitor alleles Bz-W22 and Bz-McC differ in two properties, thermal stability and activity. The sites responsible for these properties were mapped as unselected markers among the Bz intragenic recombinants. The thermal stability site, which also identifies a coding region of the gene, mapped very close to the CRM(+)bz-E mutant sites. The site responsible for variation in activity, which probably identifies a region involved in regulation of expression of the bz locus, mapped at the 5' or proximal end of the locus. It was found to be inseparable from the Ds insertion in bz-m1 that lies very close to the 5' end of the transcribed region.-Evidence was obtained that the insertion of Ds within the bz gene has a suppressing effect on intragenic recombination. Additional data are also presented supporting our observation that Ds affects the pattern of intragenic recombination at bz.-Based on the total genetic length of the bz gene and on the physical size of the transcribed region, we estimate that one unit of recombination at bronze corresponds to 14 kb of DNA. This estimate is more than 100 times smaller than the average value for the whole genome and implies that there may be regions, such as bronze, that serve as hotspots for recombination.  相似文献   

12.
Clustering of mutations inactivating a Chi recombinational hotspot   总被引:3,自引:0,他引:3  
Chi sites promote Rec-mediated recombination in bacteriophage λ. Nine independent, nitrous acid-induced mutations were obtained within one of these sites, χ+C. Eight of the mutations completely inactivated the Chi site, while one mutation left partial activity. Nucleotide sequence analysis showed that the mutations were located at four different sites one to four base-pairs from the site of the χ+C mutation that created the active Chi locus. This interval is within a region of homology common to the χ+C locus and another sequenced Chi locus, χ+B. These results support the view that Chi is a unique nucleotide sequence and suggest the extent of the Chi sequence.  相似文献   

13.
The Notch locus of Drosophila melanogaster   总被引:48,自引:0,他引:48  
S Kidd  T J Lockett  M W Young 《Cell》1983,34(2):421-433
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14.
The N-type oriT of plasmid pMUR274 was cloned on a 474-bp RsaI-SspI fragment, and the nucleotide sequence was determined. A comparison of the pMUR274 oriT sequence and the sequence of the oriTs of IncN plasmid pCU1 and IncW plasmid R388 demonstrated 57 and 28% identity, respectively. Intramolecular, site-specific recombination between the pCU1 oriT and the oriT of pMUR274 resulted in the formation of a hybrid oriT containing one half of each parental sequence. The junction point of the hybrid occurred within a 10-bp sequence, GCTATACACC, present in both parental sequences and represents the nic site of each oriT. Mutation of the first A or second T residue within the 10-bp junction sequence reduced transfer less than 20-fold, while mutation of either the second or third A residue reduced transfer over 1,000-fold. Site-specific recombination between a wild-type pCU1 oriT and these four mutant pCU1 oriTs demonstrated that nic lies between the second T and second A residues of the 10-bp junction sequence. Site-specific recombination between wild-type and mutant pCU1 oriTs also demonstrated that point mutations to the right of nic reduced both initiation and termination of transfer while point mutations to the left of nic reduced termination but had little or no effect on initiation. A 28-bp deletion within the AT-rich region 39 bases to the right of nic reduced both initiation and termination, while deletion of a 6-bp inverted repeat sequence at the right-most boundary of the minimal oriT region reduced initiation but not termination.  相似文献   

15.
Summary A fine structure map of gene b5 has been established in Ascobolus immersus and the unstable mutant site b5-301 (phenotype: ascospore coloration) has been found to map within this gene. This map was constructed using seven b5 mutants induced by ICR170 and is based on the additivity of recombinant frequencies and confirmed by three point tests. The unstable site 301 is located between the induced sites. In particular, mutant 249 is located to the left of site 301, whereas sites 601 and 754 are located to the right.Previous studies showed that the inducing gene of mutant b5-301 reversions are either closely linked to the b5 locus or within it in certain strains. The study of asci resulting from reciprocal recombination between unstable mutant site and several induced mutant sites showed that neither crossovers located on the left nor the right of site 301, separate the unstable site from the inducing gene. Thus, the inducing gene was found to map within gene b5 as did the inducible site.These results constitute a genetic argument showing the presence of an insertion element. In this case, the insertion structure contains at least the integration site (inducible site) and the inducing gene which allows the excision.  相似文献   

16.
The role of the loxP spacer region in P1 site-specific recombination.   总被引:30,自引:7,他引:23       下载免费PDF全文
The lox-Cre site-specific recombination system of bacteriophage P1 is comprised of a site on the DNA where recombination occurs called loxP, and a protein, Cre, which mediates the reaction. The loxP site is 34 base pairs (bp) in length and consists of two 13 bp inverted repeats separated by an 8 bp spacer region. Previously it has been shown that the cleavage and strand exchange of recombining loxP sites occurs within this spacer region. We report here an analysis of various base substitution mutations within the spacer region of loxP, and conclude the following: Homology is a requirement for efficient recombination between recombining loxP sites. There is at least one position within the spacer where a base change drastically reduces recombination even when there is homology between the two recombining loxP sites. When two loxP sites containing symmetric spacer regions undergo Cre-mediated recombination in vitro, the DNA between the sites undergoes both excision and inversion with equal frequency.  相似文献   

17.
Summary Specific in vitro-generated insertion, replacement, and deletion mutations have been integrated near the chromosomal locus ofam (NADP-specific glutamate dehydrogenase) ofNeurospora crassa. Two approaches have been successful. One approach usedam +-containing vectors capable of integrating at any site in the genome. This technique was used to introduce a specific 700 bp insertion near theam locus and to replace chromosomal sequences nearam with plasmid DNA. Efficiency was low, however, and many transformants had to be screened to find the desired alterations among the ectopic insertions unless the incoming DNA had a large region of homology with theam region. A second approach increased the efficiency by using vectors containing a truncatedam gene, so that prototrophs could arise only by homologous recombination. Overall transformation frequency was reduced relative to the first method, but a large fraction of the transformations involved specific alterations of theam region.  相似文献   

18.
Transposon Tn5-generated mutants of Bordetella pertussis were selected on the basis of their inability to bind the dye Congo red (Crb-). No mutants which were solely Crb- were found. Ten mutants were phenotypically equivalent to previously described strains with mutations in the virulence regulatory (bvg) locus and failed to express a range of virulence-associated factors. Two of these mutants were shown to have Tn5 insertions within the bvg locus, while another two mutants showed deletions in this regulatory region. Complementation studies indicated that the other six mutants had spontaneous mutations in the bvg locus, but with Tn5 inserted elsewhere in the chromosome. Several of the mutants, besides having a single Tn5 insertion, also showed additional IS50 insertions, indicating that the IS50 element contained within Tn5 had transposed independently. Such additional insertion events, which themselves would have the potential to cause mutation, could complicate the interpretation of mutant phenotypes which could thus arise from the insertional inactivation of more than one gene.  相似文献   

19.
The 2 mu plasmid of the yeast Saccharomyces cerevisiae encodes a site-specific recombination system consisting of the FLP protein and two inverted recombination sites on the plasmid. The minimal fully functional substrate for in-vitro recombination in this system consists of two FLP protein binding sites separated by an eight base-pair spacer sequence. We have used site-directed mutagenesis to generate every possible mutation (36 in all) within 11 base-pairs of one FLP protein binding site and the base-pair immediately flanking it. The base-pairs within the binding site can be separated into three classes on the basis of these results. Thirty of the 36 sequence changes, including all three at seven different positions (class I) produce a negligible or modest effect on FLP protein-promoted recombination. In particular, most transition mutations are well-tolerated in this system. In only one case do all three possible mutations produce large effects (class II). At three positions, clustered near the site at which DNA is cleaved by FLP protein, one of the two possible transversions produces a large effect on recombination, while the other two changes produce modest effects (class III). For seven mutants for which FLP protein binding was measured, a direct correlation between decreases in recombination activity and in binding was observed. Positive effects on the reaction potential of mutant sites are observed when the other FLP binding site in a single recombination site is unaltered or when the second recombination site in a reaction is wild-type. This suggests a functional interaction between FLP binding sites both in cis and in trans. When two mutant recombination sites (each with 1 altered FLP binding site) are recombined, the relative orientation of the mutations (parallel or antiparallel) has no effect on the result. These results provide an extensive substrate catalog to complement future studies in this system.  相似文献   

20.
Fob1p protein has been implicated in the termination of replication forks at the two tandem termini present in the non-transcribed spacer region located between the sequences encoding the 35 S and the 5 S RNAs of Saccharomyces cerevisiae. However, the biochemistry and mode of action of this protein were previously unknown. We have purified the Fob1p protein to near-homogeneity, and we developed a novel technique to show that it binds specifically to the Ter1 and Ter2 sequences. Interestingly, the two sequences share no detectable homology. We present two lines of evidence showing that the interaction of the Fob1p with the Ter sites causes replication termination. First, a mutant of FOB1, L104S, that significantly reduced the binding of the mutant form of the protein to the tandem Ter sites, also failed to promote replication termination in vivo. The mutant did not diminish nucleolar transport, and interaction of the mutant form of Fob1p with itself and with another protein encoded in the locus YDR026C suggested that the mutation did not cause global misfolding of the protein. Second, DNA site mutations in the Ter sequences that separately and specifically abolished replication fork arrest at Ter1 or Ter2 also eliminated sequence-specific binding of the Fob1p to the two sites. The work presented here definitively established Ter DNA-Fob1p interaction as an important step in fork arrest.  相似文献   

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