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1.
DNA sequence divergence and functional conservation at the STB locus of yeast 2 microns circle variants.
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2 microns DNA isolated from industrial Saccharomyces cerevisiae yeasts exhibited extensive restriction fragment length polymorphisms. At least five 2 microns species were identified from eleven [cir+] strains. Southern hybridization mapped restriction fragment length polymorphisms at STB, a cis-acting locus essential for plasmid partitioning. Some 2 microns variants (e.g., 4110-2 microns and 4108-2 microns) had an altered number of 125-bp consensus repeats at STB. However, the corresponding region of 7754-2 microns has only approximately 70% nucleotide sequence homology with the 125-bp STB consensus repeat. YRp plasmids containing 7754-2 microns STB behave as YEp plasmids in laboratory yeasts, thereby indicating STB sequence divergence coupled to conservation of function. 相似文献
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An improved method for yeast 2 microns plasmid curing 总被引:1,自引:0,他引:1
SMR1-410, a dominant resistance marker, was cloned into the FLP gene of 2 microns DNA to produce the chimeric YEp vector pWX823B. Selection for SMR1-410 at high concentrations of sulfometuron methyl maintained pWX823 at high copy number and resulted in the rapid and efficient loss of native 2 microns DNA. Using this protocol approximately 15% of the cells monitored showed loss of 2 microns DNA. The curing methodology is more efficient and convenient than previous methods and has the added advantage of being applicable to wild-type prototrophic cells. 相似文献
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The in vivo replication origin of the yeast 2 microns plasmid 总被引:102,自引:0,他引:102
We have used two-dimensional neutral/alkaline agarose gel electrophoresis to separate the nascent strands of replicating yeast 2 micron plasmid DNA molecules according to extent of replication, away from nonreplicating molecules and parental strands. Analysis of the lengths of nascent strands by sequential hybridization with short probes shows that replication proceeds bidirectionally from a single origin at map position 3700 +/- 100, coincident with the genetically mapped ARS element. The two recombinational isomers of 2 microns plasmid (forms A and B) replicate with equal efficiency. These results suggest that ARS elements may prove to be replication origins for chromosomal DNA. 相似文献
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Despite the extensive study of yeast 2 microns plasmid, the exact function of plasmid-encoded RAF gene is not clear. Variants of 2 microns plasmids from industrial Saccharomyces cerevisiae yeasts were isolated and characterized. Sequencing of RAF alleles revealed about 8% nucleotide and 10% amino acid diversities between 2 microns variants of closely related strains, RAF sequence variations were correlated with STB-REP1 sequence diversity. We also used restriction fragment length polymorphism linkage to screen a large number of yeast strains from different fermentation industries. The results clearly show a tight linkage of STB-REP1-RAF variations. Thus, our observations suggest that plasmid-borne cis- and trans-acting elements co-evolved to form an optimal molecular parasite and that RAF may play a role in active plasmid partitioning. 相似文献
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Roles of the 2 microns gene products in stable maintenance of the 2 microns plasmid of Saccharomyces cerevisiae. 总被引:7,自引:2,他引:7
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We have examined the replication and segregation of the Saccharomyces cerevisiae 2 microns circle. The amplification of the plasmid at low copy numbers requires site-specific recombination between the 2 microns inverted repeat sequences catalyzed by the plasmid-encoded FLP gene. No other 2 microns gene products are required. The overexpression of FLP in a strain carrying endogenous 2 microns leads to uncontrolled plasmid replication, longer cell cycles, and cell death. Two different assays show that the level of Flp activity decreases with increasing 2 microns copy number. This regulation requires the products of the REP1 and REP2 genes. These gene products also act together to ensure that 2 microns molecules are randomly segregated between mother and daughter cells at cell division. 相似文献
6.
Maintenance of the 2 microns circle plasmid in populations of Saccharomyces cerevisiae. 总被引:10,自引:2,他引:10
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The 2 microns circle plasmid is maintained at high frequencies in populations of yeast cells. To find out how the plasmid is maintained, three forces were measured: the selective advantage or disadvantage conferred by 2 microns circles, the rate of generation of [Cir0] cells, and the rate of illegitimate transfer of 2 microns circles from cell to cell. It was found that under the conditions used, 2 microns circles confer a selective disadvantage of about 1%, that [Cir0] cells are generated at the rate of 7.6 x 10(-5) per [Cir+] cell per generation, and that illegitimate transfer of 2 microns circles occurs at a rate less than 10(-7) per recipient cell per generation. The most likely explanation of 2 microns circle maintenance is that the plasmid is sexually transmitted at such a rate that it spreads through populations despite selection against it. 相似文献
7.
The pSC101 par locus alters protein-DNA interactions in vivo at the plasmid replication origin. 总被引:1,自引:5,他引:1
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We report here direct evidence that mutations in the par locus affect protein-DNA interactions in vivo at the replication origin of plasmid pSC101. Concomitant with par-mediated plasmid stabilization, two sites in the origin region show an altered methylation pattern as detected by in vivo footprinting with dimethyl sulfate. One site is located near an integration host factor-binding sequence adjacent to the first of three direct repeats known to be involved in the initiation of pSC101 replication; the second site is within the third direct repeat. 相似文献
8.
Chromatin organization of the Saccharomyces cerevisiae 2 microns plasmid depends on plasmid-encoded products. 总被引:5,自引:6,他引:5
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We have used gene disruptions and nuclease probes to assess the roles of yeast 2 micron plasmid genes in plasmid chromatin organization. The chromatin structure at the replication origin is not dependent on any of the four major open reading frames, A, B, C, or D. While stable plasmid maintenance is known to depend on a cis-acting locus STB and genes B and C, we find that only gene B influences STB chromatin. Other interactions between plasmid gene products and sequences may reflect gene regulation: the chromatin organization at the 5' end of gene A, which codes for a site-specific recombinase, depends on both gene B and gene C. Since disruption of gene C results in an increase in plasmid copy number that is dependent on gene A, we propose that gene C (and probably gene B) control copy number by regulating the level of the gene A recombinase. 相似文献
9.
Jan M. Norrander Thomas J. Fagrelius Dennis M. Livingston 《Molecular & general genetics : MGG》1986,203(3):406-409
Summary We have investigated the fate of the yeast 2 m DNA plasmid in strains with a temperature sensitive mutation of DNA ligase. At the restrictive temperature the plasmid DNA collects as an open circular form with single strand interruptions. Both alpha factor pheromone, which arrests cells before the start of S phase, and hydroxyurea, which blocks progression through S phase, prevent the appearance of the open circular form. Thus, interrupted plasmid DNA does not accumulate in the absence of DNA replication. On average the interrupted molecules contain four to five interruptions per newly replicated strand. Most of the interruptions are nicks (breaks in a single phosphate ester bond) rather than gaps (absence of one or more nucleotides in a strand) as judged by the in vitro conversion of the interrupted molecules into a covalently closed form by DNA ligase. Mapping of the position of the interruptions reveals no predominate sites. 相似文献
10.
J Whittaker J Lang P R Cook S Aspinall S J McCready B S Cox 《Nucleic acids research》1986,14(14):5683-5692
Most yeast plasmids--particularly those containing chromosomal replicators (ARS)--are unstable and do not segregate equally to mother and daughter cells unless they contain centromeric sequences. We have screened a fraction of the human genome for sequences that stabilize YRp7, a plasmid containing ARS1. We selected a fraction which we hoped would be enriched in human centromeric sequences--the DNA attached to the nucleoskeleton. We obtained one human sequence that partially stabilized a yeast plasmid and, surprisingly, it contained sequences homologous to those coding for the 3' end of 18s rRNA, the transcribed spacer and 5' end of 28s rRNA. This sequence did not show any ARS activity nor did it increase the copy number of the plasmid and so probably improved partition of the plasmid between mother and daughter cells. It had no homology to yeast centromeres. 相似文献
11.
Chien-Hui Ma Hong Cui Sujata Hajra Paul A. Rowley Christie Fekete Ali Sarkeshik Santanu Kumar Ghosh John R. Yates III Makkuni Jayaram 《Nucleic acids research》2013,41(4):2340-2353
The Saccharomyces cerevisiae 2 micron plasmid exemplifies a benign but selfish genome, whose stability approaches that of the chromosomes of its host. The plasmid partitioning locus STB (stability locus) displays certain functional analogies with centromeres along with critical distinctions, a significant one being the absence of the kinetochore complex at STB. The remodels the structure of chromatin (RSC) chromatin remodeling complex, the nuclear motor Kip1, the histone H3 variant Cse4 and the cohesin complex associate with both loci. These factors appear to contribute to plasmid segregation either directly or indirectly through their roles in chromosome segregation. Assembly and disassembly of the plasmid-coded partitioning proteins Rep1 and Rep2 and host factors at STB follow a temporal hierarchy during the cell cycle. Assembly is initiated by STB association of [Rsc8-Rsc58], followed by [Rep1-Rep2-Kip1] and [Cse4-Rsc2-Sth1] recruitment, and culminates in cohesin assembly. Disassembly starts with dissociation of RSC components, is followed by cohesin disassembly and Cse4 exit during anaphase and late telophase, respectively. [Rep1-Rep2-Kip1] persists through G1 of the ensuing cell cycle. The de novo assembly of the ‘partitioning complex’ is cued by the innate cell cycle clock and is dependent on DNA replication. Shared functional attributes of STB and centromere (CEN) are consistent with a potential evolutionary link between them. 相似文献
12.
Most null alleles at the nivea (niv) locus are recessive to Niv+ and, when homozygous, give white flowers rather than the red of the wild type. In contrast, the niv-571 allele is semidominant; although it gives white flowers when homozygous, very pale flowers result when this allele is heterozygous with NIV+. We showed that in heterozygotes, niv-571 acts in trans to inhibit expression of its Niv+ homology 25-fold to 50-fold. The inhibition is reversible after meiosis and partially reversible somatically. The niv-571 allele carries a transposable element Tam3 insertion and three truncated copies of the niv gene, one copy being in inverse orientation. Analysis of two further niv alleles, niv-572 and niv-527, showed that excision of Tam3 from niv-571 does not affect the ability of the allele to repress Niv+ and that one truncated niv copy alone is insufficient to confer semidominance. The detailed structures of various semidominant niv alleles suggest that their effects in trans are not readily explained by production of antisense RNA but are more easily reconciled with a direct recognition/interaction between homologous genes, reminiscent of cosuppression and transvection phenomena described in other systems. 相似文献
13.
Identification of the crossover site during FLP-mediated recombination in the Saccharomyces cerevisiae plasmid 2 microns circle. 总被引:5,自引:2,他引:5
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The FLP protein of the Saccharomyces cerevisiae plasmid 2 microns circle catalyzes site-specific recombination between two repeated segments present on the plasmid. In this paper we present results of experiments we performed to define more precisely the features of the FLP recognition target site, which we propose to designate FRT, and to determine the actual recombination crossover point in vivo. We found that essential sequences for the recombination event are limited to an 8-base-pair core sequence and two 13-base-pair repeated units immediately flanking it. This is the region identified as the FLP binding site in vitro and at which FLP protein promotes specific single-strand cleavages (B. J. Andrews, G. A. Proteau, L. G. Beatty, and P. D. Sadowski, Cell 40:795-803, 1985; J. F. Senecoff, R. C. Bruckner, and M. M. Cox, Proc. Natl. Acad. Sci. USA 82:7270-7274, 1985). Mutations within the core domain can be suppressed by the presence of the identical mutation in the chromatid with which it recombines. However, mutations outside the core are not similarly suppressed. We found that strand exchange during FLP recombination occurs most of the time within the core region, proceeding through a heteroduplex intermediate. Finally, we found that most FLP-mediated events are reciprocal exchanges and that FLP-catalyzed gene conversions occur at low frequency. The low level of gene conversion associated with FLP recombination suggests that it proceeds by a breakage-joining reaction and that the two events are concerted. 相似文献
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The selectivity filter of voltage-gated Ca(2+) channels is in part composed of four Glu residues, termed the EEEE locus. Ion selectivity in Ca(2+) channels is based on interactions between permeant ions and the EEEE locus: in a mixture of ions, all of which can pass through the pore when present alone, those ions that bind weakly are impermeant, those that bind more strongly are permeant, and those that bind more strongly yet act as pore blockers as a consequence of their low rate of unbinding from the EEEE locus. Thus, competition among ion species is a determining feature of selectivity filter function in Ca(2+) channels. Previous work has shown that Asp and Ala substitutions in the EEEE locus reduce ion selectivity by weakening ion binding affinity. Here we describe for wild-type and EEEE locus mutants an analysis at the single channel level of competition between Cd(2+), which binds very tightly within the EEEE locus, and Ba(2+) or Li(+), which bind less tightly and hence exhibit high flux rates: Cd(2+) binds to the EEEE locus approximately 10(4)x more tightly than does Ba(2+), and approximately 10(8)x more tightly than does Li(+). For wild-type channels, Cd(2+) entry into the EEEE locus was 400x faster when Li(+) rather than Ba(2+) was the current carrier, reflecting the large difference between Ba(2+) and Li(+) in affinity for the EEEE locus. For the substitution mutants, analysis of Cd(2+) block kinetics shows that their weakened ion binding affinity can result from either a reduction in blocker on rate or an enhancement of blocker off rate. Which of these rate effects underlay weakened binding was not specified by the nature of the mutation (Asp vs. Ala), but was instead determined by the valence and affinity of the current-carrying ion (Ba(2+) vs. Li(+)). The dependence of Cd(2+) block kinetics upon properties of the current-carrying ion can be understood by considering the number of EEEE locus oxygen atoms available to interact with the different ion pairs. 相似文献