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1.
Two different DNA sequences from the yeast Candida maltosa confer the ability to replicate autonomously to the yeast integrative vector pLD700 on which they are cloned. The recombinant plasmids pLD701 and pLD702 with autonomously replicating sequences (ARS) from Candida maltosa and LEU2 gene from Saccharomyces cerevisiae transform the auxotrophic strain S. cerevisiae DC5 with the efficiency 3-5 x 10(3) per microgram of DNA. Like other yeast vectors harbouring ARS, these plasmids are not stable in yeast cells. Restriction and hybridization analyses have revealed the pLD701 plasmid to contain ARS from chromosomal DNA of C. maltosa. Plasmid pLD701 appears to be a useful vector for yeast transformation.  相似文献   

2.
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   

3.
A protein named ssARS-T binding protein has been purified from yeast that specifically binds to the T-rich strand of the consensus core sequence of yeast autonomously replicating sequence (ARS) elements. As assayed from gel mobility shift experiments the ssARS-T protein shows characteristics of a sequence specific single-stranded DNA binding protein. The complementary A-rich strand of the ARS core sequence is bound much more weakly and no binding can be detected for the double-stranded form of the core sequence. Three single base substitutions in the core sequence that are known to abolish ARS function in vivo also lead to weaker binding of the core sequence to the ssARS-T protein in vitro. The strong correlation between the binding of mutated sequences in vitro and the ARS properties of these sequences in vivo points to an essential function of the ssARS-T protein during replication initiation in yeast ARS elements.  相似文献   

4.
The ability of the plasmid pE194 from S. aureus to serve as an autonomously replicating sequence (ARS) in yeast was shown. The hybrid plasmid pLD744 that contains pE194 and the yeast LEU2 gene sequences is unstable in yeast like other YRp-vectors: the mitotic stability of the pLD744 was as much as 1%. The plasmid pLD712 that differs from pLD744 by the existence of a centromeric sequence from the chromosome III of yeast Saccharomyces cerevisiae reveals about one order greater stability. The observation that there are some sequences in the primary structure of the pE194 which strongly conform to the ARS consensus in yeast inclines us to infer that the existence of ARS consensus on pE194 DNA is not sufficient for its effective replication in yeast.  相似文献   

5.
We have analyzed various autonomously replicating sequences (ARSs) in yeast nuclear extract with ARS-specific synthetic oligonucleotides. The EI oligonucleotide sequence, which is derived from HMRE-ARS, and the F1 oligonucleotide sequence, which is derived from telomeric ARS120, appeared to bind to the same cellular factor with high specificity. In addition, each of these oligonucleotides was a competitive inhibitor of the binding of the other. Binding of the ARS binding factor (ABF) to either of these oligonucleotides was inhibited strongly by plasmids containing ARS1 and telomeric TF1-ARS. DNase I footprinting analyses with yeast nuclear extract showed that EI and F1 oligonucleotides eliminated protection of the binding site of ARS binding factor I (ABFI) in domain B of ARS1. Sequence analyses of various telomeric (ARS120 and TF1-ARS) and nontelomeric ARSs (ARS1 and HMRE-ARS) showed the presence of consensus ABFI binding sites in the protein binding domains of all of these ARSs. Consequently, the ABFI and ABFI-like factors bind to these domain B-like sequences in a wide spectrum of ARSs, both telomeric and nontelomeric.  相似文献   

6.
B B Amati  S M Gasser 《Cell》1988,54(7):967-978
We describe here for the first time the isolation of a yeast nuclear scaffold that maintains specific interactions with yeast genomic DNA sequences. The scaffold-DNA interaction is reversible and saturable, and some binding sites are conserved between yeast and Drosophila KC cells. Second, we find that the specific sequences bound to the yeast nuclear scaffold are the putative origins of replication (ARS elements) and a chromosomal centromere, CENIII. The scaffold association has been closely mapped at the ARS1 locus, and appears to include the 11 bp ARS consensus, but not the ABF-1 binding site. Competition studies show that ARS1 does not compete for CENIII binding, allowing us to distinguish two classes of scaffold attachment sites by functional and structural criteria.  相似文献   

7.
We have previously identified a DNA unwinding element (DUE) in autonomously replicating sequences (ARSs) and demonstrated a correlation between single-strand-specific nuclease hypersensitivity of the DUE and ARS-mediated plasmid replication in yeast. The DUE in the H4 ARS is the most easily unwound sequence in a supercoiled DNA molecule, in the context of the Ylp5 plasmid. To determine whether sequences which are more readily unwound than the ARS can influence replication activity, we have inserted such sequences, called 'torsional sinks', into the plasmids at a site distal to the ARS. We show that the torsional sink sequences effect reduction or elimination of the nuclease hypersensitivity of a variety of H4 ARS derivatives. However, we detect no difference in the in vivo replication activity of an individual ARS plasmid with or without a torsional sink. Thus, the function of the DUE in a yeast replication origin is unaffected by easily unwound sequences present elsewhere on the same plasmid.  相似文献   

8.
Summary Three distinct chloroplast (cp) DNA fragments from Petunia hybrida, which promote autonomous replication in yeast, were mapped on the chloroplast genome. Sequence analysis revealed that these fragments (called ARS A, B and C) have a high AT content, numerous short direct and inverted repeats and at least one yeast ARS consensus sequence 5A/TTTTATPuTTTA/T, essential for yeast ARS activity. ARS A and B also showed the presence of (semi-)conserved sequences, present in all Chlamydomanas reinhardii cpDNA regions that promote autonomous replication in yeast (ARS sequences) or in C. reinhardii (ARC sequences). A 431 bp BamHI/EcoRI fragment, close to one of the inverted repeats and adjacent to the ARS B subfragment contains an AT-rich stretch of about 100 nucleotides that show extensive homology with an Euglena gracilis cpDNA fragment which is part of the replication origin region. This conserved region contains direct and inverted repeats, stem-and-loop structures can be folded and it contains an ARS consensus sequence. In the near vicinity a GC-rich block is present. All these features make this cpDNA region the best candidate for being the origin of replication of P. hybrida cpDNA.  相似文献   

9.
A previously cloned autonomous transgene (pr8a) of silkworm Bombyx moriinherited without changes in the structure was used to clarify the activity of its ARS in yeast cells. ARS of pr8a was also shown to maintain autonomous replication of hybrid plasmids in yeast cells. The same was true for its central 2.4-kb fragment devoid of flanking sequences.  相似文献   

10.
A number of restriction fragments that function as autonomously replicating sequences (ARSs) in yeast have been isolated from Drosophila melanogaster DNA. The behaviour in yeast of plasmids containing Drosophila ARS elements was studied and compared to that exhibited by the archetypal yeast ARS-1 plasmid. ARS functions were localised by subcloning and BAL-31 deletion analysis. These studies demonstrated the structural and functional complexity of Drosophila ARSs. Each Drosophila ARS element has at least two domains, one essential for replication (the replication sequence, RS) and a second (the replication enhancer, RE) which is essential for maximum function of the RS. The RS of three Drosophila ARSs was shown to contain a sequence identical to an 11 bp yeast ARS consensus sequence (5' A/T TTTATPuTTT A/T 3'). These observations lend support to the hypothesis that heterologous ARS elements may be of biological significance.  相似文献   

11.
12.
We studied the replication of random genomic DNA fragments from Saccharomyces cerevisiae in a long-term assay in human cells. Plasmids carrying large yeast DNA fragments were able to replicate autonomously in human cells. Efficiency of replication of yeast DNA fragments was comparable to that of similarly sized human DNA fragments and better than that of bacterial DNA. This result suggests that yeast genomic DNA contains sequence information needed for replication in human cells. To examine whether DNA replication in human cells would initiate specifically at a yeast origin of replication, we monitored initiation on a plasmid containing the yeast 2-micron autonomously replicating sequence (ARS) in yeast and human cells. We found that while replication initiates at the 2-micron ARS in yeast, it does not preferentially initiate at the ARS in human cells. This result suggests that the sequences that direct site specific replication initiation in yeast do not function in the same way in human cells, which initiate replication at a broader range of sequences.by J.A. Huberman  相似文献   

13.
14.
Two adjacent but non-overlapping restriction fragments that encompass the replication origin of the macronuclear copy of rDNA from Tetrahymena thermophila allow autonomous replication of plasmids in the yeast Saccharomyces cerevisiae; i.e. they function as autonomously replicating segments (ARS). Deletions generated in vitro into these fragments yield an 82 bp segment from each as the smallest sequence specifying ARS function. These 82 bp segments are at the 5' end of a 220 bp region of homology between the two original ARS restriction fragments. A 39 bp region of almost complete sequence identity between the two 82 bp fragments is suggested to be a core sequence element necessary for ARS function. This 39 bp sequence contains a region identical or nearly identical to the 11 bp yeast ARS consensus sequence (T/ATTTATPuTTTA/T) which is suggested to be essential for ARS function. Detailed comparisons of the 82 bp segments and of the 39 bp core with other ARS sequences reveal no extensive homologies aside from the consensus.  相似文献   

15.
ARS replication during the yeast S phase   总被引:43,自引:0,他引:43  
A 1.45 kb circular plasmid derived from yeast chromosome IV contains the autonomous replication element called ARS1. Isotope density transfer experiments show that each plasmid molecule replicates once each S phase, with initiation depending on two genetically defined steps required for nuclear DNA replication. A density transfer experiment with synchronized cells demonstrates that the ARS1 plasmid population replicates early in the S phase. The sequences adjacent to ARS1 on chromosome IV also initiate replication early, suggesting that the ARS1 plasmid contains information which determines its time of replication. The times of replication for two other yeast chromosome sequences, ARS2 and a sequence referred to as 1OZ, indicate that the temporal order of replication is ARS1 leads to ARS2 leads to 1OZ. These experiments show directly that specific chromosome regions replicate at specific times during the yeast S phase. If ARS elements are origins of chromosome replication, then the experiment reveals times of activation for two origins.  相似文献   

16.
17.
A previously cloned autonomous transgene (pr8a) of silkworm Bombyx mori inherited without changes in the structure was used to clarify the activity of its ARS in yeast cells. ARS of pr8a was also shown to maintain autonomous replication of hybrid plasmids in yeast cells. The same was true for its central 2.4-kb fragment devoid of flanking sequences.  相似文献   

18.
Nuclear matrix attachment regions (MARs) play a crucial role in chromatin architecture, gene expression, and DNA replication. Although it is well known that yeast autonomously replicating sequences (ARSs) bind nuclear matrix and MARs also function as ARS elements in yeast, whether a heterologous MAR or ARS element acts as a replication origin in the chromosome has not been elucidated. We previously identified a MAR (rMAR) located in the nontranscribed spacer (NTS) of silkworm Attacus ricini rDNA. We report here that this rMAR contains 10 copies of ARS consensus sequence (ACS) and several DNA unwinding regions. The rMAR employs ARS activity in yeast and a rARS element locates in the 3(') region of the rMAR. Furthermore, we have also revealed that either the rMAR or the rARS element functions as a replication origin in the chromosome. Our results provide the first direct evidence to demonstrate that heterologous rMAR and rARS display chromosomal origin activity, suggesting that the chromosome structure and replication origin of rDNA reserve some common features during evolution.  相似文献   

19.
Several members of a repetitive DNA family in the nematode Caenorhabditis elegans have been shown to express ARS and centromeric function in Saccharomyces cerevisiae. The repetitive family, denoted CeRep3, consists of dispersed repeated elements about 1 kilobase in length, present 50 to 100 times in the nematode genome. Three elements were sequenced and found to contain DNA sequences homologous to yeast ARS and CEN consensus sequences. Nematode DNA segments containing these repeats were tested for ARS and CEN (or SEG) function after ligation to shuttle vectors and introduction into yeast cells. Such nematode segments conferred ARS function to the plasmid, as judged by an increased frequency of transformation compared with control plasmids without ARS function. Some, but not all, also conferred to the plasmid increased mitotic stability, increased frequency of 2+:2- segregation in meiosis, and decreased plasmid copy number. These effects are similar to those of yeast centromeric DNA. In view of these results, we suggest that the CeRep3 repetitive family may have replication and centromeric functions in C. elegans.  相似文献   

20.
Replicator dominance in a eukaryotic chromosome.   总被引:20,自引:3,他引:17       下载免费PDF全文
Replicators are genetic elements that control initiation at an origin of DNA replication (ori). They were first identified in the yeast Saccharomyces cerevisiae as autonomously replicating sequences (ARSs) that confer on a plasmid the ability to replicate in the S phase of the cell cycle. The DNA sequences required for ARS function on a plasmid have been defined, but because many sequences that participate in ARS activity are not components of chromosomal replicators, a mutational analysis of the ARS1 replicator located on chromosome IV of S. cerevisiae was performed. The results of this analysis indicate that four DNA elements (A, B1, B2 and B3) are either essential or important for ori activation in the chromosome. In a yeast strain containing two closely spaced and identical copies of the ARS1 replicator in the chromosome, only one is active. The mechanism of replicator repression requires the essential A element of the active replicator. This element is the binding site for the origin recognition complex (ORC), a putative initiator protein. The process that determines which replicator is used, however, depends entirely upon flanking DNA sequences.  相似文献   

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