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Query: EC:1.5.1.3 (
dihydrofolate reductase
)
5,819
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A chromosomal origin of DNA replication has been localized within the single-copy rhodopsin gene locus in Chinese hamster (line CHO) cells using two methods. In the first method, single-copy segments were identified at 3 to 15 kb intervals within approximately 75 kb (kb = 10(3) bases) of cloned genomic DNA containing the early-replicating rhodopsin gene near its middle. The cloned single-copy segments were then used as hybridization probes to quantify the replication of their corresponding genomic segments as synchronized cells progressed into S phase. In the second method, genomic DNA synthesized in vivo or in permeabilized early S phase cells was hybridized with slot-blots of the cloned single-copy DNA segments to identify the earliest replicating part of the 75 kb mapped region. The first method indicates that the earliest replicating DNA is located within a 10 kb region beginning 4 kb upstream from and extending 1 kb beyond the rhodopsin gene. The second method confirms the location in the vicinity of the rhodopsin gene and indicates that the earliest replicating region is located within or very near the 4.5 kb rhodopsin gene itself. An extended region of 12 kb that encompasses the entire early-replicating region has been sequenced for analysis and comparison with currently characterized origin regions associated with the CHO
dihydrofolate reductase
(dhfr) and human c-myc genes. There are several sequence similarities between the dhfr rhodopsin origin regions, including common transcription promoter consensus sequences, rodent Alu repeats with their 3'-A+T rich flanking sequences, A+T-rich yeast
ARS
and Drosophila SAR consensus sequences, and simple (GA)n repeats, but there are no extended regions of direct similarity. The rhodopsin gene locus is the second sequenced CHO origin region.
...
PMID:Localization and DNA sequence of a replication origin in the rhodopsin gene locus of Chinese hamster cells. 156 Apr 57
An expression cassette of mouse
dihydrofolate reductase
(Mdhfr) cDNA under control of the yeast cytochrome c promoter was inserted in a yeast plasmid containing the ARS1 sequence. The
ARS
replicating function was destroyed by BglII treatment prior to yeast transformation. Using this linearized plasmid, genomic transformants could be obtained from either laboratory or industrial strains of bakers' yeast based on direct methotrexate (MTX)-resistance selection. The entire sequence of the linearized plasmid was integrated by homologous recombination at the
ARS
region of the host chromosome. The results indicate that repetitive and homologous recombination occurs readily in such transformations. The stability of the constructed integrants was more than 99.95% per generation in non-selective medium, and tandem repeats of up to six copies (i.e., about 44 kb) were not changed even after 30 generations in rich medium. Expression in rich medium of cointegrated, human interleukin 2 cDNA under control of the triose phosphate isomerase promoter was shown by Western blot experiments in both laboratory and industrial yeast strains. Furthermore, a comparison of the transcription efficiency of the Mdhfr gene in the chromosome with that in the plasmid revealed that the efficiency was almost proportional to the number of gene copies, irrespective of the location of the transcription unit. These results show that by using the MTX/Mdhfr dominant selection-amplification system one can construct stable recombinant yeast strains suitable for heterologous gene expression in laboratory as well as in industrial fermentation conditions.
...
PMID:Construction of stable laboratory and industrial yeast strains expressing a foreign gene by integrative transformation using a dominant selection system. 355 23
Lack of suitable amplification markers has hindered the use of the yeast system for investigating the mechanism of gene amplification in a eukaryote with a simple genome and well defined genetic system. Recently, methotrexate has been used to select for Saccharomyces cerevisiae mutants with de novo amplification of the
dihydrofolate reductase
gene (DFR1) (Huang, T. (1993) In Vivo Disruption and de Novo Amplification of the DFR1 Gene Encoding Dihydrofolate Reductase in Saccharomyces cerevisiae. Ph. D. thesis, University of Alberta, Edmonton, Canada). We report here the detailed structure of a DFR1 episome amplified in methotrexate-resistant strain 25-1. The extrachromosomal DNA is found predominantly as a single 11-kilobase circular molecule. It consists of a 5.5-kilobase inverted duplication that contains the DFR1 locus and adjacent
ARS
(autonomously replicating sequence) element. This molecular configuration mimics the inferred structure of double minute chromosomes observed in a number of mammalian amplification systems and suggests that mechanisms that generate amplified DNAs are conserved from yeast to mammals.
...
PMID:Amplification of a circular episome carrying an inverted repeat of the DFR1 locus and adjacent autonomously replicating sequence element of Saccharomyces cerevisiae. 772 92
We have postulated that chromosomal replication origin regions in eukaryotes have in common clusters of certain modular sequence elements (Benbow, Zhao, and Larson, BioEssays 14, 661-670, 1992). In this study, computer analyses of DNA sequences from six origin regions showed that each contained one or more potential initiation regions consisting of a putative DUE (DNA unwinding element) aligned with clusters of SAR (scaffold associated region), and
ARS
(autonomously replicating sequence) consensus sequences, and pyrimidine tracts. The replication origins analyzed were from the following loci: Tetrahymena thermophila macronuclear rDNA gene, Chinese hamster ovary
dihydrofolate reductase
amplicon, human c-myc proto-oncogene, chicken histone H5 gene, Drosophila melanogaster chorion gene cluster on the third chromosome, and Chinese hamster ovary rhodopsin gene. The locations of putative initiation regions identified by the computer analyses were compared with published data obtained using diverse methods to map initiation sites. For at least four loci, the potential initiation regions identified by sequence analysis aligned with previously mapped initiation events. A consensus DNA sequence, WAWTTDDWWWDHWGWHMAWTT, was found within the potential initiation regions in every case. An additional 35 kb of combined flanking sequences from the six loci were also analyzed, but no additional copies of this consensus sequence were found.
...
PMID:Modular sequence elements associated with origin regions in eukaryotic chromosomal DNA. 804 9
pYACneo, a 15.8-kb plasmid, contains a bacterial origin, G418-resistance gene, and yeast
ARS
, CEN, and TEL elements. Three mammalian origins have been cloned into this circular vector: 343, a 448-bp chromosomal origin from a transcribed region of human chromosome 6q; X24, a 4.3-kb element containing the hamster
DHFR
origin of bidirectional replication (oribeta), and S3, a 1.1-kb human anti-cruciform purified autonomously replicating sequence. The resulting constructs have been transfected into HeLa cells, and G418-resistant subcultures were isolated. The frequency of G418-resistant transformation was 1.7-8.7 times higher with origin-containing YACneo than with vector alone. After >45 generations under G418 selection, the presence of episomal versus integrated constructs was assessed by fluctuation assay and by PCR of supercoiled, circular, and linear genomic cellular DNAs separated on ethidium bromide-cesium chloride gradients. In stable G418-resistant subcultures transfected with vector alone or with linearized constructs, as well as in some subcultures transfected with circular origin-containing constructs, resistance was conferred by integration into the host genome. However, several examples were found of G418-resistant transfectants maintaining the Y.343 and the YAC.S3 circular constructs in a strictly episomal state after long-term culture in selective medium, with 80-90% stability per cell division. The episomes were found to replicate semiconservatively in a bromodeoxyuridine pulse-labeling assay for </=130 cell generations after transfection. Furthermore, after </=172 cell generations rescued episomal DNA could be isolated intact and unrearranged, and could be used to retransform bacteria. These versatile constructs, containing mammalian origins, have the capacity for further modification with human telomere or large putative centromere elements, in an effort to move towards construction of a human artificial chromosome.
...
PMID:Circular YAC vectors containing short mammalian origin sequences are maintained under selection as HeLa episomes. 1065 86
