Gene/Protein Disease Symptom Drug Enzyme Compound
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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.
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PMID:Localization and DNA sequence of a replication origin in the rhodopsin gene locus of Chinese hamster cells. 156 Apr 57

A new method for determining the timing of DNA replication in specific regions of the mammalian genome without the use of DNA density labeling and DNA density centrifugation is described. The method is based on determination of average relative DNA copy numbers in specific genomic regions as cells progress through S phase, and "time of replication" for a specific region is described in terms of the cell's DNA content when the region is replicated. DNA is isolated from synchronized populations of G1 and S phase cells, it is slot-blotted at the same DNA concentration(s) for each population, and it is hybridized with 32P-labeled DNA probes that are specific to the regions of interest. Quantitation of the slot blot autoradiograms and flow cytometric analysis allows determination of (a) average relative DNA copy numbers for the regions of interest in synchronized cell populations, and (b) the average total DNA content in each population of synchronized cells. This information and the flow cytometry histograms are then used to calculate the cellular DNA content at which each region of interest is replicated. The results have a precision of less than or equal to +/- 10% of S phase for Chinese hamster (line CHO) rhodopsin, metallothionein II, the 5'-end of dihydrofolate reductase, the telomeric repeated sequence, pHuR-093 (also located near the centromeres in CHO chromosomes), and the c-Ki-ras family.
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PMID:DNA contents of replication without DNA density labeling. 219 30

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.
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PMID:Modular sequence elements associated with origin regions in eukaryotic chromosomal DNA. 804 9

Several higher eukaryotic replication origins appear to be composed of broad zones of potential nascent strand start sites, while others are more circumscribed, resembling those of yeast, bacteria, and viruses. The most delocalized origin identified so far is approximately 55 kb in length and lies between the convergently transcribed dihydrofolate reductase (DHFR) and the 2BE2121 genes on chromosome 2 in the Chinese hamster genome. In some of our studies, we have utilized the rhodopsin origin as an early replicating internal standard for assessing the effects of deleting various parts of the DHFR locus on DHFR origin activity. However, it had not been previously established that the rhodopsin locus was located at a site far enough away to be immune to such deletions, nor had the mechanism of initiation at this origin been characterized. In the present study, we have localized the rhodopsin domain to a pair of small metacentric chromosomes and have used neutral/neutral 2-D gel replicon mapping to show that initiation in this origin is also highly delocalized, encompassing a region more than 50 kb in length that includes the nontranscribed rhodopsin gene itself. The initiation zone is flanked at least on one end by an actively transcribed gene that does not support initiation. Thus, the DHFR and rhodopsin origins belong to a class of complex, polydisperse origins that appears to be unique to higher eukaryotic cells.
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PMID:Dispersive initiation of replication in the Chinese hamster rhodopsin locus. 1073 62