EC:1.5.1.3 - FACTA Search

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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)

Toward the goal of gene therapy, we have been attempting to establish model somatic cell systems with the potential of sustained expression of the foreign gene. We report here that long-term expression of foreign genes in mouse embryo fibroblast implants can be achieved if a housekeeping gene promoter is used to drive transcription. Specifically, we have shown that in implants containing a beta-galactosidase gene linked to either an immediate early promoter of cytomegalovirus or a dihydrofolate reductase (DHFR) gene promoter, only the DHFR promoter allows long-term expression. We propose that choice of the promoter manifests significant influence on the long-term expression of genes introduced in fibroblast implants by retroviral vectors.
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PMID:Long-term in vivo expression of retrovirus-mediated gene transfer in mouse fibroblast implants. 190 11

The mechanism for establishing the DNA methylation patterns observed in adult mammalian tissues is not well understood. To determine when adult patterns are established for housekeeping genes, we examined the clustered CpGs in genes on the human active X chromosome (PGK, G6PD, P3, GdX, HPRT) and the autosomal gene, DHFR. We find unique methylation patterns present at the P3 locus in all tissues analyzed from 6- to 9-week fetal specimens, and at the HPRT locus in adrenal gland DNA at this stage of development. Adult patterns are established subsequently by demethylating specific CpGs. Our results show that demethylating events affecting CpG islands are programmed during mammalian fetal development. They suggest that the process of de novo methylation in the fetus methylates at least some sites in the 3' region of the CpG islands in active genes and that adult patterns are established at 6-14 weeks developmental age by sequence-specific demethylation.
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PMID:Programmed demethylation in CpG islands during human fetal development. 201 94

The mouse dihydrofolate reductase (Dhfr) promoter region is buried within a CpG island (a region rich in unmethylated CpG dinucleotides), has a high G+C content, and lacks CAAT and TATA elements. The region contains four 48-bp repeats, each of which contains an Sp1-binding site. Another gene, Rep-3 (formerly designated Rep-1), shares the same general promoter region with Dhfr, being transcribed in the direction opposite that of Dhfr. Both genes appear to be housekeeping genes and are expressed at relatively low levels in all tissues. The 5' termini of the major Dhfr transcripts are separated from the 5' termini of the Rep-3 transcripts by approximately 140 bp. This curious structural arrangement suggested that the two genes might share common regulatory elements. To investigate the promoter sequences driving bidirectional transcription, a series of promoter mutations was constructed. These mutations were assayed by a replicating minigene system and by promoter fusions to the chloramphenicol acetyltransferase gene. Linker-scanning mutations that spanned the four repeats produced a variety of mRNA transcript phenotypes. The effects were primarily quantitative, generally reducing the abundance of transcripts for one or both genes. Some mutations affected Dhfr in a qualitative manner, such as by changing the startpoint of one of the major Dhfr transcripts or changing the relative abundance of the two major Dhfr transcripts. Additionally, protein transcription factors that bind to sequences in the mouse Dhfr/Rep-3 major promoter region, potentially affecting expression of either or both genes, were investigated by DNase I footprinting. The results indicate that multiple protein-DNA interactions occur in this region, reflecting potentially complex transcriptional control mechanisms that might modulate expression of either or both genes under different physiological conditions.
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PMID:Analysis of the mouse Dhfr/Rep-3 major promoter region by using linker-scanning and internal deletion mutations and DNase I footprinting. 223 29

We have identified a sequence element that specifies the position of transcription initiation for the dihydrofolate reductase gene. Unlike the functionally analogous TATA box that directs RNA polymerase II to initiate transcription 30 nucleotides downstream, the positioning element of the dihydrofolate reductase promoter is located directly at the site of transcription initiation. By using DNase I footprint analysis, we have shown that a protein binds to this initiator element. Transcription initiated at the dihydrofolate reductase initiator element when 28 nucleotides were inserted between it and all other upstream sequences, or when it was placed on either side of the DNA helix, suggesting that there is no strict spatial requirement between the initiator and an upstream element. Although neither a single Sp1-binding site nor a single initiator element was sufficient for transcriptional activity, the combination of one Sp1-binding site and the dihydrofolate reductase initiator element cloned into a plasmid vector resulted in transcription starting at the initiator element. We have also shown that the simian virus 40 late major initiation site has striking sequence homology to the dihydrofolate reductase initiation site and that the same, or a similar, protein binds to both sites. Examination of the sequences at other RNA polymerase II initiation sites suggests that we have identified an element that is important in the transcription of other housekeeping genes. We have thus named the protein that binds to the initiator element HIP1 (Housekeeping Initiator Protein 1).
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PMID:Transcription initiation from the dihydrofolate reductase promoter is positioned by HIP1 binding at the initiation site. 230 58

The bifunctional dihydrofolate reductase-thymidylate synthase (DHFR-TS) gene from the monogenetic kinetoplastid protozoan, Crithidia fasciculata, was isolated and characterized. The gene is located on a single chromosome of approximately one megabase, and shows significant sequence similarity to other eukaryotic and prokaryotic DHFR and TS genes. There is a single low-abundance polyadenylated DHFR-TS transcript of approximately 3100 nt. One major miniexon splice site was identified by primer extension analysis. The 5' flanking region of the gene is divergently transcribed and shows strong similarities to a consensus DHFR promoter as well as to other eukaryotic 'housekeeping' gene promoter regions. A sequence downstream of the DHFR promoter consensus region is complementary to the 3' end of the C. fasciculata miniexon-derived RNA. This suggests a means by which the two separately transcribed RNAs may be juxtaposed for trans-splicing. In the 3' flanking region of the DHFR-TS gene, there is a sequence that is present in all of the chromosomes from this species and also from Leishmania tarentolae.
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PMID:Structure, genomic organization and transcription of the bifunctional dihydrofolate reductase-thymidylate synthase gene from Crithidia fasciculata. 254 Apr 36

The molecular karyotypes of four isolates of Plasmodium chabaudi, three of the subspecies P. chabaudi adami and one P. chabaudi chabaudi, as well as P. berghei and P. vinckei were studied by means of pulsed field gradient (PFG) gel electrophoresis. Each species appears to have 14 chromosomes, ranging in size from approximately 730 kb to greater than 2000 kb. The three P. chabaudi adami isolates did not appear any more similar to each other than to the P. c. chabaudi isolate. The chromosome locations of genes for a heat shock protein (hsp) 70, ribosomal RNA (rRNA), the precursor to the major merozoite surface proteins, dihydrofolate reductase and P. falciparum antigen 352 as well as four cloned DNA markers and a telomere probe were determined. However, a number of probes representing cloned P. falciparum antigens failed to hybridize to P. chabaudi DNA. Hence genes for malaria antigens appear to be much more divergent than genes for housekeeping functions.
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PMID:Molecular karyotyping of the rodent malarias Plasmodium chabaudi, Plasmodium berghei and Plasmodium vinckei. 265 17

The mouse dihydrofolate reductase gene (dhfr) is a housekeeping gene expressed under the control of a promoter region embedded in a CpG island--a region rich in unmethylated CpG dinucleotides. A divergent transcription unit exists immediately upstream of the dhfr gene which is coamplified with dhfr in some but not all methotrexate-resistant cell lines. We show that the promoter region for this gene pair consists of two bidirectional promoters, a major and minor promoter, which are situated within a 660-base-pair region upstream of the dhfr ATG translation initiation codon. The major promoter controls over 90% of dhfr transcription, while the minor promoter directs the transcription of the remaining dhfr mRNAs. The major promoter functions bidirectionally, transcribing a divergent 4.0-kilobase poly(A) mRNA (class A) in the direction opposite that of dhfr transcription. The predicted protein product of this mRNA is 105 kilodaltons. The minor promoter also functions bidirectionally, directing the transcription of at least two divergent RNAs (class B). These RNAs, present in quantities approximately 1/10 to 1/50 that of the class A mRNAs, are 4.4- and 1.6-kilobase poly(A) mRNAs. cDNAs representing both class A and class B mRNAs have been cloned from a mouse fibroblast cell line which has amplified the dhfr locus (3T3R500). DNA sequence analysis of these cDNAs reveals that the class A and class B mRNAs share, for the most part, the same exons. On the basis of S1 nuclease protection analysis of RNA preparations from several mouse tissues, both dhfr and divergent genes showed similar levels of expression but did show some specificity in start site utilization. Computer homology searches have revealed sequence similarity of the divergent transcripts with bacterial genes involved in DNA mismatch repair, and we therefore have named the divergently transcribed gene Rep-1.
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PMID:Dual bidirectional promoters at the mouse dhfr locus: cloning and characterization of two mRNA classes of the divergently transcribed Rep-1 gene. 267 79

DNA methylation was examined in xeroderma pigmentosum (XP) cells. The amount of 5-methylcytosine (mC) in DNA from XP cells was about 70% of that in DNA from normal controls. Southern hybridization analysis showed that the HLA-DR alpha gene in XP lymphocyte B cells was differently methylated from normals, but its expression was apparently unaffected. The methylation of dihydrofolate reductase, a housekeeping gene, was the same as in controls. The revertants to UV resistance from XP fibroblasts recovered a methylation level close to that of normal cells. Results suggested that XP DNA was undermethylated non-randomly, and that DNA methylation might be associated with DNA repair function.
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PMID:DNA methylation in xeroderma pigmentosum. 291 67

We have studied transcription of the dihydrofolate reductase gene as cells progress through the cell cycle. We used the techniques of DNA-excess filter hybridization and in vivo pulse labeling of a synchronous population of cells to measure the transcription rate of the dihydrofolate reductase gene in different phases of the cell cycle. Our results indicate that the dihydrofolate reductase gene is cell cycle regulated at the transcriptional level. The transcription rate is low in G1, increases 7-fold at the beginning of S phase, decreases almost immediately thereafter, and remains low throughout the remainder of S and into G2. This cell cycle regulation seen in the G1 to S phase transition is achieved by increasing the rate of transcription from a single promoter region. The fact that this region is similar to promoter regions of other housekeeping genes suggests that this type of regulation may not be unique to dihydrofolate reductase.
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PMID:Transcriptional regulation of mouse dihydrofolate reductase in the cell cycle. 298 64

The human 4F2 cell surface antigen is a 120-kilodalton (kDa) disulfide-linked heterodimer which is composed of an 80- to 90-kDa glycosylated heavy chain (4F2HC) and a 35- to 40-kDa nonglycosylated light chain (4F2LC). 4F2 belongs to a family of inducible cell surface molecules which are involved in T-lymphocyte activation and growth. To better understand the molecular mechanism(s) that controls 4F2HC gene expression in both resting and activated T cells, a 4F2HC human genomic clone was isolated and structurally characterized. The 4F2HC gene spans 8 kilobases of chromosome 11 and is composed of nine exons. The 5' upstream region of the gene displays several properties which are characteristic of housekeeping genes. It is G+C rich and hypomethylated in peripheral blood lymphocyte DNA and contains multiple binding sites for the Sp1 transcription factor while lacking TATA or CCAAT sequences. This region of the gene also displays sequence homologies with several other inducible T-cell genes, including the interleukin-2, interleukin-2 receptor alpha chain, dihydrofolate reductase, thymidine kinase, and transferrin receptor genes. A 255-base-pair fragment of the 4F2HC gene which contains 154 base pairs of the 5' flanking sequence was able to efficiently promote expression of the bacterial chloramphenicol acetyltransferase gene in human Jurkat T cells, indicating that it contains promoter or enhancer (or both) sequences. Analyses of chromatin structure in resting and lectin-activated T cells revealed the presence of stable DNase I-hypersensitive sites within both the 5' flanking and intron 1 regions of the 4F2HC gene. Although the 4F2HC gene displayed many of the structural features characteristic of a constitutively expressed gene, lectin-mediated activation of resting peripheral blood T lymphocytes resulted in a dramatic increase in steady-state levels of 4F2HC mRNA.
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PMID:Isolation and structural characterization of the human 4F2 heavy-chain gene, an inducible gene involved in T-lymphocyte activation. 326 70

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