Gene/Protein
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Pivot Concepts:
Gene/Protein
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Target Concepts:
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Query: EC:3.1.30.2 (
endonuclease
)
18,621
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Radiation-reduced chromosomes provide valuable reagents for cloning and mapping genes, but they require multiple rounds of x-ray deletion mutagenesis to excise unwanted chromosomal DNA while maintaining physical attachment of the desired DNA to functional host centromere and telomere sequences. This requirement for chromosomal rearrangements can result in undesirable x-ray induced chromosome chimeras where multiple non-contiguous chromosomal fragments are fused. We have developed a cloning system for maintaining large donor subchromosomal fragments of mammalian DNA in the megabase size range as acentric chromosome fragments (double-minutes) in cultured mouse cells. This strategy relies on randomly inserted selectable markers for donor fragment maintenance. As a test case, we have cloned random segments of Chinese hamster ovary (CHO) chromosomal DNA in mouse EMT-6 cells. This was done by cotransfecting plasmids pZIPNeo and pSV2dhfr into
DHFR
-CHO cells followed by isolation of a Neo +
DHFR
+ CHO donor colony and radiation-fusion-hybridization (RFH) to EMT-6 cells. We then selected for initial resistance to G418 and then to increasing levels of methotrexate (MTX). Southern analysis of pulsed-field gel electrophoresis of rare-cutting restriction
endonuclease
digestions of DNA from five RFH isolates indicated that all five contain at least 600 kb of unrearranged CHO DNA. In situ hybridization with the plasmids pZIPNeo and pSV2dhfr to metaphase chromosomes of MTX-resistant hybrid EMT-6 lines indicated that these markers reside on double-minute chromosomes.
...
PMID:Double-minute chromosomes as megabase cloning vehicles. 162 62
We have previously demonstrated preferential DNA repair of active genes in mammalian cells. The methodology involves the use of a specific
endonuclease
or other more direct approaches to create nicks at sites of damage followed by quantitative Southern analysis and probing for specific genes. Initially, we used pyrimidine dimer specific
endonuclease
to detect pyrimidine dimers after UV irradiation. We now also use the bacterial enzyme ABC excinuclease to examine the DNA damage and repair of a number of adducts other than pyrimidine dimers in specific genes. We can detect gene specific alkylation damage by creating nicks via depurination and alkaline hydrolysis. In our assay for preferential repair, we compare the efficiency of repair in the
DHFR
gene to that in the 3' flanking, non-coding region to the gene. In CHO cells, UV induced pyrimidine dimers are efficiently repaired from the active
DHFR
gene, but not from the inactive region. We have demonstrated that the 6-4 photoproducts are also preferentially repaired and that they are removed faster from the regions studied than pyrimidine dimers. Using similar approaches, we find that DNA adducts and crosslinks caused by cisplatinum are preferentially repaired in the active gene compared to the inactive regions and to the inactive c-fos oncogene. Also, nitrogen mustard and methylnitrosurea damage is preferentially repaired whereas dimethylsulphate damage is not. NAAAF adducts do not appear to be preferentially repaired in this system.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Gene specific damage and repair after treatment of cells with UV and chemotherapeutical agents. 206 87
A series of antifolate-resistant Chinese hamster lung sublines that overproduce either a Mr 20,000 or a Mr 21,000 class of dihydrofolate reductase (
DHFR
; tetrahydrofolate dehydrogenase; 5,6,7,8-tetrahydrofolate:NADP+ oxidoreductase, EC 1.5.1.3), known to contain amplified
DHFR
genes, has been analyzed by DNA and RNA transfer techniques. The results suggest that the Mr 20,000 and Mr 21,000 DHFRs are encoded by at least two polymorphic
DHFR
genes, both of which are expressed in drug-sensitive parental cells. In drug-resistant sublines only one of the two
DHFR
gene types is amplified, thus accounting for the overproduction of one or the other molecular weight class of
DHFR
. In addition to the known differences between the DHFRs whose overproduction they direct, these allelic genes differ in restriction
endonuclease
profiles and in the relative abundances of their multiple mRNA transcripts.
...
PMID:Selective amplification of polymorphic dihydrofolate reductase gene loci in Chinese hamster lung cells. 618 19
A rapid and simple method to detect pyrimethamine susceptibility of Plasmodium falciparum by analyzing DNA from whole blood is presented. Samples from cultured isolates and from patients infected with P. falciparum were spotted onto filter paper disks, dried, and stored for subsequent analyses. After extracting the P. falciparum DNA using Chelex-100 ion-chelating resin (Bio-Rad, Richmond, CA), the polymerase chain reaction (PCR) was used to amplify the dihydrofolate reductase (dhfr) gene. The PCR product of 727 basepairs was digested with the Alu I restriction
endonuclease
to detect whether the isolates were sensitive or resistant to the antimalarial drugs pyrimethamine and cycloguanil. This reaction
endonuclease
digests only DNA from pyrimethamine-sensitive parasites because the recognition locus of Alu I is changed by mutations giving rise to pyrimethamine and cycloguanil resistance. This method is simple and sensitive and could therefore bu used to study the epidemiology of pyrimethamine resistant in P. falciparum. The
DHFR
gene of pyrimethamine-resistance clones from Vietnamese patients showed three amino acid changes that were previously found in pyrimethamine-resistant isolates. Two other clones, T9/94 and T9/96, originally isolated from a single malaria patient from Thailand, had different
DHFR
gene sequences. The nucleotide sequence of the
DHFR
gene from T9/96 was identical to the wild-type
DHFR
sequence, whereas T9/94 possessed amino acid substitutions at positions 16 and 108 that have been described in cycloguanil-resistant parasites.
...
PMID:Rapid detection of pyrimethamine susceptibility of Plasmodium falciparum by restriction endonuclease digestion of the dihydrofolate reductase gene. 861 45
To determine whether or not initiation sites for DNA replication in mammalian cells are defined by association with nuclear structure, attachments between the nucleoskeleton and the hamster
DHFR
gene initiation zone were examined. Nucleoskeletons were prepared by encapsulating cells in agarose and then extracting them with a nonionic detergent in a physiological buffer. The fraction of DNA that remained following
endonuclease
digestion was resistant to salt, sensitive to Sarkosyl, and essentially unchanged by glutaraldehyde crosslinking. Although newly replicated DNA was preferentially attached to the nucleoskeleton, no specific sequence was preferentially attached within a 65 kb locus containing the
DHFR
gene, two origins of bi-directional replication and at least one nuclear matrix attachment region. Instead, the entire region went from preferentially unattached to preferentially attached as cells progressed from G1 to late S-phase. Thus, initiation sites in mammalian chromosomes are not defined by attachments to the nucleoskeleton. To further assess the relationship between the nucleoskeleton and DNA replication, plasmid DNA containing the
DHFR
initiation region was replicated in a Xenopus egg extract. All of the DNA associated with the nucleoskeleton prior to S-phase without preference for a particular sequence and was released upon mitosis. However, about half of this DNA was trapped rather than bound to the nucleoskeleton. Thus, attachments to the nucleoskeleton can form in the absence of either DNA replication or transcription, but if they are required for replication, they are not maintained once replication is completed.
...
PMID:Nucleoskeleton and initiation of DNA replication in metazoan cells. 981 57
