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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)
DNA from newborn mice was digested with restriction
endonuclease
EcoRI, and a 6.6-kilobase fragment encoding immunoglobulin gamma 2b chain mRNA derived from
MPC
11 myeloma was enriched about 100-fold by RPC-5 column chromatography and agarose gell electrophoresis. The 6.6-kilobase fragment was cloned with lambda gt WES.lambda B as EK2 vector. The cloned phage (lambda WES.IgH22) contained the constant region gene of the gamma 2b chain but not the variable region gene of
MPC
11 mRNA. The constant region genes of the other gamma chains (i.e., gamma 1, gamma 2a, and gamma 3) were not present in lambda gt WES.IgH22 DNA. R-loop mapping indicates that the gamma 2b chain structural gene is divided into two parts (330 +/- 60 SD base pairs and 930 +/- 110 SD base pairs) by an intervening sequence (360 +/- 100 SD base pairs). The nucleotide sequence around the junction of the hinge region and CH2 domain was determined and shown to match the amino acid sequence of the initial part of the CH2 domain of the gamma 2b chain. The base sequence upstream from the junction, however, is unrelated to the amino acid sequence of the CH1 domain and the hinge region of all the gamma chains whose sequences have been determined. These results indicate that the gamma 2b chain gene is interrupted at the junction of the hinge region and CH2 domain by an intervening sequence. The existence of two more intervening sequences, one between the CH1 domain and the hinge region and the other between the CH2 and CH3 domains, is discussed.
...
PMID:Cloning immunoglobulin gamma 2b chain gene of mouse: characterization and partial sequence determination. 11 31
The activity of damage-dependent
endonuclease
in mouse plasmacytoma cells (line
MPC
-11) has been studied using damaged phi X 174 RFI DNA as substrate. The DNA was treated with ultraviolet light, acid, or osmium tetroxide to introduce different types of lesions. Ultraviolet light-damaged DNA was cleaved at approx. 1.1 sites per 35 thymine-containing dimers by the extract, which indicates no specificity towards this type of lesion. The acid-treated DNA, which contains apurinic sites, was enzymatically broken in every alkalilabile site and this strongly suggests the presence of an apurinic-specific
endonuclease
activity in the nuclear extract. The activity which acts on ultraviolet-irradiated DNA and that which acts on acid-treated DNA have different specificities as shown by their salt requirements and the extent to which they are stimulated by magnesium. While the ultraviolet-
endonuclease
activity was very little affected by reducing the KCl concentration, the apurinic-specific activity was almost completely abolished. Osmium tetroxide renders the DNA an excellent substrate for endonucleolytic activity in the mouse cell extract. The response to KCl and MgCl2 of the osmium tetroxide-specific
endonuclease
activity is qualitatively similar to that of the
endonuclease
activity, which acts on ultraviolet-irradiated DNA. Treatment of DNA with osmium tetroxide is known to produce 5,6-dihydroxydihydrothymine which is a minor photoproduct in DNA after irradiation, suggesting that the ultraviolet-specific
endonuclease
activity acts upon this lesion.
...
PMID:Endonuclease activities from a permanently established mouse cell line that act upon DNA damaged by ultraviolet light, acid and osmium tetroxide. 69 23
Mitochondrial forms of uracil DNA glycosylase and UV
endonuclease
have been purified and characterized from the mouse plasmacytoma cell line,
MPC
-11. As in other cell types, the mitochondrial uracil DNA glycosylase has properties very similar to those of the nuclear enzyme, although in this case the mitochondrial activity was also distinguishable by extreme sensitivity to dilution. Three mitochondrial UV
endonuclease
activities are also similar to nuclear enzymes; however, the relative amounts of these enzyme activities in the mitochondria is significantly different from that in the nucleus. In particular, mitochondria contain a much higher proportion of an activity analogous to UV endonuclease III. Nuclear UV endonuclease III activity is absent from XP group D fibroblasts and XP group D lymphoblasts have reduced, but detectable levels of the mitochondrial form of this enzyme. This residual activity differs in its properties from the normal mitochondrial form of UV endonuclease III, however. The presence of these enzyme activities which function in base excision repair suggests that such DNA repair occurs in mitochondria. Alternatively, these enzymes might act to mark damaged mitochondrial genomes for subsequent degradation.
...
PMID:Mammalian mitochondrial endonuclease activities specific for ultraviolet-irradiated DNA. 231 45
Two DNA repair enzyme activities, uracil DNA glycosylase and AP
endonuclease
, were measured in extracts of T- and B-lymphocytes isolated from mice ranging in age from 3 to 24 months. T- and B-lymphocytes had roughly equal levels of AP
endonuclease
which did not change appreciably with age. T-lymphocytes had roughly twice as high a level of uracil DNA glycosylase as B-lymphocytes; these levels were not affected by age either. This constancy with age contrasts dramatically with increases in both enzymes--roughly 3-fold on a protein basis or 50-fold on a per cell basis--in a transformed line (
MPC
-11) derived from a carcinogen-induced lymphocytoma. These results are similar to those obtained with cultured murine fibroblasts, wherein a relative constancy was noted with passage of non-transformed cells, followed by dramatic changes upon transformation (La Belle, M & Linn, S, Mutat res 132 (1984) 51). Hence these enzyme assays do not support the notion of a drop in base excision DNA repair capacity as being a causative factor in aging, but suggest instead that DNA repair properties might differ dramatically in transformed vs non-transformed cells.
...
PMID:Levels of uracil DNA glycosylase and AP endonuclease in murine B- and T-lymphocytes do not change with age. 242 Jun 22
We have developed a strategy by which the nature of phosphodiester bond breaks produced by various DNA-repair endonucleases and also other nucleases, can be characterized. A purified apurinic/apyrimidinic (AP) specific
endonuclease
from a permanently established mouse plasmacytoma cell-line (
MPC
-11) has been examined with respect to the exact incision site generated at the baseless site. By the aid of enzymatic treatment with calf intestinal phosphatase, the 3'-phosphatase activity of T4-polynucleotide kinase, chemical modification with piperidine in addition to the Maxam-Gilbert sequencing procedure, followed by separation on a DNA-sequencing gel, the nature of the cleaved phosphodiester bond, both 3' and 5' to the cleavage site, has been established. The AP-specific
endonuclease
investigated was classified as a class II AP-
endonuclease
according to the four possible classes of AP-
endonuclease
with respect to the termini produced. By use of this technique each single damaged and cleaved site can be investigated separately.
...
PMID:Analysis of cleavage products of DNA repair enzymes and other nucleases. Characterization of an apurinic/apyrimidinic specific endonuclease from mouse plasmacytoma cells. 245 3
Endonuclease activity which specifically cleaves baseless (apurinic/apyrimidinic (AP] sites in supercoiled DNA has been purified from mitochondria of the mouse plasmacytoma cell line,
MPC
-11. Two variant forms separate upon purification; these have small but reproducible differences in catalytic and chromatographic properties, but similar physical properties. Both have a sedimentation coefficient of 4.0, corresponding to a molecular weight of 61,000 (assuming a globular configuration) and a peptide molecular weight of about 65,000 as determined by immunoblot analysis with antiserum raised against the major AP
endonuclease
from HeLa cells. Thus mitochondrial AP
endonuclease
appears to be a monomer of about 65 kDa, making it distinguishable from the major AP
endonuclease
of
MPC
-11 cells which, like those of other mammalian cells, appears to be a monomer of about 41 kDa. A possible 82-kDa precursor form was also detected by immunoblot analysis of a crude mitochondrial fraction. Mitochondrial AP
endonuclease
activity is greatly stimulated by divalent cations, has a pH optimum between 6.5 and 8.5, and cleaves the AP site by a class II mechanism to generate a 3'-OH nucleotide residue. These properties resemble those of the major mammalian AP endonucleases but, unlike those enzymes, mitochondrial AP
endonuclease
activity is neither inhibited by adenine or NAD+ nor stimulated by Triton X-100. Since the mitochondrial activity generates active primer termini for DNA synthesis, it could function in base excision DNA repair; alternatively, it might have a role in eliminating damaged mitochondrial genomes from the gene pool.
...
PMID:Mitochondrial endonuclease activities specific for apurinic/apyrimidinic sites in DNA from mouse cells. 245 85
An apurinic/apyrimidinic (AP) specific
endonuclease
from mouse plasmacytoma cells (line
MPC
-11), was observed to cleave apurinic sites in oligonucleotides 9, 11, 12, 39 and 40 nucleotides in length. However, the enzyme failed to cleave AP-sites in two oligonucleotides 7 nucleotides in length. The maximum rates of digestion observed on these short single-stranded DNA (ssDNA) fragments were approximately 1/30 of the rates observed on double-stranded DNA (dsDNA). In studies using the Maxam-Gilbert DNA sequencing analysis, apurinic sites in purine-rich regions were preferentially cleaved in dsDNA but not in ssDNA, indicating that the enzyme has a sequence preference on dsDNA. These results suggest that some sites on DNA might be more efficiently repaired than others.
...
PMID:Action of a mammalian AP-endonuclease on DNAs of defined sequences. 246 39
An
endonuclease
specific for apurinic sites in double stranded DNA has been purified 373-fold from the nuclei of mouse plasmacytoma cells (line
MPC
-11). The enzyme is free of any detectable amounts of aspecific nucleases. The enzyme does not act on methylated or OsO4-treated DNA. However, high doses of UV-light and gamma-rays render the DNA slightly susceptible to endonucleolytic attack, which is believed to be due to depurination of depyrimidination caused by the treatment. The molecular weight of the enzyme is determined to be 28,000 and its apparent Km of the purified enzyme is calculated to be 2.7 nM apurinic sites. The activity is not absolutely dependent upon the presence of Mg2+ in the assay mixture although metal chelating agents such as sodium citrate and EDTA abolish the activity completely. The nuclease was stimulated by moderate concentrations of potassium chloride optimizing at 50 mM, and higher concentrations inhibiting the activity. The pH optimun for the reaction was 9.5.
...
PMID:Purification and characterization of an endonuclease specific for apurinic sites in DNA from a permanently established mouse plasmacytoma cell line. 625 41
A DNA-repair
endonuclease
has been purified 117-fold from mouse plasmacytoma cells (line
MPC
-11) by gel filtration, followed by ion-exchange and affinity chromatography. Its molecular weight was determined by gel filtration to be 28,000 +/- 2000. The enzyme recognizes apurinic and apyrimidinic sites induced by acid and gamma-rays in DNA, as well as another type of lesion(s) which is introduced into DNA by both ultraviolet irradiation and OsO4. Quantitative measurements of the number of nicks the purified DNA-repair
endonuclease
makes in DNA treated with various amounts of OsO4 and ultraviolet light suggests that the
endonuclease
may act on 5,6-dihydroxydihydrothymine lesions. The
endonuclease
activity was sensitive to the ionic strength and was most active in the presence of 100 mM KCl, whereas the presence of divalent cations did not stimulate the activity.
...
PMID:Purification and properties of a mouse-cell DNA-repair endonuclease, which recognizes lesions in DNA induced by ultraviolet light, depurination, gamma-rays, and OsO4 treatment. 625 66
Immunoglobulin heavy chain class switching has been observed in vitro. In the IgG2b-producing
MPC
-11 mouse myeloma cell line, IgG2a-producing cells arise at a high frequency. In some cases, switch variants producing normal-sized (Mr 55,000) gamma 2a heavy chains have arisen spontaneously from a mutagen-induced "intermediate" (ICR 9.7.1) that produces an unusually large (Mr 75,000) heavy chain. Other switch variants have been isolated directly from the parent cell line. The expressed and unexpressed gamma 2b genes of
MPC
-11 can be distinguished in restriction
endonuclease
digests of total genomic DNA so that DNA rearrangements detected in
MPC
-11 variants can be directly associated with one or the other of these two genes. We describe here DNA rearrangements occurring on the expressed heavy chain chromosome of several
MPC
-11 gamma 2a switch variants and on the expressed chromosome of the ICR 9.7.1 intermediate. Our data indicate that all of these variants express the parental heavy chain variable region (VH) gene, supporting previous protein studies. We provide mapping data for the expressed gene of both ICR 9.7.1 and one of the IgG2a-producing variant cell lines (ICR 9.9.2.1) derived from it and discuss the advantages of an in vitro switching system for examining the dynamics of the immunoglobulin heavy chain class switch.
...
PMID:DNA rearrangements in MPC-11 immunoglobulin heavy chain class-switch variants. 680 22
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