The repetitive sequence structure of component α DNA and its relationship to the nucleosomes of the African green monkey
Identifieur interne : 004F84 ( Main/Exploration ); précédent : 004F83; suivant : 004F85The repetitive sequence structure of component α DNA and its relationship to the nucleosomes of the African green monkey
Auteurs : Fred L. Brown [États-Unis] ; Phillip R. Musich [États-Unis] ; Joseph J. Maio [États-Unis]Source :
- Journal of Molecular Biology [ 0022-2836 ] ; 1979.
English descriptors
- Teeft :
- Agarose, Basic periodicity, Biol, Chromatin, Chromatin segments, Cleavage, Component, Digest, Digestion, Distinct subset, Dna, Doublet, Ecori, Ecorl, Ecort, Electrophoresis, Electrophoretic, Enzyme, Genome, Haeiii, Hindiii, Hybridization, Incubation, Incubation conditions, Incubation temperature, Intermediate series, Ionic strength, Jeppesen, Kornberg, Kurnit, Kurnit maio, Large amounts, Limit digests, Maio, Maxam gilbert, Micrococcal, Micrococcal nuclease, Minor segments, Monkey kidney, Monkey kidney cells, Monomer, Monomer segments, Multimeric, Multimeric series, Musich, Nuclear isolation, Nuclease, Nuclease digestions, Nucleosomal, Nucleosomal arrays, Nucleosomal proteins, Nucleosome, Nucleosome structure, Nucleosomes, Partial ecori, Periodicity, Phosphate buffer, Polyacrylamide, Primary sites, Primates, Pure component, Radioactivity measurements, Repetitive, Repetitive dnas, Restriction, Restriction segments, Roman numerals, Room temperature, Secondary ecori, Secondary sites, Segment, Submonomer, Submonomer segments, Subset, Subunit, Subunit structure, Total nucleosome population, Unpublished work, Various restriction enzymes, Weight component.
Abstract
Abstract: An analysis of the repeat structure of the highly repetitive sequence, component α DNA of the African green monkey, shows that the DNA contains restriction sites for EcoRI, EcoRI∗, HindIII and HaeIII. All four restriction enzyme activities indicate a basic repeat length of 176 ± 4 base-pairs. In addition to primary EcoRI∗ and HindIII sites, about 59% of the repeat sequences contain secondary EcoRI∗ sites and about 36% of the repeat sequences contain secondary HindIII sites. The secondary sites are located less than 176 base-pairs from the primary sites and their cleavage yields several complex series of minor, intermediate segments in gels of the partial EcoRI∗ or HindIII digests. Cleavage at the secondary sites yields segments shorter than the unit monomer in the limit digests. The sites for EcoRI, EcoRI∗, HindIII and HaeIII have been mapped within the repeat unit. Treatment of the monkey nuclei with micrococcal nuclease at 2 °C and in the presence of 80 mm-NaCl reveals two distinct populations of nucleosomes. One population contains bulk DNA sequences, and after cleavage with micrococcal nuclease this population yields heterogeneous segments of DNA spanning 180 to 200 base-pairs in length. The other population contains component α sequences and after cleavage with micrococcal nuclease yields homogeneous segments of component α DNA that are exact multiples of the basic sequence repeat unit of 176 base-pairs. Thus, the cleavage by micrococcal nuclease of nucleosomal arrays containing component α sequences is as regular and precise as the cleavage of the purified DNA by the restriction enzymes. The resolution of the two distinct subsets of nucleosomes in the monkey nuclei is dependent upon the conditions of ionic strength and temperature employed during the nuclear isolation and the micrococcal nuclease digestion. These observations are consistent with a phase relation between the component α repeat sequences and the associated nucleosomal proteins (Musich et al., 1977b). They are also in accord with the hypothesis that the subunit structure of constitutive heterochromatin modulates or determines the repeat sequence structure and hence, the evolution of many highly repetitive mammalian DNAs (Maio et al., 1977).
Url:
DOI: 10.1016/0022-2836(79)90201-8
Affiliations:
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Brown</name><affiliation wicri:level="1"><country xml:lang="fr">États-Unis</country><wicri:regionArea>Albert Einstein College of Medicine Department of Cell Biology 1300 Morris Park Avenue Bronx, N.Y. 10461</wicri:regionArea><wicri:noRegion>N.Y. 10461</wicri:noRegion></affiliation></author><author><name sortKey="Musich, Phillip R" sort="Musich, Phillip R" uniqKey="Musich P" first="Phillip R." last="Musich">Phillip R. Musich</name><affiliation wicri:level="1"><country xml:lang="fr">États-Unis</country><wicri:regionArea>Albert Einstein College of Medicine Department of Cell Biology 1300 Morris Park Avenue Bronx, N.Y. 10461</wicri:regionArea><wicri:noRegion>N.Y. 10461</wicri:noRegion></affiliation></author><author><name sortKey="Maio, Joseph J" sort="Maio, Joseph J" uniqKey="Maio J" first="Joseph J." last="Maio">Joseph J. Maio</name><affiliation wicri:level="1"><country xml:lang="fr">États-Unis</country><wicri:regionArea>Albert Einstein College of Medicine Department of Cell Biology 1300 Morris Park Avenue Bronx, N.Y. 10461</wicri:regionArea><wicri:noRegion>N.Y. 10461</wicri:noRegion></affiliation></author></analytic><monogr></monogr><series><title level="j">Journal of Molecular Biology</title><title level="j" type="abbrev">YJMBI</title><idno type="ISSN">0022-2836</idno><imprint><publisher>ELSEVIER</publisher><date type="published" when="1979">1979</date><biblScope unit="volume">131</biblScope><biblScope unit="issue">4</biblScope><biblScope unit="page" from="777">777</biblScope><biblScope unit="page" to="799">799</biblScope></imprint><idno type="ISSN">0022-2836</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0022-2836</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="Teeft" xml:lang="en"><term>Agarose</term><term>Basic periodicity</term><term>Biol</term><term>Chromatin</term><term>Chromatin segments</term><term>Cleavage</term><term>Component</term><term>Digest</term><term>Digestion</term><term>Distinct subset</term><term>Dna</term><term>Doublet</term><term>Ecori</term><term>Ecorl</term><term>Ecort</term><term>Electrophoresis</term><term>Electrophoretic</term><term>Enzyme</term><term>Genome</term><term>Haeiii</term><term>Hindiii</term><term>Hybridization</term><term>Incubation</term><term>Incubation conditions</term><term>Incubation temperature</term><term>Intermediate series</term><term>Ionic strength</term><term>Jeppesen</term><term>Kornberg</term><term>Kurnit</term><term>Kurnit maio</term><term>Large amounts</term><term>Limit digests</term><term>Maio</term><term>Maxam gilbert</term><term>Micrococcal</term><term>Micrococcal nuclease</term><term>Minor segments</term><term>Monkey kidney</term><term>Monkey kidney cells</term><term>Monomer</term><term>Monomer segments</term><term>Multimeric</term><term>Multimeric series</term><term>Musich</term><term>Nuclear isolation</term><term>Nuclease</term><term>Nuclease digestions</term><term>Nucleosomal</term><term>Nucleosomal arrays</term><term>Nucleosomal proteins</term><term>Nucleosome</term><term>Nucleosome structure</term><term>Nucleosomes</term><term>Partial ecori</term><term>Periodicity</term><term>Phosphate buffer</term><term>Polyacrylamide</term><term>Primary sites</term><term>Primates</term><term>Pure component</term><term>Radioactivity measurements</term><term>Repetitive</term><term>Repetitive dnas</term><term>Restriction</term><term>Restriction segments</term><term>Roman numerals</term><term>Room temperature</term><term>Secondary ecori</term><term>Secondary sites</term><term>Segment</term><term>Submonomer</term><term>Submonomer segments</term><term>Subset</term><term>Subunit</term><term>Subunit structure</term><term>Total nucleosome population</term><term>Unpublished work</term><term>Various restriction enzymes</term><term>Weight component</term></keywords></textClass><langUsage><language ident="en">en</language></langUsage></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Abstract: An analysis of the repeat structure of the highly repetitive sequence, component α DNA of the African green monkey, shows that the DNA contains restriction sites for EcoRI, EcoRI∗, HindIII and HaeIII. All four restriction enzyme activities indicate a basic repeat length of 176 ± 4 base-pairs. In addition to primary EcoRI∗ and HindIII sites, about 59% of the repeat sequences contain secondary EcoRI∗ sites and about 36% of the repeat sequences contain secondary HindIII sites. The secondary sites are located less than 176 base-pairs from the primary sites and their cleavage yields several complex series of minor, intermediate segments in gels of the partial EcoRI∗ or HindIII digests. Cleavage at the secondary sites yields segments shorter than the unit monomer in the limit digests. The sites for EcoRI, EcoRI∗, HindIII and HaeIII have been mapped within the repeat unit. Treatment of the monkey nuclei with micrococcal nuclease at 2 °C and in the presence of 80 mm-NaCl reveals two distinct populations of nucleosomes. One population contains bulk DNA sequences, and after cleavage with micrococcal nuclease this population yields heterogeneous segments of DNA spanning 180 to 200 base-pairs in length. The other population contains component α sequences and after cleavage with micrococcal nuclease yields homogeneous segments of component α DNA that are exact multiples of the basic sequence repeat unit of 176 base-pairs. Thus, the cleavage by micrococcal nuclease of nucleosomal arrays containing component α sequences is as regular and precise as the cleavage of the purified DNA by the restriction enzymes. The resolution of the two distinct subsets of nucleosomes in the monkey nuclei is dependent upon the conditions of ionic strength and temperature employed during the nuclear isolation and the micrococcal nuclease digestion. These observations are consistent with a phase relation between the component α repeat sequences and the associated nucleosomal proteins (Musich et al., 1977b). They are also in accord with the hypothesis that the subunit structure of constitutive heterochromatin modulates or determines the repeat sequence structure and hence, the evolution of many highly repetitive mammalian DNAs (Maio et al., 1977).</div></front></TEI><affiliations><list><country><li>États-Unis</li></country></list><tree><country name="États-Unis"><noRegion><name sortKey="Brown, Fred L" sort="Brown, Fred L" uniqKey="Brown F" first="Fred L." last="Brown">Fred L. Brown</name></noRegion><name sortKey="Maio, Joseph J" sort="Maio, Joseph J" uniqKey="Maio J" first="Joseph J." last="Maio">Joseph J. Maio</name><name sortKey="Musich, Phillip R" sort="Musich, Phillip R" uniqKey="Musich P" first="Phillip R." last="Musich">Phillip R. Musich</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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