Gérard Roizes scite author profile

Epigenetics 339Half of the human genome consists of repetitive DNA sequences. Recent studies in various organisms highlight the role of chromatin regulation of repetitive DNA in gene regulation as well as in maintainance of chromosomes and genome integrity. Hence, repetitive DNA sequences might be potential "sensors" for chromatin changes associated with pathogenesis. Therefore, we developed a new genomic tool called RepArray. RepArray is a repeat-specific microarray composed of a representative set of human repeated sequences including transposon-derived repeats, simple sequences repeats, tandemly repeated sequences such as centromeres and telomeres. We showed that combined to anti-methylcytosine immunoprecipitation assay, the RepArray can be used to generate repeat-specific methylation maps. Using cell lines impaired chemically or genetically for DNA methyltransferases activities, we were able to distinguish different epigenomes demonstrating that repeats can be used as markers of genome-wide methylation changes. Besides, using a well-documented system model, the thermal stress, we demonstrated that RepArray is also a fast and reliable tool to obtain an overview of overall transcriptional activity on whole repetitive compartment in a given cell type. Thus, the RepArray represents the first valuable tool for systematic and genome-wide analyses of the methylation and transcriptional status of the repetitive counterpart of the human genome.

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A possible structure for calf satellite DNA I

Roizes

1976

Nucleic Acids Research

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Calf satellite DNA I (p = 1.715) has been hydrolysed by a number or restriction endonucleases. It consists of a repeating unit of 1460 nucleotide pairs within which the sites of Eco R II Mbo I, Sac I, Alu I, Ava II and Hha I were localised in comparison with those of Eco R I and Hind II. The distribution of the Hpa II, Sac I, Hha I, Hinf I and Mbo II sites within calf satellite DNA I, as well as that of several restriction endonuclease sites within calf satellite DNA III (p = 1.705) allowed me to define subsatellite fractions. Furthermore, some of the sites of the CpG containing restriction enzymes Hpa II and Hha I are lacking. The possible implications of these results are discussed.

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The organisation of the long range periodicity calf satellite DNA I variants as revealed by restriction enzyme analysis

Roizes¹,

Pagès²,

Lecou³

1980

Nucl Acids Res

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The analysis of a large number of restriction sites within the long range periodicity calf satellite DNA I does not reveal a superimposable shorter repeat. Although some restriction sites are present in almost all the 100,000 tandemly arranged copies of the 1460 bp repetition unit, other sites such as Atu CI occur at much lower frequencies. When present they are distributed randomly along the satellite DNA molecules. The missing sites appear to result from random and presumably single base alterations. Digestion with the enzymes Hha I and Kpn I showed another type of variant to exist within the calf satellite DNA I. Unlike Atu CI the distributions of the variants detected by these enzymes are not random and organised on long stretches of satellite DNA. The possible functional significance and evolutionary implication of these results are discussed. INTRODUCTIONThe use of restriction endonucleases in the study of satellite DNAs has shown these highly repetitive sequences to posses a greater complexity than originally expected.

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Nature and organization of the sequence variations in the long-range periodicity calf satellite DNA I

Pagès¹,

Roizes²

1984

Journal of Molecular Biology

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Gérard Roizes

Recognition sequence of restriction endonuclease III from Hemophilus influenzae

Global analysis of DNA methylation and transcription of human repetitive sequences.

A possible structure for calf satellite DNA I

The organisation of the long range periodicity calf satellite DNA I variants as revealed by restriction enzyme analysis

Nature and organization of the sequence variations in the long-range periodicity calf satellite DNA I

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