Biochimica et Biophysica Acta (BBA) - Nucleic Acids and Protein Synthesis
Renaturation properties and localization in heterochromatin of human satellite DNA's
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Cited by (70)
A classical revival: Human satellite DNAs enter the genomics era
2022, Seminars in Cell and Developmental BiologyCitation Excerpt :However, in 1961 Saul Kit discovered that mouse and guinea pig DNA formed a second, smaller, “satellite” DNA band outside the major DNA band [18] (footnote 1), and a similar, AT-rich satellite DNA band was later discovered in humans [9]. Further methodological advances achieved finer resolution of DNA fractions by base composition, revealing the presence of additional satellite DNA bands in humans, which were labeled as human satellite fractions I-III [9,10,20] (Fig. 1; footnote 2). Careful renaturation experiments revealed that DNA isolated from the satellite fraction re-annealed much more quickly after denaturation compared to DNA isolated from the main genomic fraction, consistent with the satellite fraction being composed primarily of repetitive DNA sequences [10,20–23].
Linkage in human heterochromatin between highly divergent Sau3A repeats and a new family of repeated DNA sequences (HaeIII family)
1989, Journal of Molecular BiologyChromosome Structure: Euchromatin and Heterochromatin
1987, International Review of CytologySequence relationships of three human satellite DNAs
1986, Journal of Molecular BiologyCloning of a repeat sequence from human DNA which contains a BamHI site
1985, BBA - Gene Structure and Expression