T. C. Hsü scite author profile

The intrachromosomal distribution of non-telomeric sites of the (TTAGGG)n telomeric repeat was determined for 100 vertebrate species. The most common non-telomeric location of this sequence was in the pericentric regions of chromosomes. A variety of species showed relatively large amounts of this sequence present within regions of constitutive heterochromatin. We discuss possible relationships between the non-telomeric distribution of the (TTAGGG)n sequence and the process of karyotype evolution, during which these sites may provide potential new telomeres.

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Localization of heterochromatin in human chromosomes

Arrighi

Hsü

1971

Cytogenet Genome Res

909

217

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Heterochromatic regions in chromosomes of man, mainly at the centromeric areas, can be demonstrated with consistency using a special staining procedure. This procedure includes treatments of cytological preparations with HCl, RNase, NaOH (denaturing DNA), and renaturing DNA in a saline citrate solution at 65°C. The heterochromatic regions can be observed after staining with Giemsa. These regions are believed to be composed of constitutive heterochromatin. Facultative heterochromatin regions, e.g., the repressed X in female cells, do not respond to this series of treatments.

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Deletion of thymidine kinase activity from L cells resistant to bromodeoxyuridine

Kit

Dubbs

Piekarski

et al. 1963

Experimental Cell Research

601

166

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Distribution of 18+28S ribosomal genes in mammalian genomes

1975

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In situ hybridization with 3H 18S and 28S ribosomal RNA from Xenopus laevis has been used to study the distribution of DNA sequences coding for these RNAs (the nucleolus organizing regions) in the genomes of six mammals. Several patterns of distribution have been found: 1) A single major site (rat kangaroo, Seba's fruit bat), 2) Two major sites (Indian muntjac), 3) Multiple sites in centromeric heterochromatin (field vole), 4) Multiple sites in heterochromatic short arms (Peromyscus eremicus), 5) Multiple sites in telomeric regions (Chinese hamster). - The chromosomal sites which bind 3H 18S and 28S ribosomal RNA correspond closely to the sites of secondary constrictions where these are known. However, the correlation is not absolute. Some secondary constrictions do not appear to bind 3H ribosomal RNA. Some regions which bind ribosomal RNA do not appear as secondary constrictions in metaphase chromosomes. - Although the nucleolus organizing regions of most mammalian karyotypes are found on the autosomes, the X chromosomes in Carollia perspicillata and C. castanea carry large clusters of sequences complementary to ribosomal RNA. In situ hybridization shows that the Y chromosome in C. castanea also has a large nucleolus organizing region.

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T. C. Hsü

Distribution of non-telomeric sites of the (TTAGGG)n telomeric sequence in vertebrate chromosomes

Localization of heterochromatin in human chromosomes

Deletion of thymidine kinase activity from L cells resistant to bromodeoxyuridine

Distribution of 18+28S ribosomal genes in mammalian genomes

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