Xue-Lan Hu scite author profile

Telomeres are the ends of linear eukaryotic chromosomes. To ensure that no large stretches of uncharacterized DNA remain between the ends of the human working draft sequence and the ends of each chromosome, we would need to connect the sequences of the telomeres to the working draft sequence. But telomeres have an unusual DNA sequence composition and organization that makes them particularly difficult to isolate and analyse. Here we use specialized linear yeast artificial chromosome clones, each carrying a large telomere-terminal fragment of human DNA, to integrate most human telomeres with the working draft sequence. Subtelomeric sequence structure appears to vary widely, mainly as a result of large differences in subtelomeric repeat sequence abundance and organization at individual telomeres. Many subtelomeric regions appear to be gene-rich, matching both known and unknown expressed genes. This indicates that human subtelomeric regions are not simply buffers of nonfunctional 'junk DNA' next to the molecular telomere, but are instead functional parts of the expressed genome.

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Sequence organization of the human chromosome 2q telomere

Macina

Negorev

Spais

et al. 1994

Hum Mol Genet

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The terminal 240 kb of a human 2q telomere region was cloned in two overlapping yeast artificial-chromosomes (YACs). This DNA contains a region of low-copy subtelomeric repeats (within 50 kb of the 2q telomere), a segment of DNA duplicated on distal 8p23 (100 kb from the 2q telomere), and a region of single-copy DNA (230 kb from the 2q telomere). Two CpG islands are present in the DNA segment duplicated on distal 8p23. RecA-assisted restriction endonuclease cleavage of genomic DNA samples revealed a potential 55 kb chromosome length polymorphism at the 2q telomere. This work provides telomeric closure of maps for human chromosome 2q, demonstrates a novel, subtelomere-specific DNA duplication, and will permit detailed molecular and cytological studies of this human telomere region.

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Molecular cloning and RARE cleavage mapping of human 2p, 6q, 8q, 12q, and 18q telomeres.

Macina¹,

Morii²,

Hu³

et al. 1995

Genome Res.

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Large terminal fragments of human chromosomes 2p, 6q, 8q, 12q, and 18q were cloned using yeast artificial chromosomes (YACs). RecA-assisted restriction endonuclease {RARE] cleavage analysis of genomic DNA samples from II unrelated individuals using YAC-derived probes confirmed the telomeric localizations of the half-YACs studied. The cloned fragments provide telomeric closure of maps for the respective chromosome arms and will supply the reagents needed for analyzing and sequencing these distal subtelomeric regions.

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Structure of the terminal 300 kb of DNA from human chromosome 21q

Reston

Macina

et al. 1995

Genomics

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Physical Analysis of the Terminal 270 kb of DNA from Human Chromosome 1q

et al. 1994

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Xue-Lan Hu

Integration of telomere sequences with the draft human genome sequence

Sequence organization of the human chromosome 2q telomere

Molecular cloning and RARE cleavage mapping of human 2p, 6q, 8q, 12q, and 18q telomeres.

Structure of the terminal 300 kb of DNA from human chromosome 21q

Physical Analysis of the Terminal 270 kb of DNA from Human Chromosome 1q

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