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Literature DB >> 3163426

Irradiation-reduced human chromosome 21 hybrids.

S Graw¹, J Davidson, J Gusella, P Watkins, R Tanzi, R Neve, D Patterson.

Abstract

Rodent-human somatic cell hybrids have been constructed which contain fragments of human chromosome 21 as their only human material. This was done by irradiating rodent-human somatic cell hybrids containing a complete chromosome 21 to fragment the genome and then rescuing human GAR synthetase and various amounts of flanking chromosome 21 DNA by fusing with GAR synthetase-deficient hamster cells and selecting for growth in purine-free medium. Four irradiation-reduction hybrids were produced by this method and contain the distal, proximal, and central portions of the long arm of human chromosome 21, all centered about GAR synthetase. These irradiation-reduction hybrids were used as a panel to regionally map single-copy and individual copies of repetitive sequences. Using these hybrids along with another independently constructed hybrid, the GAR synthetase gene was mapped distal to SOD-1 and proximal to CP21G1(D21S60). Of special interest is the regional mapping of the gene for the amyloid beta-protein distal to pPW236B(D21S11) and proximal to SOD-1.

Entities: Chemical Gene Species

Mesh：

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Year: 1988 PMID： 3163426 DOI： 10.1007/bf01534584

Source DB: PubMed Journal: Somat Cell Mol Genet ISSN： 0740-7750

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Cited

11 in total

1. Enhancing radiation hybrid mapping through whole genome amplification.

Authors: Genesio M Karere; Leslie A Lyons; Lutz Froenicke
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Review 2. Comparative map for mice and humans.

Authors: J H Nadeau; M T Davisson; D P Doolittle; P Grant; A L Hillyard; M R Kosowsky; T H Roderick
Journal: Mamm Genome Date: 1992 Impact factor: 2.957

3. Construction of a map of chromosome 16 by using radiation hybrids.

Authors: I Ceccherini; G Romeo; S Lawrence; M H Breuning; P C Harris; H Himmelbauer; A M Frischauf; G R Sutherland; G G Germino; S T Reeders
Journal: Proc Natl Acad Sci U S A Date: 1992-01-01 Impact factor: 11.205

Review 4. Comparative map for mice and humans.

Authors: J H Nadeau; M T Davisson; D P Doolittle; P Grant; A L Hillyard; M Kosowsky; T H Roderick
Journal: Mamm Genome Date: 1991 Impact factor: 2.957

5. Variation in genomic Alu repeat density as a basis for rapid construction of low resolution physical maps of human chromosomes.

Authors: M J Lane; P G Waterbury; W T Carroll; A M Smardon; B D Faldasz; S M Peshick; S Mante; C S Huckaby; R E Kouri; D J Hanlon
Journal: Chromosoma Date: 1992-03 Impact factor: 4.316

6. Mapping of the gene encoding the beta-amyloid precursor protein and its relationship to the Down syndrome region of chromosome 21.

Authors: D Patterson; K Gardiner; F T Kao; R Tanzi; P Watkins; J F Gusella
Journal: Proc Natl Acad Sci U S A Date: 1988-11 Impact factor: 11.205

10. Physical mapping of the holoprosencephaly critical region in 21q22.3, exclusion of SIM2 as a candidate gene for holoprosencephaly, and mapping of SIM2 to a region of chromosome 21 important for Down syndrome.

Authors: M Muenke; L J Bone; H F Mitchell; I Hart; K Walton; K Hall-Johnson; E F Ippel; J Dietz-Band; K Kvaløy; C M Fan
Journal: Am J Hum Genet Date: 1995-11 Impact factor: 11.025