From Long Range Mapping to Sequence-Ready Contigs on Human Chromosome 6

From Long Range Mapping to Sequence-Ready Contigs on Human Chromosome 6

Our aim is to construct physical clone maps covering those regions of chromosome 6 that are not currently extensively mapped, and use these to determine the DNA sequence of the whole chromosome. The strategy we are following involves establishing a high density framework map of the order of 15 marke...

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Veröffentlicht in:DNA sequence 1997, Vol.8 (3), p.151-154
Hauptverfasser: Mungall, A. J., Humphray, S. J., Ranby, S. A., Edwards, C. A., Heathcott, R. W., Clee, C. M., Holloway, E., Peck, A. I., Harrison, P., Green, L. D., Butler, A. P., Langford, C. F., Gwilliam, R., Huckle, E. J., Baron, L., Smith, A., Leversha, M. A., Ramsey, Y. H., Clegg, S. M., Rice, C. M., Maslen, G. L., Hunt, S. E., Scott, C. E., Soderlund, C. A., Theaker, A. J., Carter, N. P., Ross, M. T., Deloukas, P., Bentley, D. R., Dunham, I.
Format: Artikel
Sprache:eng
Schlagworte:
Chromosome 6
Chromosomes, Human, Pair 6 - genetics
Contig Mapping
Databases, Factual
fingerprinting
Humans
radiation hybrid
Sequence Analysis, DNA
sequence tagged site
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Beschreibung
Zusammenfassung:Our aim is to construct physical clone maps covering those regions of chromosome 6 that are not currently extensively mapped, and use these to determine the DNA sequence of the whole chromosome. The strategy we are following involves establishing a high density framework map of the order of 15 markers per Megabase using radiation hybrid (RH) mapping. The markers are then used to identify large-insert genomic bacterial clones covering the chromosome, which are assembled into sequence-ready contigs by restriction enzyme fingerprinting and sequence tagged site (STS) content analysis. Contig gap closure is performed by walking experiments using STSs developed from the end sequences of the clone inserts.
ISSN:1042-5179
1029-2365
DOI:10.3109/10425179709034066