The physical maps for sequencing human chromosomes 1, 6, 9, 10, 13, 20 and X

D. R. Bentley; P. Deloukas; A. Dunham; L. French; S. G. Gregory; S. J. Humphray; A. J. Mungall; M. T. Ross; N. P. Carter; I. Dunham; C. E. Scott; K. J. Ashcroft; A. L. Atkinson; K. Aubin; D. M. Beare; G. Bethel; N. Brady; J. C. Brook; D. C. Burford; W. D. Burrill; C. Burrows; A. P. Butler; C. Carder; J. J. Catanese; C. M. Clee; S. M. Clegg; V. Cobley; A. J. Coffey; C. G. Cole; J. E. Collins; J. S. Conquer; R. A. Cooper; K. M. Culley; E. Dawson; F. L. Dearden; R. M. Durbin; P. J. de Jong; P. D. Dhami; M. E. Earthrowl; C. A. Edwards; R. S. Evans; C. J. Gillson; J. Ghori; L. Green; R. Gwilliam; K. S. Halls; S. Hammond; G. L. Harper; R. W. Heathcott; J. L. Holden; E. Holloway; B. L. Hopkins; P. J. Howard; G. R. Howell; E. J. Huckle; J. Hughes; P. J. Hunt; S. E. Hunt; M. Izmajlowicz; C. A. Jones; S. S. Joseph; G. Laird; C. F. Langford; M. H. Lehvaslaiho; M. A. Leversha; O. T. McCann; L. M. McDonald; J. McDowall; G. L. Maslen; D. Mistry; N. K. Moschonas; V. Neocleous; D. M. Pearson; K. J. Phillips; K. M. Porter; S. R. Prathalingam; Y. H. Ramsey; S. A. Ranby; C. M. Rice; J. Rogers; L. J. Rogers; T. Sarafidou; D. J. Scott; G. J. Sharp; C. J. Shaw-Smith; L. J. Smink; C. Soderlund; E. C. Sotheran; H. E. Steingruber; J. E. Sulston; A. Taylor; R. G. Taylor; A. A. Thorpe; E. Tinsley; G. L. Warry; A. Whittaker; P. Whittaker; S. H. Williams; T. E. Wilmer; R. Wooster; C. L. Wright

Journal ArticleOPEN ACCESS

The physical maps for sequencing human chromosomes 1, 6, 9, 10, 13, 20 and X

Nature (2001) 409(6822) 942-943

DOI: 10.1038/35057165

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Abstract

We constructed maps for eight chromosomes (1, 6, 9, 10, 13, 20, X and (previously) 22), representing one-third of the genome, by building landmark maps, isolating bacterial clones and assembling contigs. By this approach, we could establish the long-range organization of the maps early in the project, and all contig extension, gap closure and problem-solving was simplified by containment within local regions. The maps currently represent more than 94% of the euchromatic (gene-containing) regions of these chromosomes in 176 contigs, and contain 96% of the chromosome-specific markers in the human gene map. By measuring the remaining gaps, we can assess chromosome length and coverage in sequenced clones.

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Bentley, D. R., Deloukas, P., Dunham, A., French, L., Gregory, S. G., Humphray, S. J., … Wright, C. L. (2001). The physical maps for sequencing human chromosomes 1, 6, 9, 10, 13, 20 and X. Nature, 409(6822), 942–943. https://doi.org/10.1038/35057165

The physical maps for sequencing human chromosomes 1, 6, 9, 10, 13, 20 and X

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