The DNA sequence of the human X chromosome

Ross, Mt; Grafham, Dv; Coffey, Aj; Scherer, S; Mclay, K; Muzny, D; Platzer, M; Howell, Gr; Burrows, C; Bird, Cp; Frankish, A; Lovell, Fl; Howe, Kl; Ashurst, Jl; Fulton, Rs; Sudbrak, R; Wen, G; Jones, Mc; Hurles, Me; Andrews, Td; Scott, Ce; Searle, S; Ramser, J; Whittaker, A; Deadman, R; Carter, Np; Hunt, Se; Chen, R; Cree, A; Gunaratne, P; Havlak, P; Hodgson, A; Metzker, Ml; Richards, S; Scott, G; Steffen, D; Sodergren, E; Wheeler, Da; Worley, Kc; Ainscough, R; Ambrose, Kd; Ansarilari, Ma; Aradhya, S; Ris, Ashwell; Babbage, Ak; Bagguley, Cl; Ballabio, A; Banerjee, R; Barker, Ge; Barlow, Kf; Barrett, Ip; Bates, Kn; Beare, Dm; Beasley, H; Beasley, O; Beck, A; Bethel, G; Blechschmidt, K; Brady, N; Brayallen, S; Bridgeman, Am; Brown, Aj; Brown, Mj; Bonnin, D; Bruford, Ea; Buhay, C; Burch, P; Burford, D; Burgess, J; Burrill, W; Burton, J; Bye, Jm; Carder, C; Carrel, L; Chako, J; Chapman, Jc; Chavez, D; Chen, E; Chen, G; Chen, Y; Chen, Z; Chinault, C; Ciccodicola, A; Clark, Sy; Clarke, G; Clee, Cm; Clegg, S; Clercblankenburg, K; Clifford, K; Cobley, V; Cole, Cg; Conquer, Js; Corbyn,; Connor, Re; David, R; Davies, J; Davis, C; Davis, J; Delgado, O; Deshazo, D; Dhami, P; Ding, Y; Dinh, H; Dodsworth, S; Draper, H; Duganrocha, S; Dunham, A; Dunn, M; Durbin, Kj; Dutta, I; Eades, T; Ellwood, M; Emerycohen, A; Errington, H; Evans, Kl; Faulkner, L; Francis, F; Frankland, J; Fraser, Ae; Galgoczy, P; Gilbert, J; Gill, R; Glöckner, G; Gregory, Sg; Gribble, S; Griffiths, C; Grocock, R; Y, Gu; Gwilliam, R; Hamilton, C; Hart, Ea; Hawes, A; Heath, Pd; Heitmann, K; Hennig, S; Hernandez, J; Hinzmann, B; S, Ho; Hoffs, M; Howden, Pj; Huckle, Ej; Hume, J; Hunt, Pj; Hunt, Ar; Isherwood, J; Jacob, L; Johnson, D; Jones, S; De Jong Pj,; Joseph, Ss; Keenan, S; Kelly, S; Kershaw, Jk; Khan, Z; Kioschis, P; Klages, S; Knights, Aj; Kosiura, A; Kovarsmith, C; Laird, Gk; Langford, C; Lawlor, S; Leversha, M; Lewis, L; Liu, W; Lloyd, C; Lloyd, Dm; Loulseged, H; Loveland, Je; Lovell, Jd; Lozado, R; J, Lu; Lyne, R; J, Ma; Maheshwari, M; Matthews, Lh; Mcdowall, J; Mclaren, S; Mcmurray, A; Meidl, Vp; Meitinger, T; Milne, S; Miner, G; Mistry, Sl; Morgan, M; Morris, S; Müller, I; Mullikin, Jc; Nguyen, N; Nordsiek, G; Nyakatura, G; O'Dell, Cn; Okwuonu, G; Palmer, S; Pandian, R; Parker, D; Parrish, J; Pasternak, S; Patel, D; Pearce, Av; Pearson, Dm; Pelan, Se; Perez, L; Porter, Km; Ramsey, Y; Reichwald, K; Rhodes, S; Ridler, Ka; Schlessinger, D; Schueler, Mg; Sehra, Hk; Shawsmith, C; Shen, H; Sheridan, Em; Shownkeen, R; Skuce, Cd; Smith, Ml; Sotheran, Ec; Steingruber, He; Steward, Ca; Storey, R; Swann, Rm; Swarbreck, D; Tabor, Pe; Taudien, S; Taylor, T; Teague, B; Thomas, K; Thorpe, A; Timms, K; Tracey, A; Trevanion, S; Tromans, Ac; D'Urso, M; Verduzco, D; Villasana, D; Waldron, L; Wall, M; Wang, Q; Warren, J; Warry, Gl; Wei, X; West, A; Whitehead, Sl; Whiteley, Mn; Wilkinson, Je; Willey, Dl; Williams, G; Williams, L; Williamson, A; Williamson, H; Wilming, L; Woodmansey, Rl; Wray, Pw; Yen, J; Zhang, J; Zhou, J; Zoghbi, H; Zorilla, S; Buck, D; Reinhardt, R; Poustka, A; Rosenthal, A; Lehrach, H; Meindl, A; Minx, Pj; Hillier, Lw; Willard, Hf; Wilson, Rk; Waterston, Rh; Rice, Cm; Vaudin, M; Coulson, A; Nelson, Dl; Weinstock, G; Sulston, Je; Durbin, R; Hubbard, T; Gibbs, Ra; Beck, S; Rogers, J; Bentley, Dr

doi:10.1038/nature03440

The human X chromosome has a unique biology that was shaped by its evolution as the sex chromosome shared by males and females. We have determined 99.3% of the euchromatic sequence of the X chromosome. Our analysis illustrates the autosomal origin of the mammalian sex chromosomes, the stepwise process that led to the progressive loss of recombination between X and Y, and the extent of subsequent degradation of the Y chromosome. LINE1 repeat elements cover one-third of the X chromosome, with a distribution that is consistent with their proposed role as way stations in the process of X-chromosome inactivation. We found 1,098 genes in the sequence, of which 99 encode proteins expressed in testis and in various tumour types. A disproportionately high number of mendelian diseases are documented for the X chromosome. Of this number, 168 have been explained by mutations in 113 X-linked genes, which in many cases were characterized with the aid of the DNA sequence.