Human Genome

An integrated map of structural variation in 2,504 human genomes.

Sudmant, PH, Rausch, T, Gardner, EJ, Handsaker, RE, Abyzov, A, Huddleston, J, Zhang, Y, Ye, K, Jun, G, Fritz, MHsi-Yang, Konkel, MK, Malhotra, A, Stütz, AM, Shi, X, Casale, FPaolo, Chen, J, Hormozdiari, F, Dayama, G, Chen, K, Malig, M, Chaisson, MJP, Walter, K, Meiers, S, Kashin, S, Garrison, E, Auton, A, Lam, HYK, Mu, XJasmine, Alkan, C, Antaki, D, et al. An integrated map of structural variation in 2,504 human genomes. Nature. 2015;526(7571):75-81.

Resolving the complexity of the human genome using single-molecule sequencing.

Chaisson, MJP, Huddleston, J, Dennis, MY, Sudmant, PH, Malig, M, Hormozdiari, F, Antonacci, F, Surti, U, Sandstrom, R, Boitano, M, Landolin, JM, Stamatoyannopoulos, JA, Hunkapiller, MW, Korlach, J, Eichler, EE. Resolving the complexity of the human genome using single-molecule sequencing. Nature. 2015;517(7536):608-11.

Genome flux and stasis in a five millennium transect of European prehistory.

Gamba, C, Jones, ER, Teasdale, MD, McLaughlin, RL, Gonzalez-Fortes, G, Mattiangeli, V, Domboróczki, L, Kővári, I, Pap, I, Anders, A, Whittle, A, Dani, J, Raczky, P, Higham, TFG, Hofreiter, M, Bradley, DG, Pinhasi, R. Genome flux and stasis in a five millennium transect of European prehistory. Nat Commun. 2014;5:5257.
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