El ADN antiguo una herramienta para descifrar la historia

  1. Saiz Guinaldo, María
  2. Álvarez Cubero, María Jesús
  3. Martínez González, Luis Javier
  4. Álvarez, J. C.
  5. Lorente Acosta, José Antonio
Revista:
Cuadernos de Prehistoria y Arqueología de la Universidad de Granada

ISSN: 2659-9295 2174-8063

Año de publicación: 2012

Título del ejemplar: Métodos analíticos de la antropología física aplicados al estudio de las poblaciones antiguas

Número: 22

Páginas: 11-47

Tipo: Artículo

DIALNET GOOGLE SCHOLAR lock_openAcceso abierto editor

Otras publicaciones en: Cuadernos de Prehistoria y Arqueología de la Universidad de Granada

Referencias bibliográficas

  • ACHILLI, A., RENGO, C., BATTAGLIA, V., PALA, M., OLIVIERI, A., FORNARINO, S., MAGRI, C., SCOZZARI, R., BABUDRI, N., SANTACHIARABENERECETTI, A., BANDELT, H. J., SEMINO, O. y TORRONI, A. (2005): “Saami and Berbers an unexpected mitochondrial DNA link”, Am. J. Hum. Genet. 76, pp. 883-886.
  • ADAMS, S. M., BOSCH, E., BALARESQUE, P. L., BALLEREAU, S. J., LEE, A. C., ARROYO, E., LÓPEZ-PARRA, A. M., ALER, M., GISBERTGRIFO, M. S., BRION, M., CARRACEDO, A., LAVINHA, J., MARTÍNEZ-JARRETA, B., QUINTANA-MURCI, L., PICORNELL, A., RAMON, M., SKORECKI, K., BEHAR, D. M., CALAFELL, F. y JOBLING, M. A. (2008): “The Genetic Legacy of Religious Diversity and Intolerance: Paternal Lineages of Christians, Jews, and Muslims in the Iberian Peninsula”, Hum. Biol. 83, pp. 725-736.
  • ALBERTS, B., BRAY, D., LEWIS, J., RAFF, M., ROBERTS, K. y WATSON, J. D. (2007): Molecular Biology of the Cell, OMEGA, Barcelona.
  • ÁLVAREZ-CUBERO, M. J., MTNEZ.-GONZALEZ, L. J., SAIZ, M., ÁLVAREZ, J. C. y LORENTE, J. A. (2010): “New applications in genetic identification”, Cuadernos de Medicina Forense 16, pp. 5-18.
  • ANDERSON, S., BANKIER, A. T. y BARRELL, B. G. (1981): “Sequence and organization of the human mitochondrial genome”, Nature 290, pp. 457-465.
  • BANDELT, H. y CHEPOI, V. (2000): “Decomposition and l1-Embedding of Weakly Median Graphs”, European Journal of Combinatorics 21, pp. 701-714.
  • BANDELT, H., FORSTER, P., SYKES, B. C. y RICHARDS, M. B. (1995): “Mitochondrial portraits of human populations using median networks”, Genetics 141, pp. 743-753.
  • BANDELT, H., HENKMANN, A. y NICOLAI, F. (1995): “Powers of distance-hereditary graphs”, Discrete Mathematics 145, pp. 37-60.
  • BANDELT, H., MACAULAY, V. y RICHARDS, M. (2000): “Median networks: Speedy construction and greedy reduction, one simulation, and two case studies from human mtDNA”, Mol. Phylogenet. Evol. 16, pp. 8-28.
  • BENDER, K., FARFAN, M. J. y SCHNEIDER, P. M. (2004): “Preparation of degraded human DNA under controlled conditions”, Forensic Sci. Int. 139, pp. 135-140.
  • BERTRANPETIT, J. y CAVALLI-SFORZA, L.L. (1991): “A genetic reconstruction of the history of the population of the Iberian Peninsula”, Ann. Hum. Genet. 55, pp. 51-67.
  • BOLLONGINO, R., TRESSET, A. y VIGNE, J. D. (2008): “Environment and excavation: Pre-lab impacts on ancient DNA analyses”, Comptes Rendus Palevol 7, pp. 91-98.
  • BOSCH, E., CALAFELL, F., COMAS, D., OEFNER, P. J., UNDERHILL, P. A. y BERTRANPETIT, J. (2001): “High-resolution analysis of human Y-chromosome variation shows a sharp discontinuity and limited gene flow between northwestern Africa and the Iberian Peninsula”, Am. J. Hum. Genet. 68, pp. 1019-1029.
  • BOUWMAN, A. y RÜHLI, F. (2013): “Advances in ancient DNA research can help radiological interpretations of archaeological diseases”, Skeletal Radiol. 42, pp. 751-752.
  • BRIGGS, A. W., GOOD, J. M., GREEN, R.E., KRAUSE, J., MARICIC, T., STENZEL, U., LALUEZA-FOX, C., RUDAN, P., BRAJKOVIĆ, D. y KUĆAN, Ž. (2009): “Targeted retrieval and analysis of fi ve Neandertal mtDNA genomes”, Science 325, pp. 318-321.
  • BRINKMANN, B. (1996): “Population genetic comparisons among eight populations using allele frequency and sequence data from three microsatellite loci”, European Journal of Human Genetics 4, pp. 175-182.
  • BRION, M., SALAS, A., GONZÁLEZ-NEIRA, A., LAREU, M. V. y CARRACEDO, A. (2003): “Insights into Iberian population origins through the construction of highly informative Y-chromosome haplotypes using biallelic markers, STRs, and the MSY1 minisatellite”, Am. J. Phys. Anthropol. 122, pp. 147-161.
  • BROWN, W. M., GEORGE JR., M. y WILSON, A. C. (1979): “Rapid evolution of animal mitochondrial DNA”, Proc. Natl. Acad. Sci. U.S.A. 76, pp. 1967-1971.
  • BYRD, B. F., CORNELLAS, A., EERKENS, J. W., ROSENTHAL, J. S., CARPENTER, T. R., LEVENTHAL, A. y LEONARD, J. A. (2013): “The role of canids in ritual and domestic contexts: new ancient DNA insights from complex huntergatherer sites in prehistoric Central California”, J. Archaeol. Sci. 40, pp. 2176-2189.
  • CANN, R. L., STONEKING, M. y WILSON, A. C. (1987): “Mitochondrial DNA and human evolution”, Nature 325, pp. 31-36.
  • CANN, R. L.y WILSON, A. C. (1983): “Length mutations in human mitochondrial DNA”, Genetics 104, pp. 699-711.
  • CARAMELLI, D., LALUEZA-FOX, C., VERNESI, C., LARI, M., CASOLI, A., MALLEGNI, F., CHIARELLI, B., DUPANLOUP, I., BERTRANPETIT, J., BARBUJANI, G. y BERTORELLE, G. (2003): “Evidence for a genetic discontinuity between neandertals and 24,000-year-old anatomically modern europeans”, Proc. Natl. Acad. Sci. U.S.A. 100, pp. 6593-6597.
  • CARAMELLI, D., VERNESI, C., SANNA, S., SAMPIETRO, L., LARI, M., CASTRÌ, L., VONA, G., FLORIS, R., FRANCALACCI, P., TYKOT, R., CASOLI, A., BERTRANPETIT, J., LALUEZAFOX, C., BERTORELLE, G. y BARBUJANI, G. (2007): “Genetic variation in prehistoric Sardinia”, Hum. Genet. 122, pp. 327-336.
  • CARMONA, C. M., DOMEZAIN, A. y GARCÍAGALLEGO, M. (2009): Biology, conservation and sustainable development of sturgeons, SpringerVerlag Gmbh, Spain.
  • CAVALLI-SFORZA, L. L. y FELDMAN, M. W. (2003): “The application of molecular genetic approaches to the study of human diversity”, Nat. Genet. 33, pp. 267.
  • CAVALLI-SFORZA, L. L., MENOZZI, P. y PIAZZA, A. (2007): The History and Geography of Human Genes, Princeton, NJ.
  • CAVALLI-SFORZA, L. L., MINCH, E., RICHARDS, M., MACAULAY, V., SYKES, B., PETTITT, P., HEDGES, R., FORSTER, P. y BANDELT, H. J. (1997): “Paleolithic and neolithic lineages in the European mitochondrial gene pool [8] (multiple letters)”, Am. J. Hum. Genet. 61, pp. 247-254.
  • CIMINELLI, B. M., POMPEI, F., MALASPINA, P., HAMMER, M., PERSICHETTI, F., PIGNATTI, P. F., PALENA, A., ANAGNOU, N., GUANTI, G., JODICE, C., TERRENATO, L. y NOVELLETTO, A. (1995): “Recurrent simple tandem repeat mutations during human Y-chromosome radiation in Caucasian subpopulations”, J. Mol. Evol. 41, pp. 966-973.
  • CLAYTON, D. A. (1992): “Structure and function of the mitochondrial genome”, J. Inherit. Metab. Dis. 15, pp. 439-447.
  • COLLINS, M., NIELSEN-MARSH, C., HILLER, J., SMITH, C., ROBERTS, J., PRIGODICH, R., WESS, T., CSAPO, J., MILLARD, A. y TURNERWALKER, G. (2002): “The survival of organic matter in bone: a review”, Archaeometry 44, pp. 383-394.
  • CÔRTE-REAL, H. B. S. M., MACAULAY, V. A., RICHARDS, M. B., HARITI, G., ISSAD, M. S., CAMBON-THOMSEN, A., PAPIHA, S., BERTRANPETIT, J. y SYKES, B. C. (1996): “Genetic diversity in the Iberian Peninsula determined from mitochondrial sequence analysis”, Ann. Hum. Genet. 60, pp. 331-350.
  • CZARNY, J., GRZYBOWSKI, T., DERENKO, M. V., MALYARCHUK, B.A. y S ́LIWKA, D. M. (2005): “Genetic variation of 15 STR loci (D3S1358, vWA, FGA, TH01, TPOX, CSF1PO, D5S818, D13S317, D7S820, D16S539, D2S1338, D8S1179, D21S11, D18S51, and D19S433) in populations of north and central Poland”, Forensic Sci.Int. 147, pp. 97-100.
  • DEGUILLOUX, M. F., PEMONGE, M. H., MENDISCO, F., THIBON, D., CARTRON, I. y CASTEX, D. (2014): “Ancient DNA and kinship analysis of human remains deposited in Merovingian necropolis sarcophagi (Jau Dignac et Loirac, France, 7th–8th century AD)”, Journal of Archaeological Science 41, pp. 399-405.
  • DIETRICH, M. R. (1998): “Paradox and persuasion: negotiating the place of molecular evolution within evolutionary biology”, Journal of the History of Biology 31, pp. 85-111.
  • DRISCOLL, C. A., YAMAGUCHI, N., BAR-GAL, G. K., ROCA, A. L., LUO, S., MACDONALD, D. W. y O’BRIEN, S. J. (2009): “Mitochondrial phylogeography illuminates the origin of the extinct caspian tiger and its relationship to the amur tiger”, Plos One 4, pp. e4125.
  • ECONOMOU, C., KJELLSTRÖM, A., LIDÉN, K. y PANAGOPOULOS, I. (2013): “Ancient-DNA reveals an Asian type of Mycobacterium leprae in medieval Scandinavia”, Journal of Archaeological Science 40, pp. 465-470.
  • ECONOMOU, E. P., BERGEN, A. W., WARREN, A. C. y ANTONARAKIS, S. E. (1990): “The polydeoxyadenylate tract of Alu repetitive elements is polymorphic in the human genome”, Proc. Natl. Acad. Sci. U.S.A. 87, pp. 2951-2954.
  • ERMINI, L., OLIVIERI, C., RIZZI, E., CORTI, G., BONNAL, R., SOARES, P., LUCIANI, S., MAROTA, I., DE BELLIS, G. y RICHARDS, M. B. (2008): “Complete mitochondrial genome sequence of the Tyrolean Iceman”, Current Biology 18, pp. 1687-1693.
  • FERNÁNDEZ-SANTANDER, A., KANDIL, M., LUNA, F., ESTEBAN, E., GIMENEZ, F., ZAOUI, D. y MORAL, P. (1999): “Genetic relationships between southeastern Spain and Morocco: New data on ABO, RH, MNSs, and DUFFY polymorphisms”, Am. J. Hum. Biol. 11, pp. 745-752.
  • FINNILÄ , S., HASSINEN, I. E. y MAJAMAA, K. (2001): “Phylogenetic analysis of mitochondrial DNA in patients with an occipital stroke: Evaluation of mutations by using sequence data on the entire coding region”, Mutation Research Mutation Research Genomics 458, pp. 31-39.
  • GARCÍA, J. (2010): Evolución molecular de humanas antiguas de América y de la Península Ibérica, Tesis Doctoral, Barcelona.
  • GILBERT, M. T. P., KIVISILD, T., GRØNNOW, B., ANDERSEN, P. K., METSPALU, E., REIDLA, M., TAMM, E., AXELSSON, E., GÖTHERSTRÖM, A. y CAMPOS, P. F. (2008): “Paleo-Eskimo mtDNA genome reveals matrilineal discontinuity in Greenland”, Science 320, pp. 1787-1789.
  • GILBERT, M. T. P., HANSEN, A. J., WILLERSLEV, E., RUDBECK, L., BARNES, I., LYNNERUP, N. y COOPER, A. (2003): “Characterization of genetic miscoding lesions caused by postmortem damage”, Am. J. Hum. Genet. 72, pp. 48-61.
  • GILBERT, M. T. P., WILLERSLEV, E., HANSEN, A. J., BARNES, I., RUDBECK, L., LYNNERUP, N. y COOPER, A. (2003): “Distribution patterns of postmortem damage in human mitochondrial DNA”, Am. J. Hum. Genet. 72, pp. 32-47.
  • GILES, R. E., BLANC, H., CANN, R. M. y WALLACE, D. C. (1980): “Maternal inheritance of human mitochondrial DNA”, Natl. Acad. Sci. USA 83, pp. 9611-9615.
  • GILL, P., IVANOV, P. L., KIMPTON, C., PIERCY, R., BENSON, N., TULLY, G., EVETT, I., HAGELBERG, E. y SULLIVAN, K. (1994): “Identification of the remains of the Romanov family by DNA analysis”, Nat. Genet. 6, pp. 130-135.
  • GILL, P., WERRETT, D. J., BUDOWLE, B. y GUERRIERI, R. (2004): “An assessment of whether SNPs will replace STRs in national DNA databases Joint considerations of the DNA working group of the European Network of Forensic Science Institutes (ENFSI) and the Scientific Working Group on DNA Analysis Methods (SWGDAM)”, Science and Justice Journal of the Forensic Science Society 44, pp. 51-53.
  • GIRISH, K., RAHMAN, F. S. y TIPPU, S. R. (2010): “Dental DNA fingerprinting in identif ication of human remains”, Journal of forensic dental sciences 2, p. 63.
  • GOODMAN, M., TASHIAN, R.E. y TASHIAN, J. H. (1976): “Progress in Molecular Anthropology”, Curr. Anthropol. 17, pp. 491-494.
  • GREEN, R. E., KRAUSE, J., BRIGGS, A. W., MARICIC, T., STENZEL, U., KIRCHER, M., PATTERSON, N., LI, H., ZHAI, W. y FRITZ, M. H. Y. (2010): “A draft sequence of the Neandertal genome”, Science 328, pp. 710-722.
  • GREEN, R. E., MALASPINAS, A. S., KRAUSE, J., BRIGGS, A. W., JOHNSON, P.L.F., UHLER, C., MEYER, M., GOOD, J. M., MARICIC, T. y STENZEL, U. (2008): “A complete Neandertal mitochondrial genome sequence determined by high-throughput sequencing”, Cell 134, pp. 416-426.
  • GREENWOOD, A. D., CASTRESANA, J., FELDMAIER-FUCHS, G. y PÄÄBO, S. (2001): “A molecular phylogeny of two extinct sloths”, Mol. Phylogenet. Evol. 18, pp. 94-103.
  • GRIER, C., FLANIGAN, K., WINTERS, M., JORDAN, L. G., LUKOWSKI, S. y KEMP, B. M. (2013): “Using ancient DNA identification and osteometric measures of archaeological Pacific salmon vertebrae for reconstructing salmon f isheries and site seasonality at Dionisio Point, British Columbia”, Journal of Archaeological Science 40, pp. 544-555.
  • GUIMARAES, S., GHIROTTO, S., BENAZZO, A., MILANI, L., LARI, M., PILLI, E., PECCHIOLI, E., MALLEGNI, F., LIPPI, B., BERTOLDI, F., GELICHI, S., CASOLI, A., BELLE, E. M. S., CARAMELLI, D. y BARBUJANI, G. (2009): “Genealogical discontinuities among Etruscan, medieval, and contemporary Tuscans”, Mol. Biol. Evol. 26, pp. 2157-2166.
  • HAGELBERG, E. y CLEGG, J. B. (1991): “Isolation and characterization of DNA from archaeological bone”, Proceedings of the Royal Society of London. Series B: Biological Sciences 244(1309), pp. 45-50.
  • HAGELBERG, E., QUEVEDO, S., TURBON, D. y CLEGG, J. B. (1994): “DNA from ancient Easter Islanders [5]”, Nature 369, pp. 25-26.
  • HAGEY, L. R., VIDAL, N., HOFMANN, A. F. y KRASOWSKI, M. D. (2010): “Evolutionary diversity of bile salts in reptiles and mammals, including analysis of ancient human and extinct giant ground sloth coprolites”, BMC Evol. Biol. 10, pp. 133.
  • HANDT, O., MEYER, S. y VON HAESELER, A. (1998): “Compilation of human mtDNA control region sequences”, Nucleic Acids Res. 26, pp. 126-129.
  • HÄNNI, C., LAUDET, V., SAKKA, M., BEGUE, A. y STEHELIN, D. (1990): “[Amplification of mitochondrial DNA fragments from ancient human teeth and bones]”, Comptes rendus de l’Academie des sciences.Serie III, Sciences de la vie 310, pp. 365.
  • HERRNSTADT, C., ELSON, J. L., FAHY, E., PRESTON, G., TURNBULL, D. M., ANDERSON, C., GHOSH, S. S., OLEFSKY, J. M., BEAL, M. F., DAVIS, R. E. y HOWELL, N. (2002): “Reduced-mediannetwork analysis of complete mitochondrial DNA coding-region sequences for the major African, Asian, and European haplogroups”, Am. J. Hum. Genet. 70, pp. 1152-1171.
  • HIGUCHI, R., BOWMAN, B. y FREIBERGER, M. (1984): “DNA sequences from the quagga, an extinct member of the horse family”, Nature 312, pp. 282-284.
  • HOWELL, N. y SMEJKAL, C. B. (2000): “Persistent heteroplasmy of a mutation in the human mtDNA control region: Hypermutation as an apparent consequence of simple-repeat expansion/contraction”, Am. J. Hum. Genet. 66, pp. 1589-1598.
  • IRIONDO, M., BARBERO, M. C. y MANZANO, C. (2003): “DNA polymorphisms detect ancient barriers to gene flow in basques”, Am. J. Phys. Anthropol. 122, pp. 73-84.
  • IVANOV, P. L. (1996): “Identification of the remains of the romanov family: contribution of molecular genetics”, Vestnik Rossijkoj Akademii Nauk 66, pp. 310-316.
  • IVANOV, P. L., WADHAMS, M. J., ROBY, R. K., HOLLAND, M. M., WEEDN, V. W. y PARSONS, T. J. (1996): “Mitochondrial DNA sequence heteroplasmy in the Grand Duke of Russia Georgij Romanov establishes the authenticity of the remains of Tsar Nicholas II”, Nat. Genet. 12, pp. 417-420.
  • IZAGIRRE, N. y DE LA RÚA, C. (1999): “An mtDNA analysis in ancient basque populations implications for haplogrop V as a marker for a major paleolithic expansion from southwestern Europe”, Am. J. Hum. Genet. 65, pp. 199-207.
  • JEHAES, E., DECORTE, R., PENEAU, A., PETRIE, J. H., BOIRY, P. A., GILISSEN, A., MOISAN, J. P., VAN DEN BERGHE, H., PASCAL, O. y CASSIMAN, J. J. (1998): “Mitochondrial DNA analysis on remains of a putative son of Louis XVI, King of France and Marie-Antoinette”, European Journal of Human Genetics 6, pp. 383-395.
  • JOBLING, M., HURLES, M. y TYLER-SMITH, C. (2003): Human Evolutionary Genetics: Origins, People and Disease, Garland Science/Taylor & Francis Group, New York.
  • JOBLING, M. A. (2001): “In the name of the father: Surnames and genetics”, Trends in Genetics 17, pp. 353-357.
  • JOBLING, M. A. y TYLER-SMITH, C. (2003): “The human Y chromosome: An evolutionary marker comes of age”, Nature Reviews Genetics 4, pp. 598-612.
  • JOBLING, M. A.y TYLER-SMITH, C. (1995): “Fathers and sons: The Y chromosome and human evolution”, Trends in Genetics 6, pp. 799-803.
  • KAYSER, M., BRAUER, S., WILLUWEIT, S., SCHÄDLICH, H., BATZER, M. A., ZAWACKI, J., PRINZ, M., ROEWER, L. y STONEKING, M. (2002): “Online Y-chromosomal short tandem repeat haplotype reference database (YHRD) for U.S. populations”, J. Forensic Sci. 47, pp. 513-519.
  • KIM, W., YOO, T.-., KIM, S.-., SHIN, D.-., TYLERSMITH, C., JIN, H.-., KWAK, K.-., KIM, E.-. y BAE, Y. (2007): “Lack of association between Y-chromosomal haplogroups and prostate cancer in the Korean population”, Plos One 2, pp. e172.
  • KING, T. E.y JOBLING, M. A. (2009): “What’s in a name? Y chromosomes, surnames and the genetic genealogy revolution”, Trends in Genetics 25, pp. 351-360.
  • KISTLER, L. y SHAPIRO, B. (2011): “Ancient DNA confirms a local origin of domesticated chenopod in eastern North America”, Journal of Archaeological Science 38, pp. 3549-3554.
  • KIVISILD, T., METSPALU, M., BANDELT, H. J., RICHARDS, M. y VILLEMS, R. (2006): “The world mtDNA phylogeny”, Human Mitochondrial DNA and the Evolution of Homo sapiens (Bandelt, H. J., Macaulay, V. y Richards, M., eds.), Springer-Verlag, Berlin, pp. 149-179
  • KNAPP, M., ROHLAND, N., WEINSTOCK, J., BARYSHNIKOV, G., SHER, A., NAGEL, D., RABEDER, G., PINHASI, R., SCHMIDT, H. A. y HOFREITER, M. (2009): “First DNA sequences from Asian cave bear fossils reveal deep divergences and complex phylogeographic patterns”, Mol. Ecol. 18, pp. 1225-1238.
  • KONG, Q.-., YAO, Y.-., SUN, C., BANDELT, H.-., ZHU, C.-. y ZHANG, Y.-. (2003): “Phylogeny of East Asian mitochondrial DNA lineages inferred from complete sequences”, Am. J. Hum. Genet. 73, pp. 671-676.
  • KRAJEWSKI, C., BUCKLEY, L. y WESTERMAN, M. (1997): “DNA phylogeny of the marsupial wolf resolved”, Proceedings of the Royal Society B: Biological Sciences 264, pp. 911-917.
  • KRAUSE, J., DEAR, P. H., POLLACK, J. L., SLATKIN, M., SPRIGGS, H., BARNES, I., LISTER, A. M., EBERSBERGER, I., PÄÄBO, S. y HOFREITER, M. (2005): “Multiplex amplification of the mammoth mitochondrial genome and the evolution of Elephantidae”, Nature 439, pp. 724-727.
  • KRAUSE, J., FU, Q., GOOD, J. M., VIOLA, B., SHUNKOV, M. V., DEREVIANKO, A. P. y PÄÄBO, S. (2010): “The complete mitochondrial DNA genome of an unknown hominin from southern Siberia”, Nature 464, pp. 894-897.
  • KRAUSZ, C., QUINTANA-MURCI, L. y FORTI, G. (2004): “Y chromosome polymorphisms in medicine”, Ann. Med. 36, pp. 573-583.
  • LARRUGA, J. M., DÍEZ, F., PINTO, F. M., FLORES, C. y GONZÁLEZ, A. M. (2001): “Mitochondrial DNA characterisation of European isolates: the Maragatos from Spain”, Eur. J. Hum. Genet. 9, pp. 708-716.
  • LEE, E. J., RENNEBERG, R., HARDER, M., KRAUSE-KYORA, B., RINNE, C., MÜLLER, J., NEBEL, A. y VON WURMB-SCHWARK, N. (2012): “Collective burials among agro-pastoral societies in later Neolithic Germany: perspectives from ancient DNA”, Journal of Archaeological Science, pp. 1-7.
  • LESSIG, R., WILLUWEIT, S., KRAWCZAK, M., WU, F.-., PU, C.-., KIM, W., HENKE, L., HENKE, J., MIRANDA, J., HIDDING, M., BENECKE, M., SCHMITT, C., MAGNO, M., CALACAL, G., DELFIN, F. C., DE UNGRIA, M. C. A., ELIAS, S., AUGUSTIN, C., TUN, Z., HONDA, K., KAYSER, M., GUSMAO, L., AMORIM, A., ALVES, C., HOU, Y., KEYSER, C., LUDES, B., KLINTSCHAR, M., IMMEL, U. D., REICHENPFADER, B., ZAHAROVA, B. y ROEWER, L. (2003): “Asian online Y-STR haplotype reference database”, Leg. Med. 5, pp. S160-S163.
  • LI, M., SCHÖNBERG, A., SCHAEFER, M., SCHROEDER, R., NASIDZE, I. y STONEKING, M. (2010): “Detecting heteroplasmy from high-throughput sequencing of complete human mitochondrial DNA genomes”, Am. J. Hum. Genet. 87, pp. 237-249.
  • LINDSTRÖM, S., ADAMI, H. O., ADOLFSSON, J. y WIKLUND, F. (2008): “Y chromosome haplotypes and prostate cancer in Sweden”, Clinical Cancer Research 14, pp. 6712-6716.
  • LITT, M. y LUTY, J. A. (1989): “A hypervariable microsatellite revealed by in vitro amplification of a dinucleotide repeat within the cardiac muscle actin gene”, Am. J. Hum. Genet. 44, pp. 397-401.
  • LUCOTTE, G. y LOIRAT, F. (1999): “Y-chromosome DNA haplotype 15 in Europe”, Hum. Biol. 71, pp. 431-437.
  • LUTZ, S., WEISSER, H.-., HEIZMANN, J. y POLLAK, S. (2000): “Mitochondrial heteroplasmy among maternally related individuals”, Int. J. Legal Med. 113, pp. 155-161.
  • MACA-MEYER, N., GONZÁ LEZ, A. M., LARRUGA, J. M., FLORES, C. y CABRERA, V. M. (2001): “Major genomic mitochondrial lineages delineate early human expansions”, BMC genetics [electronic resource] 2, p. 13.
  • MAJUMDER, P. P. (2008): “Genomic inferences on peopling of south Asia”, Current Opinion in Genetics and Development 18, pp. 280-284.
  • MOURANT, A. E., KOPEC, A. G. y DOMANIEWSKAZOBCZAK, K. (1976): The Distribution of the Human Blood Groups and Other Polymorphisms, Oxford Univ. Press, London.
  • MURUGANANDHAN, J. y SIVAKUMAR, G. (2011): “Practical aspects of DNA-based forensic studies in dentistry”, Journal of Forensic Dental Sciences 3, pp. 38.
  • OLIVEIRA, H. R., CIVÁŇ, P., MORALES, J., RODRÍGUEZ-RODRÍGUEZ, A., LISTER, D.L. y JONES, M. K. (2012): “Ancient DNA in archaeological wheat grains: preservation conditions and the study of pre-Hispanic agriculture on the island of Gran Canaria (Spain)”, Journal of Archaeological Science 39, pp. 828-835.
  • ORLANDO, L., CALVIGNAC, S., SCHNEBELEN, C., DOUADY, C. J., GODFREY, L. R. y HÄNNI, C. (2008): “DNA from extinct giant lemurs links archaeolemurids to extant indriids”, BMA Evol. Biol. 8, p. 121.
  • PÄÄBO, S. (1989): “Ancient DNA: Extraction, characterization, molecular cloning, and enzymatic amplification”, Proc. Natl. Acad. Sci. U.S.A. 86, pp. 1939-1943.
  • PÄÄBO, S. (1985): “Molecular cloning of ancient Egyptian mummy DNA”, Nature 314, pp. 644-645.
  • PÄÄBO, S. (1985): “Preservation of DNA in ancient Egyptian mummies”, Journal of Archaeological Science 12, pp. 411-417.
  • PÄÄBO, S., HIGUCHI, R. G. y WILSON, A. C. (1989): “Ancient DNA and the polymerase chain reaction. The emerging field of molecular archaeology”, J. Biol. Chem. 264, pp. 9709-9712.
  • PÄÄBO, S., IRWIN, D. M. y WILSON, A. C. (1990): “DNA damage promotes jumping between templates during enzymatic amplification”, J. Biol. Chem. 265, pp. 4718-4721.
  • PÄÄBO, S., POINAR, H., SERRE, D. y JAENICKEDESPR’ES, V. (2004): “Genetic analyses from ancient DNA”, Annu. Rev. Genet. 38, pp. 645-679.
  • PAKENDORF, B. y STONEKING, M. (2005): “Mitochondrial DNA and human evolution”, Annu. Rev. Genomics Hum. Genet. 2005:6, pp. 165-183.
  • PARSONS, T. J., MUNIEC, D. S., SULLIVAN, K., WOODYATT, N., ALLISTON-GREINER, R., WILSON, M. R., BRERY, D. L., HOLLAND, K. H., WEEDN, V. W., GILL, P. y HOLLAND, M. M. (1997): “A high observed substitutional rate in the human mitochondrial DNA control region”, Nat. Genet. 15, pp. 362-367.
  • PAXINOS, E. E., JAMES, H. F., OLSON, S. L., SORENSON, M. D., JACKSON, J. y FLEISCHER, R. C. (2002): “mtDNA from fossils reveals a radiation of Hawaiian geese recently derived from the Canada goose (Branta canadensis)”, Proc. Natl. Acad. Sci. U.S.A. 99, pp. 1399-1404.
  • PEREIRA, L., CUNHA, C., ALVES, C. y AMORIM, A. (2005): “African female heritage in Iberia: a reassessment of mtDNA lineage distribution in present times”, Hum. Biol. 77, pp. 213-229.
  • PÉREZ-LEZAUN, A., CALAFELL, F., SEIELSTAD, M., MATEU, E., COMAS, D., BOSCH, E. y BERTRANPETIT, J. (1997): “Population genetics of Y-chromosome short tandem repeats in humans”, J. Mol. Evol. 45, pp. 265-270.
  • PILLI, E., MODI, A., SERPICO, C., ACHILLI, A., LANCIONI, H., LIPPI, B., BERTOLDI, F., GELICHI, S., LARI, M. y CARAMELLI, D. (2013): “Monitoring DNA Contamination in Handled vs. Directly Excavated Ancient Human Skeletal Remains”, PLoS ONE 8.
  • POULAKAKIS, N., TSELIKAS, A., BITSAKIS, I., MYLONAS, M. y LYMBERAKIS, P. (2007): “Ancient DNA and the genetic signature of ancient Greek manuscripts”, Journal of Archaeological Science 34, pp. 675-680.
  • PRUVOST, M., SCHWARZ, R., CORREIA, V. B., CHAMPLOT, S., BRAGUIER, S., MOREL, N., FERNANDEZ-JALVO, Y., GRANGE, T. y GEIGL, E.M. (2007): “Freshly excavated fossil bones are best for amplification of ancient DNA”, Proceedings of the National Academy of Sciences 104, pp. 739.
  • RAMÍREZ, O., GIGLI, E., BOVER, P., ALCOVER, J. A., BERTRANPETIT, J., CASTRESANA, J. y LALUEZA-FOX, C. (2009): “Paleogenomics in a temperate environment: Shotgun sequencing from an extinct Mediterranean caprine”, PlosOne 4, pp. e5670.
  • REBBECK, T. R., AMBROSONE, C. B., BELL, D. A., CHANOCK, S. J., HAYES, R. B., KADLUBAR, F. F. y THOMAS, D. C. (2004): “SNPs, Haplotypes, and cancer: Applications in molecular epidemiology”, Cancer Epidemiology Biomarkers and Prevention 13, pp. 681-687.
  • REICH, D., GREEN, R. E., KIRCHER, M., KRAUSE, J., PATTERSON, N., DURAND, E. Y., VIOLA, B., BRIGGS, A. W., STENZEL, U. y JOHNSON, P. L. F. (2010): “Genetic history of an archaic hominin group from Denisova Cave in Siberia”, Nature 468, pp. 1053-1060.
  • REICH, D., [et al.] (2012): “Reconstructing Native American population history”, Nature 488, pp. 370-374.
  • RELETHFORD, J. H. (2008): “Genetic evidence and the modern human origins debate”, Heredity 100, pp. 555-563.
  • REYMENT, R. A. (1983): “Moors and Christians: an example of multivariate analysis applied to human blood-groups”, Ann. Hum. Biol. 10, pp. 505-521.
  • RICHARDS, M., MACAULAY, V., HICKEY, E., VEGA, E. y SYKES, B. (2000): “Tracing European founder lineages in the Near Eastern mtDNA pool”, Am. J. Hum. Genet. 62, pp. 241-260.
  • RICHARDS, M. B., MACAULAY, V. A., BANDELT, H. J. y SYKES, B. C. (1998): “Phylogeography of mitochondrial DNA in Western Europe”, Ann. Hum. Genet. 61, pp. 251-254.
  • RICHARDS, R. I.y SUTHERLAND, G. R. (1992): “Heritable unstable DNA sequences”, Nat. Genet. 1, pp. 7-9.
  • RICKARDS, O., MARTINEZ-LABARGA, C., CASALOTTI, R., CASTELLANA, G., TUNZI SISTO, A. y MALLEGNI, F. (2000): “MtDNA variability in extinct and extant populations of Sicily and Southern Italy”, Archaeogenetics: DNA and the population prehistory of Europe, pp. 175-183.
  • RIZZI, E., LARI, M., GIGLI, E., DE BELLIS, G. y CARAMELLI, D. (2012): “Ancient DNA studies: New perspectives on old samples”, Genet. Sel. Evol. 44, p. 21.
  • ROBLES, F., CANO-ROLDÁN, B., RUIZ REJÓN, C., MARTÍNEZ-GONZÁLEZ, L. J., ÁLVAREZCUBERO, M. J., LORENTE, J. A., RIQUELME CANTAL, J. A., AGUAYO DE HOYOS, P., CARRASCO RUS, J., CORTÉS SÁNCHEZ, M., SIMÓN VALLEJO, M. D., RUIZ REJÓN, M. y DE LA HERRÁN, R. (2010): “Determining the specific status of the Iberian sturgeons by means genetic analyses of old specimens”, Advances in Bioscience and Biotechnology 1, pp. 171-179.
  • RODRÍGUEZ-EZPELETA, N., ÁLVAREZ-BUSTO, J., IMAZ, L., REGUEIRO, M., AZCÁRATE, M. N., BILBAO, R., IRIONDO, M., GIL, A., ESTONBA, A. y ARANSAY, A. M. (2010): “High-density SNP genotyping detects homogeneity of Spanish and French Basques, and confirms their genomic distinctiveness from other European populations”, Hum. Genet. 128, pp. 113-117.
  • ROEWER, L. y CARRACEDO, A. (2001): “Second Forensic Y chromosome User Workshop, Institute of Legal Medicine (Humboldt-University) in Berlin, Germany 16-17 June, 2000: Foreword”, Forensic Sci. Int. 118, p. 105.
  • ROEWER, L., KRAWCZAK, M., WILLUWEIT, S., NAGY, M., ALVES, C., AMORIM, A., ANSLINGER, K., AUGUSTIN, C., BETZ, A., BOSCH, E., CAGLIÁ, A., CARRACEDO, A., CORACH, D., DEKAIRELLE, A.-., DOBOSZ, T., DUPUY, B. M., FÜREDI, S., GEHRIG, C., GUSMAÕ, L., HENKE, J., HENKE, L., HIDDING, M., HOHOFF, C., HOSTE, B., JOBLING, M. A., KÄRGEL, H. J., DE KNIJFF, P., LESSIG, R., LIEBEHERR, E., LORENTE, M., MARTÍNEZ-JARRETA, B., NIEVAS, P., NOWAK, M., PARSON, W., PASCALI, V. L., PENACINO, G., PLOSKI, R., ROLF, B., SALA, A., SCHMIDT, U., SCHMITT, C., SCHNEIDER, P. M., SZIBOR, R., TEIFELGREDING, J. y KAYSER, M. (2001): “Online reference database of European Y-chromosomal short tandem repeat (STR) haplotypes”, Forensic Sci. Int. 118, pp. 106-113.
  • ROMERO, A. A., JAMISON, M. G. y WEIDNER, A.C. (2008): “Are single nucleotide polymorphisms associated with pelvic organ prolapse?”, Journal of Pelvic Medicine and Surgery 14, pp. 37-43.
  • SAMPIETRO, M. L., CARAMELLI, D., LAO, O., CALAFELL, F., COMAS, D., LARI, M., AGUSTÍ, B., BERTRANPETIT, J. y LALUEZA-FOX, C. (2005): “The genetics of the pre-Roman Iberian Peninsula: A mtDNA study of ancient Iberians”, Ann. Hum. Genet. 69, pp. 535-548.
  • SCHMITZ, R. W., SERRE, D., BONANI, G., FEINE, S., HILLGRUBER, F., KRAINITZKI, H., PÄÄBO, S. y SMITH, F. H. (2002): “The Neandertal type site revisited: Interdisciplinary investigations of skeletal remains from the Neander Valley, Germany”, Proc. Natl. Acad. Sci. U.S.A. 99, pp. 13342-13347.
  • SCOZZARI, R., TORRONI, A., SEMINO, O., SIRUGO, G., BREGA, A. y SANTACHIARABENERECETTI, A. S. (1988): “Genetic studies on the Senegal population. I. Mitochondrial DNA polymorphisms”, Am. J. Hum. Genet. 43, pp. 534-544.
  • SEMINO, O., PASSARINO, G., OEFNER, P. J., LIN, A. A., ARBUZOVA, S., BECKMAN, L. E., DE BENEDICTIS, G., FRANCALACCI, P., KOUVATSI, A., LIMBORSKA, S., MARCIKIAE, M., MIKA, A., MIKA, B., PRIMORAC, D., SANTACHIARABENERECETTI, A. S., CAVALLI-SFORZA, L. L. y UNDERHILL, P. A. (2000): “The genetic legacy of paleolithic Homo sapiens sapiens in extant europeans: A Y chromosome perspective”, Science 290, pp. 1155-1159.
  • SHRESTHA, S., SMITH, M. W., BEATY, T. H. y STRATHDEE, S. A. (2005): “Theory and methodology for utilizing genes as biomarkers to determine potential biological mixtures”, Ann. Epidemiol. 15, pp. 29-38.
  • SHUSTER, R. C., RUBENSTEIN, A. J. y WALLACE, D. C. (1988): “Mitochondrial DNA in anucleate human blood cells”, Biochem. Biophys. Res. Commun. 155, pp. 1360-1365.
  • SKOGLUND, P., STORÅ, J., GÖTHERSTRÖM, A. y JAKOBSSON, M. (2013): “Accurate sex identification of ancient human remains using DNA shotgun sequencing”, Journal of Archaeological Science 40, pp. 4477-4482.
  • STONE, A. C.y STONEKING, M. (1993): “Ancient DNA from a pre-Columbian Amerindian population”, Am. J. Phys. Anthropol. 92, pp. 463-471.
  • TEMPLETON, A. R. (2007): “Genetics and recent human evolution”, Evolution 61, pp. 1507-1519.
  • THANGARAJ, K., CHAUBEY, G., KIVISILD, T., REDDY, A. G., SINGH, V. K., RASALKAR, A. A. y SINGH, L. (2005): “Reconstructing the origin of Andaman Islanders”, Science 308, p. 996.
  • THOMAS, W. K., PAABO, S., VILLABLANCA, F. X. y WILSON, A. C. (1990): “Spatial and temporal continuity of kangaroo rat populations shown by sequencing mitochondrial DNA from museum specimens”, J. Mol. Evol. 31, pp. 101-112.
  • TORRONI, A., HUOPONEN, K., FRANCALACCI, P., PETROZZI, M., MORELLI, L., SCOZZARI, R., OBINU, D., SAVONTAUS, M.-. y WALLACE, D. C. (1996): “Classification of european mtDNAs from an analysis of three European populations”, Genetics 144, pp. 1835-1850.
  • TORRONI, A., SCHURR, T. G., YANG, C.-., SZATHMARY, E. J. E., WILLIAMS, R. C., SCHANFIELD, M. S., TROUP, G. A., KNOWLER, W. C., LAWRENCE, D. N., WEISS, K. M. y WALLACE, D. C. (1992): “Native American mitochondrial DNA analysis indicates that the Amerind and the Nadene populations were founded by two independent migrations”, Genetics 130, pp. 153-162.
  • VAN OORSCHOT, R. A. H., BALLANTYNE, K. N. y MITCHELL, R. J. (2010): “Forensic trace DNA: a review”, Investigative Genetics 1, pp. 1-17.
  • VERNESI, C., CARAMELLI, D., DUPANLOUP, I., BERTORELLE, G., LARI, M., CAPPELLINI, E., MOGGI-CECCHI, J., CHIARELLI, B., CASTRÌ, L., CASOLI, A., MALLEGNI, F., LALUEZA-FOX, C. y BARBUJANI, G. (2004): “The Etruscans: A Population-Genetic Study”, Am. J. Hum. Genet. 74, pp. 694-704.
  • VIGILANT, L., STONEKING, M., HARPENDING, H., HAWKES, K. y WILSON, A. C. (1991): “African populations and the evolution of human mitochondrial DNA”, Science 253, pp. 1503-1507.
  • WALLACE, D. C. (1992): “Mitochondrial genetics: A paradigm for aging and degenerative diseases?”, Science 256, pp. 628-632.
  • WALLACE, D. C. y TORRONI, A. (1992): “American Indian prehistory as written in the mitochondrial DNA: a review”, Human Biology 64, pp. 403-416.
  • WATSON, J. D. y CRICK, F. H. C. (1953): “Molecular Structure of Nucleic Acids A Structure for Deoxyribose Nucleic Acid”, Nature 171, pp. 737-738.
  • WEBER, J. y MAY P. (1989): “Abundant class of human DNA polymorphism which can be typed using then polymerase chain reaction”, Am. J. Hum. Genet. 44, pp. 338-396.
  • WOLPOFF, M. H., SPUHLER, J. N., SMITH, F. H., RADOVČIĆ, J., POPE, G., FRAYER, D. W., ECKHARDT, R. y CLARK, G. (1988): “Modern human origins [1]”, Science 241, pp. 772-773.
  • XING, J., WATKINS, W. S., HU, Y., HUFF, C. D., SABO, A., MUZNY, D. M., BAMSHAD, M. J., GIBBS, R. A., JORDE, L. B. y YU, F. (2010): “Genetic diversity in India and the inference of Eurasian population expansion”, Genome Biol. 11, p. R113.
Fuente de los datos: Dialnet