mtDNA haplogroup X: An ancient link between Europe/Western Asia and North America?

On the basis of comprehensive RFLP analysis, it has been inferred that approximately 97% of Native American mtDNAs belong to one of four major founding mtDNA lineages, designated haplogroups "A"-"D." It has been proposed that a fifth mtDNA haplogroup (haplogroup X) represents a minor founding lineage in Native Americans. Unlike haplogroups A-D, haplogroup X is also found at low frequencies in modern European populations. To investigate the origins, diversity, and continental relationships of this haplogroup, we performed mtDNA high-resolution RFLP and complete control region (CR) sequence analysis on 22 putative Native American haplogroup X and 14 putative European haplogroup X mtDNAs. The results identified a consensus haplogroup X motif that characterizes our European and Native American samples. Among Native Americans, haplogroup X appears to be essentially restricted to northern Amerindian groups, including the Ojibwa, the Nuu-Chah-Nulth, the Sioux, and the Yakima, although we also observed this haplogroup in the Na-Dene-speaking Navajo. Median network analysis indicated that European and Native American haplogroup X mtDNAs, although distinct, nevertheless are distantly related to each other. Time estimates for the arrival of X in North America are 12,000-36,000 years ago, depending on the number of assumed founders, thus supporting the conclusion that the peoples harboring haplogroup X were among the original founders of Native American populations. To date, haplogroup X has not been unambiguously identified in Asia, raising the possibility that some Native American founders were of Caucasian ancestry.

[1]  A. Torroni,et al.  Classification of European mtDNAs from an analysis of three European populations. , 1996, Genetics.

[2]  R. Ferrell,et al.  mtDNA variation in the Yanomami: evidence for additional New World founding lineages. , 1996, American journal of human genetics.

[3]  H. Bandelt,et al.  mtDNA analysis reveals a major late Paleolithic population expansion from southwestern to northeastern Europe. , 1998, American journal of human genetics.

[4]  M. King,et al.  Genetic variation among the Mapuche Indians from the Patagonian region of Argentina: mitochondrial DNA sequence variation and allele frequencies of several nuclear genes. , 1993, EXS.

[5]  F. Sanger,et al.  Sequence and organization of the human mitochondrial genome , 1981, Nature.

[6]  M. Stoneking,et al.  Ancient DNA from a pre-Columbian Amerindian population. , 1993, American journal of physical anthropology.

[7]  K. Weiss,et al.  Native American mitochondrial DNA analysis indicates that the Amerind and the Nadene populations were founded by two independent migrations. , 1992, Genetics.

[8]  A. Torroni,et al.  mtDNA and the origin of Caucasians: identification of ancient Caucasian-specific haplogroups, one of which is prone to a recurrent somatic duplication in the D-loop region. , 1994, American journal of human genetics.

[9]  L. Moore,et al.  Mitochondrial DNA analysis in Tibet: implications for the origin of the Tibetan population and its adaptation to high altitude. , 1994, American journal of physical anthropology.

[10]  D. Penny,et al.  Branch and bound algorithms to determine minimal evolutionary trees , 1982 .

[11]  E. Bermingham,et al.  Mitochondrial DNA analysis of Mongolian populations and implications for the origin of New World founders. , 1996, Genetics.

[12]  S. Horai,et al.  mtDNA polymorphism in East Asian Populations, with special reference to the peopling of Japan. , 1996, American journal of human genetics.

[13]  A. Torroni,et al.  Mitochondrial DNA variation in human populations and implications for detection of mitochondrial DNA mutations of pathological significance , 1994, Journal of bioenergetics and biomembranes.

[14]  A. Torroni,et al.  Mitochondrial DNA and Y Chromosome-Specific Polymorphisms in the Seminole Tribe of Florida , 1997, European journal of human genetics : EJHG.

[15]  H. Bandelt,et al.  Mitochondrial portraits of human populations using median networks. , 1995, Genetics.

[16]  M. Zago,et al.  Heterogeneity of mitochondrial DNA haplotypes in Pre-Columbian Natives of the Amazon region. , 1996, American journal of physical anthropology.

[17]  R. Sukernik,et al.  mtDNA variation of aboriginal Siberians reveals distinct genetic affinities with Native Americans. , 1993, American journal of human genetics.

[18]  R. Sukernik,et al.  mtDNA diversity in Chukchi and Siberian Eskimos: implications for the genetic history of Ancient Beringia and the peopling of the New World. , 1998, American journal of human genetics.

[19]  S. Horai,et al.  Peopling of the Americas, founded by four major lineages of mitochondrial DNA. , 1994, Molecular biology and evolution.

[20]  K. B. Kim,et al.  Sequence variation of mitochondrial DNA control region in Koreans. , 1997, Forensic science international.

[21]  F. Rothhammer,et al.  Distribution of the four founding lineage haplotypes in Native Americans suggests a single wave of migration for the New World. , 1995, American journal of physical anthropology.

[22]  E. Bermingham,et al.  Reduced mtDNA diversity in the Ngöbé Amerinds of Panamá. , 1995, Genetics.

[23]  E. Bermingham,et al.  Mitochondrial DNA diversity in the Kuna Amerinds of Panamá. , 1995, Human molecular genetics.

[24]  L. Schell,et al.  Alloalbuminemia and the migrations of native Americans , 1988 .

[25]  G. Bailliet,et al.  Further comments on the characterization of founder Amerindian mitochondrial haplotypes. , 1997, American journal of human genetics.

[26]  R. Ward,et al.  mtDNA sequences suggest a recent evolutionary divergence for Beringian and northern North American populations. , 1993, American journal of human genetics.

[27]  R. Barrantes,et al.  Mitochondrial DNA "clock" for the Amerinds and its implications for timing their entry into North America. , 1994, Proceedings of the National Academy of Sciences of the United States of America.

[28]  A. Torroni,et al.  Southeast Asian mitochondrial DNA analysis reveals genetic continuity of ancient mongoloid migrations. , 1992, Genetics.

[29]  S. Pääbo,et al.  Genetic and linguistic differentiation in the Americas. , 1993, Proceedings of the National Academy of Sciences of the United States of America.

[30]  S. Pääbo,et al.  Extensive mitochondrial diversity within a single Amerindian tribe. , 1991, Proceedings of the National Academy of Sciences of the United States of America.

[31]  L. Excoffier,et al.  Evolutionary correlation between control region sequence and restriction polymorphisms in the mitochondrial genome of a large Senegalese Mandenka sample. , 1995, Molecular biology and evolution.

[32]  M. Stoneking,et al.  mtDNA analysis of a prehistoric Oneota population: implications for the peopling of the New World. , 1998, American journal of human genetics.

[33]  M. Stoneking Mitochondrial DNA and human evolution , 1994, Journal of bioenergetics and biomembranes.

[34]  M. Nei,et al.  Maximum likelihood estimation of the number of nucleotide substitutions from restriction sites data. , 1983, Genetics.

[35]  G. Bailliet,et al.  Founder mitochondrial haplotypes in Amerindian populations. , 1994, American journal of human genetics.

[36]  H. Bandelt,et al.  Origin and evolution of Native American mtDNA variation: a reappraisal. , 1996, American journal of human genetics.

[37]  S T Sherry,et al.  Evolutionary history of the COII/tRNALys intergenic 9 base pair deletion in human mitochondrial DNAs from the Pacific. , 1995, Molecular biology and evolution.

[38]  J V Neel,et al.  Asian affinities and continental radiation of the four founding Native American mtDNAs. , 1993, American journal of human genetics.

[39]  D. Labuda,et al.  mtDNA and Y chromosome-specific polymorphisms in modern Ojibwa: implications about the origin of their gene pool. , 1997, American journal of human genetics.

[40]  H. Bandelt,et al.  Mitochondrial footprints of human expansions in Africa. , 1997, American journal of human genetics.

[41]  M. Stoneking,et al.  Population variation of human mtDNA control region sequences detected by enzymatic amplification and sequence-specific oligonucleotide probes. , 1991, American journal of human genetics.

[42]  A. Jeffreys,et al.  DNA Fingerprinting: State of the Science , 1993, Progress in Systems and Control Theory.

[43]  W. Hauswirth,et al.  DNA Analysis of the Windover Population , 1994 .