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Reduced-Median-Network Analysis of Complete Mitochondrial DNA Coding-Region Sequences for the Major African, Asian, and European Haplogroups

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Reduced-Median-Network Analysis of Complete Mitochondrial DNA Coding-Region Sequences for the Major African, Asian, and European Haplogroups View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by DigitalCommons@University of Nebraska University of Nebraska - Lincoln DigitalCommons@University of Nebraska - Lincoln Public Health Resources Public Health Resources 2002 Reduced-Median-Network Analysis of Complete Mitochondrial DNA Coding-Region Sequences for the Major African, Asian, and European Haplogroups Corinna Herrnstadt MitoKor Joanna L. Elson University of Newcastle upon Tyne Eoin Fahy MitoKor Gwen Preston MitoKor Douglass M. Turnbull University of Newcastle upon Tyne See next page for additional authors Follow this and additional works at: https://digitalcommons.unl.edu/publichealthresources Part of the Public Health Commons Herrnstadt, Corinna; Elson, Joanna L.; Fahy, Eoin; Preston, Gwen; Turnbull, Douglass M.; Anderson, Christen; Ghosh, Soumitra S.; Olefsky, Jerrold M.; Beal, M. Flint; Davis, Robert E.; and Howell, Neil, "Reduced-Median-Network Analysis of Complete Mitochondrial DNA Coding-Region Sequences for the Major African, Asian, and European Haplogroups" (2002). Public Health Resources. 103. https://digitalcommons.unl.edu/publichealthresources/103 This Article is brought to you for free and open access by the Public Health Resources at DigitalCommons@University of Nebraska - Lincoln. It has been accepted for inclusion in Public Health Resources by an authorized administrator of DigitalCommons@University of Nebraska - Lincoln. Authors Corinna Herrnstadt, Joanna L. Elson, Eoin Fahy, Gwen Preston, Douglass M. Turnbull, Christen Anderson, Soumitra S. Ghosh, Jerrold M. Olefsky, M. Flint Beal, Robert E. Davis, and Neil Howell This article is available at DigitalCommons@University of Nebraska - Lincoln: https://digitalcommons.unl.edu/ publichealthresources/103 Am. J. Hum. Genet. 70:1152–1171, 2002 Reduced-Median-Network Analysis of Complete Mitochondrial DNA Coding-Region Sequences for the Major African, Asian, and European Haplogroups Corinna Herrnstadt,1 Joanna L. Elson,3 Eoin Fahy,1 Gwen Preston,1 Douglass M. Turnbull,3 Christen Anderson,1 Soumitra S. Ghosh,1 Jerrold M. Olefsky,2 M. Flint Beal,4,* Robert E. Davis,1,† and Neil Howell1,5 1MitoKor and 2Veterans Administration Medical Center, San Diego; 3Department of Neurology, University of Newcastle upon Tyne, Newcastle upon Tyne; 4Department of Neurology, Massachusetts General Hospital, Harvard Medical School, Boston; and 5Department of Radiation Oncology, University of Texas Medical Branch, Galveston The evolution of the human mitochondrial genome is characterized by the emergence of ethnically distinct lineages or haplogroups. Nine European, seven Asian (including Native American), and three African mitochondrial DNA (mtDNA) haplogroups have been identified previously on the basis of the presence or absence of a relatively small number of restriction-enzyme recognition sites or on the basis of nucleotide sequences of the D-loop region. We have used reduced-median-network approaches to analyze 560 complete European, Asian, and African mtDNA coding-region sequences from unrelated individuals to develop a more complete understanding of sequence diversity both within and between haplogroups. A total of 497 haplogroup-associated polymorphisms were identified, 323 (65%) of which were associated with one haplogroup and 174 (35%) of which were associated with two or more haplogroups. Approximately one-half of these polymorphisms are reported for the first time here. Our results confirm and substantially extend the phylogenetic relationships among mitochondrial genomes described elsewhere from the major human ethnic groups. Another important result is that there were numerous instances both of parallel mutations at the same site and of reversion (i.e., homoplasy). It is likely that homoplasy in the coding region will confound evolutionary analysis of small sequence sets. By a linkage-disequilibrium approach, additional evidence for the absence of human mtDNA recombination is presented here. Introduction been identified on the basis of the presence or absence of restriction-enzyme recognition sites (Torroni et al. The first complete sequence of human mtDNA, the Cam- 1996; Wallace et al. 1999). Alternatively, sequences from bridge reference sequence (CRS), was published in 1981 the first hypervariable segment of the rapidly evolving (Anderson et al. 1981) and has recently been revised (the noncoding control region, or D-loop, have been used to revised CRS is herein termed the “rCRS”) (Andrews et establish phylogenetic networks of European mtDNA al. 1999). Variations in the mtDNA sequence have been sequences (Richards et al. 1996, 1998), and a combi- analyzed in human populations, both in terms of evo- nation of both methods was recently used for a com- lution and population dispersals and in terms of the role parative analysis (Macaulay et al. 1999). Reliance on that mtDNA mutations play in human disease (Torroni hypervariable control-region sequences, however, is not et al. 1996; Howell 1999; Wallace et al. 1999; Ingman without controversy, particularly because of the effects et al. 2000). However, the generation of comprehensive that homoplasy and saturation have at sites with high and unambiguous phylogenetic data, especially for the mutation rates (e.g., see Howell et al. 1996). mtDNA coding regions, is limited by the availability of Only recently have complete mtDNA sequences been a relatively small number of polymorphisms that have analyzed (Ingman et al. 2000; Finnila¨ et al. 2001; Maca- Meyer et al. 2001; Torroni et al. 2001b). One view is Received November 27, 2001; accepted for publication January 30, that these studies marked the beginning of the mito- 2002; electronically published April 5, 2002. chondrial population-genomics era (Hedges 2000), but Address for correspondence and reprints: Dr. Corinna Herrnstadt, MitoKor, 11494 Sorrento Valley Road, San Diego, CA 92121. E-mail: the amount of data for mtDNA polymorphisms in di- [email protected] verse human populations is still limited. We report here * Present affiliation: Department of Neurology, Cornell Medical complete mtDNA coding sequences from 560 unrelated Center, New York. individuals that were collected from U.S. and U.K. pop- † Present affiliation: Acadia Pharmaceuticals, San Diego. ᭧ 2002 by The American Society of Human Genetics. All rights reserved. ulations. All nine European haplogroups (435 individ- 0002-9297/2002/7005-0008$15.00 ual mtDNA sequences), the three African haplogroups 1152 Herrnstadt et al.: Network Analysis of mtDNA Haplogroups 1153 (56 sequences), and five major Asian haplogroups (69 followed by phenol:chloroform:isoamyl alcohol (50: sequences) were analyzed using reduced median net- 48:2) and chloroform:isoamyl alcohol (24:1) extrac- works (Bandelt et al. 1995). In this initial analysis of tions. Alternatively, mitochondria were isolated from these mtDNA sequences, we focus on haplogroup- frozen brain tissue, and mtDNA was extracted as de- specific and haplogroup-associated polymorphisms scribed elsewhere (Mecocci et al. 1994). DNA concen- because of their fundamental importance in studies trations were determined by UV absorption. of human evolution, phylogeography, and population genetics (e.g., see Richards et al. 1996, 1998, 2000; Finnila¨ et al. 2001). It should be noted that the mtDNA sequences ana- DNA Sequencing lyzed here were not derived from a single geographical or ethnic population, so it is not possible to derive con- The majority (89%) of the mtDNA genome sequences clusions about the population demographics and phy- were determined by a largely automated approach at logeography of modern humans. Instead, our interest MitoKor, in San Diego. The mtDNA was amplified in lies more in understanding (1) the processes (i.e., mu- 68 fragments, each ∼550 bp in length and with 50% tation, segregation, and selection) that determine hu- overlap between neighboring fragments. PCR primers man mtDNA evolution and (2) the role that mtDNA- were 16–26 nt in length and were designed to be com- sequence changes play in human disease. As one ex- plementary to the light and heavy strands of the rCRS ample of the complexities of the second issue, there are (Andrews et al. 1999). All liquid handling was per- several reports that have identified pathogenic mtDNA- formed by a Biorobot 9600 (Qiagen). PCR amplifica- sequence changes, but those changes are more likely to tions were set up in triplicate, each containing 25–50 ng be pathogenically benign polymorphisms that are as- total cellular DNA or 1 ng mtDNA, 100 ng each of the sociated with particular mtDNA haplogroups (e.g., see forward and reverse primers, and 12.5 mlofTaq PCR Lin et al. 1992; Chagnon et al. 1999). There are several Master Mix (Qiagen) in a reaction volume of 25 ml. After reports of diseases that are preferentially associated with denaturation at 95ЊC for 2 min, amplification was per- an mtDNA haplogroup (e.g., see Chinnery et al. 2000; formed for 30 three-step cycles of 95ЊC for 10 s, 60ЊC Ruiz-Pesini et al. 2000), and it is thus becoming im- for 10 s, and 72ЊC for 1 min, followed by 72ЊC for 4 portant, for multiple reasons, to extend our understand- min and cooling to 4ЊC. Triplicate reactions were pooled ing of mtDNA haplogroups. and purified with the QIAquick 96 PCR Purification Kit (Qiagen). Sequencing reactions were performed with 3 Subjects, Material, and Methods ml of PCR product, forward or reverse PCR primer, and BigDyeTerminator chemistry (PE Applied Biosystems). Sequencing reactions were manually purified using Cen- Subjects
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