Mitochondrial genome sequencing in mesolithic North East Europe unearths a new sub-clade within the broadly distributed human haplogroup C1

Clio Der Sarkissian; Paul Brotherton; Oleg Balanovsky; Jennifer E.L. Templeton; Bastien Llamas; Julien Soubrier; Vyacheslav Moiseyev; Valery Khartanovich; Alan Cooper; Wolfgang Haak; Syama Adhikarla; Christina J. Adler; Jaume Bertranpetit; Andrew C. Clarke; David Comas; Matthew C. Dulik; Jill B. Gaieski; Marc Haber; Arun Kumar Ganesh Prasad; Li Jin; Matthew E. Kaplan; Shilin Li; Begoña Martínez-Cruz; Elizabeth A. Matisoo-Smith; Nirav C. Merchant; R. John Mitchell; Amanda C. Owings; Laxmi Parida; Ramasamy Pitchappan; Daniel E. Platt; Lluis Quintana-Murci; Colin Renfrew; Daniela R. Lacerda; Ajay K. Royyuru; Fabricio R. Santos; Theodore G. Schurr; Himla Soodyall; David F.Soria Hernanz; Pandikumar Swamikrishnan; Chris Tyler-Smith; Arun Varatharajan Santhakumari; Pedro Paulo Vieira; Miguel G. Vilar; R. Spencer Wells; Pierre A. Zalloua; Janet S. Ziegle

doi:10.1371/journal.pone.0087612

Mitochondrial genome sequencing in mesolithic North East Europe unearths a new sub-clade within the broadly distributed human haplogroup C1

Clio Der Sarkissian, Paul Brotherton, Oleg Balanovsky, Jennifer E.L. Templeton, Bastien Llamas, Julien Soubrier, Vyacheslav Moiseyev, Valery Khartanovich, Alan Cooper, Wolfgang Haak, Syama Adhikarla, Christina J. Adler, Jaume Bertranpetit, Andrew C. Clarke, David Comas, Matthew C. Dulik, Jill B. Gaieski, Marc Haber, Arun Kumar Ganesh Prasad, Li JinMatthew E. Kaplan, Shilin Li, Begoña Martínez-Cruz, Elizabeth A. Matisoo-Smith, Nirav C. Merchant, R. John Mitchell, Amanda C. Owings, Laxmi Parida, Ramasamy Pitchappan, Daniel E. Platt, Lluis Quintana-Murci, Colin Renfrew, Daniela R. Lacerda, Ajay K. Royyuru, Fabricio R. Santos, Theodore G. Schurr, Himla Soodyall, David F.Soria Hernanz, Pandikumar Swamikrishnan, Chris Tyler-Smith, Arun Varatharajan Santhakumari, Pedro Paulo Vieira, Miguel G. Vilar, R. Spencer Wells, Pierre A. Zalloua, Janet S. Ziegle

Cancer and Genomic Sciences

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Abstract

The human mitochondrial haplogroup C1 has a broad global distribution but is extremely rare in Europe today. Recent ancient DNA evidence has demonstrated its presence in European Mesolithic individuals. Three individuals from the 7,500 year old Mesolithic site of Yuzhnyy Oleni Ostrov, Western Russia, could be assigned to haplogroup C1 based on mitochondrial hypervariable region I sequences. However, hypervariable region I data alone could not provide enough resolution to establish the phylogenetic relationship of these Mesolithic haplotypes with haplogroup C1 mitochondrial DNA sequences found today in populations of Europe, Asia and the Americas. In order to obtain high-resolution data and shed light on the origin of this European Mesolithic C1 haplotype, we target-enriched and sequenced the complete mitochondrial genome of one Yuzhnyy Oleni Ostrov C1 individual. The updated phylogeny of C1 haplogroups indicated that the Yuzhnyy Oleni Ostrov haplotype represents a new distinct clade, provisionally coined "C1f". We show that all three C1 carriers of Yuzhnyy Oleni Ostrov belong to this clade. No haplotype closely related to the C1f sequence could be found in the large current database of ancient and present-day mitochondrial genomes. Hence, we have discovered past human mitochondrial diversity that has not been observed in modern-day populations so far. The lack of positive matches in modern populations may be explained by under-sampling of rare modern C1 carriers or by demographic processes, population extinction or replacement, that may have impacted on populations of Northeast Europe since prehistoric times.

Original language	English
Article number	e87612
Number of pages	10
Journal	PLoS ONE
Volume	9
Issue number	2
DOIs	https://doi.org/10.1371/journal.pone.0087612
Publication status	Published - 4 Feb 2014

ASJC Scopus subject areas

General Biochemistry,Genetics and Molecular Biology
General Agricultural and Biological Sciences
General

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Der Sarkissian, C., Brotherton, P., Balanovsky, O., Templeton, J. E. L., Llamas, B., Soubrier, J., Moiseyev, V., Khartanovich, V., Cooper, A., Haak, W., Adhikarla, S., Adler, C. J., Bertranpetit, J., Clarke, A. C., Comas, D., Dulik, M. C., Gaieski, J. B., Haber, M., Prasad, A. K. G., ... Ziegle, J. S. (2014). Mitochondrial genome sequencing in mesolithic North East Europe unearths a new sub-clade within the broadly distributed human haplogroup C1. PLoS ONE, 9(2), Article e87612. https://doi.org/10.1371/journal.pone.0087612

@article{8b53a29f3cba43a4b7eea32268569fb0,

title = "Mitochondrial genome sequencing in mesolithic North East Europe unearths a new sub-clade within the broadly distributed human haplogroup C1",

abstract = "The human mitochondrial haplogroup C1 has a broad global distribution but is extremely rare in Europe today. Recent ancient DNA evidence has demonstrated its presence in European Mesolithic individuals. Three individuals from the 7,500 year old Mesolithic site of Yuzhnyy Oleni Ostrov, Western Russia, could be assigned to haplogroup C1 based on mitochondrial hypervariable region I sequences. However, hypervariable region I data alone could not provide enough resolution to establish the phylogenetic relationship of these Mesolithic haplotypes with haplogroup C1 mitochondrial DNA sequences found today in populations of Europe, Asia and the Americas. In order to obtain high-resolution data and shed light on the origin of this European Mesolithic C1 haplotype, we target-enriched and sequenced the complete mitochondrial genome of one Yuzhnyy Oleni Ostrov C1 individual. The updated phylogeny of C1 haplogroups indicated that the Yuzhnyy Oleni Ostrov haplotype represents a new distinct clade, provisionally coined {"}C1f{"}. We show that all three C1 carriers of Yuzhnyy Oleni Ostrov belong to this clade. No haplotype closely related to the C1f sequence could be found in the large current database of ancient and present-day mitochondrial genomes. Hence, we have discovered past human mitochondrial diversity that has not been observed in modern-day populations so far. The lack of positive matches in modern populations may be explained by under-sampling of rare modern C1 carriers or by demographic processes, population extinction or replacement, that may have impacted on populations of Northeast Europe since prehistoric times.",

author = "{Der Sarkissian}, Clio and Paul Brotherton and Oleg Balanovsky and Templeton, {Jennifer E.L.} and Bastien Llamas and Julien Soubrier and Vyacheslav Moiseyev and Valery Khartanovich and Alan Cooper and Wolfgang Haak and Syama Adhikarla and Adler, {Christina J.} and Jaume Bertranpetit and Clarke, {Andrew C.} and David Comas and Dulik, {Matthew C.} and Gaieski, {Jill B.} and Marc Haber and Prasad, {Arun Kumar Ganesh} and Li Jin and Kaplan, {Matthew E.} and Shilin Li and Bego{\~n}a Mart{\'i}nez-Cruz and Matisoo-Smith, {Elizabeth A.} and Merchant, {Nirav C.} and Mitchell, {R. John} and Owings, {Amanda C.} and Laxmi Parida and Ramasamy Pitchappan and Platt, {Daniel E.} and Lluis Quintana-Murci and Colin Renfrew and Lacerda, {Daniela R.} and Royyuru, {Ajay K.} and Santos, {Fabricio R.} and Schurr, {Theodore G.} and Himla Soodyall and Hernanz, {David F.Soria} and Pandikumar Swamikrishnan and Chris Tyler-Smith and Santhakumari, {Arun Varatharajan} and Vieira, {Pedro Paulo} and Vilar, {Miguel G.} and Wells, {R. Spencer} and Zalloua, {Pierre A.} and Ziegle, {Janet S.}",

year = "2014",

month = feb,

day = "4",

doi = "10.1371/journal.pone.0087612",

language = "English",

volume = "9",

journal = "PLoS ONE",

issn = "1932-6203",

publisher = "Public Library of Science (PLOS)",

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Der Sarkissian, C, Brotherton, P, Balanovsky, O, Templeton, JEL, Llamas, B, Soubrier, J, Moiseyev, V, Khartanovich, V, Cooper, A, Haak, W, Adhikarla, S, Adler, CJ, Bertranpetit, J, Clarke, AC, Comas, D, Dulik, MC, Gaieski, JB, Haber, M, Prasad, AKG, Jin, L, Kaplan, ME, Li, S, Martínez-Cruz, B, Matisoo-Smith, EA, Merchant, NC, Mitchell, RJ, Owings, AC, Parida, L, Pitchappan, R, Platt, DE, Quintana-Murci, L, Renfrew, C, Lacerda, DR, Royyuru, AK, Santos, FR, Schurr, TG, Soodyall, H, Hernanz, DFS, Swamikrishnan, P, Tyler-Smith, C, Santhakumari, AV, Vieira, PP, Vilar, MG, Wells, RS, Zalloua, PA & Ziegle, JS 2014, 'Mitochondrial genome sequencing in mesolithic North East Europe unearths a new sub-clade within the broadly distributed human haplogroup C1', PLoS ONE, vol. 9, no. 2, e87612. https://doi.org/10.1371/journal.pone.0087612

TY - JOUR

T1 - Mitochondrial genome sequencing in mesolithic North East Europe unearths a new sub-clade within the broadly distributed human haplogroup C1

AU - Der Sarkissian, Clio

AU - Brotherton, Paul

AU - Balanovsky, Oleg

AU - Templeton, Jennifer E.L.

AU - Llamas, Bastien

AU - Soubrier, Julien

AU - Moiseyev, Vyacheslav

AU - Khartanovich, Valery

AU - Cooper, Alan

AU - Haak, Wolfgang

AU - Adhikarla, Syama

AU - Adler, Christina J.

AU - Bertranpetit, Jaume

AU - Clarke, Andrew C.

AU - Comas, David

AU - Dulik, Matthew C.

AU - Gaieski, Jill B.

AU - Haber, Marc

AU - Prasad, Arun Kumar Ganesh

AU - Jin, Li

AU - Kaplan, Matthew E.

AU - Li, Shilin

AU - Martínez-Cruz, Begoña

AU - Matisoo-Smith, Elizabeth A.

AU - Merchant, Nirav C.

AU - Mitchell, R. John

AU - Owings, Amanda C.

AU - Parida, Laxmi

AU - Pitchappan, Ramasamy

AU - Platt, Daniel E.

AU - Quintana-Murci, Lluis

AU - Renfrew, Colin

AU - Lacerda, Daniela R.

AU - Royyuru, Ajay K.

AU - Santos, Fabricio R.

AU - Schurr, Theodore G.

AU - Soodyall, Himla

AU - Hernanz, David F.Soria

AU - Swamikrishnan, Pandikumar

AU - Tyler-Smith, Chris

AU - Santhakumari, Arun Varatharajan

AU - Vieira, Pedro Paulo

AU - Vilar, Miguel G.

AU - Wells, R. Spencer

AU - Zalloua, Pierre A.

AU - Ziegle, Janet S.

PY - 2014/2/4

Y1 - 2014/2/4

N2 - The human mitochondrial haplogroup C1 has a broad global distribution but is extremely rare in Europe today. Recent ancient DNA evidence has demonstrated its presence in European Mesolithic individuals. Three individuals from the 7,500 year old Mesolithic site of Yuzhnyy Oleni Ostrov, Western Russia, could be assigned to haplogroup C1 based on mitochondrial hypervariable region I sequences. However, hypervariable region I data alone could not provide enough resolution to establish the phylogenetic relationship of these Mesolithic haplotypes with haplogroup C1 mitochondrial DNA sequences found today in populations of Europe, Asia and the Americas. In order to obtain high-resolution data and shed light on the origin of this European Mesolithic C1 haplotype, we target-enriched and sequenced the complete mitochondrial genome of one Yuzhnyy Oleni Ostrov C1 individual. The updated phylogeny of C1 haplogroups indicated that the Yuzhnyy Oleni Ostrov haplotype represents a new distinct clade, provisionally coined "C1f". We show that all three C1 carriers of Yuzhnyy Oleni Ostrov belong to this clade. No haplotype closely related to the C1f sequence could be found in the large current database of ancient and present-day mitochondrial genomes. Hence, we have discovered past human mitochondrial diversity that has not been observed in modern-day populations so far. The lack of positive matches in modern populations may be explained by under-sampling of rare modern C1 carriers or by demographic processes, population extinction or replacement, that may have impacted on populations of Northeast Europe since prehistoric times.

AB - The human mitochondrial haplogroup C1 has a broad global distribution but is extremely rare in Europe today. Recent ancient DNA evidence has demonstrated its presence in European Mesolithic individuals. Three individuals from the 7,500 year old Mesolithic site of Yuzhnyy Oleni Ostrov, Western Russia, could be assigned to haplogroup C1 based on mitochondrial hypervariable region I sequences. However, hypervariable region I data alone could not provide enough resolution to establish the phylogenetic relationship of these Mesolithic haplotypes with haplogroup C1 mitochondrial DNA sequences found today in populations of Europe, Asia and the Americas. In order to obtain high-resolution data and shed light on the origin of this European Mesolithic C1 haplotype, we target-enriched and sequenced the complete mitochondrial genome of one Yuzhnyy Oleni Ostrov C1 individual. The updated phylogeny of C1 haplogroups indicated that the Yuzhnyy Oleni Ostrov haplotype represents a new distinct clade, provisionally coined "C1f". We show that all three C1 carriers of Yuzhnyy Oleni Ostrov belong to this clade. No haplotype closely related to the C1f sequence could be found in the large current database of ancient and present-day mitochondrial genomes. Hence, we have discovered past human mitochondrial diversity that has not been observed in modern-day populations so far. The lack of positive matches in modern populations may be explained by under-sampling of rare modern C1 carriers or by demographic processes, population extinction or replacement, that may have impacted on populations of Northeast Europe since prehistoric times.

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Mitochondrial genome sequencing in mesolithic North East Europe unearths a new sub-clade within the broadly distributed human haplogroup C1

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