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.
UR - http://www.scopus.com/inward/record.url?scp=84895196517&partnerID=8YFLogxK
U2 - 10.1371/journal.pone.0087612
DO - 10.1371/journal.pone.0087612
M3 - Article
C2 - 24503968
AN - SCOPUS:84895196517
SN - 1932-6203
VL - 9
JO - PLoS ONE
JF - PLoS ONE
IS - 2
M1 - e87612
ER -