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Haplogroup N1a (mtDNA)

January 01, 1970

Haplogroup N1a is a human mitochondrial DNA (mtDNA) haplogroup.

Haplogroup N1a
Possible time of origin12,000-32,000 YBP[1]
Possible place of originNear East
AncestorN1a'e'I
DescendantsN1a1
Defining mutations152, 669, 2702, 5315, 8901, 16147G, 16172, 16248, 16355[2]

Origin edit

N1a originated in the Near East [3] 12,000 to 32,000 years ago.[1] Specifically, the Arabian Peninsula is postulated as the geographic origin of N1a. This supposition is based on the relatively high frequency and genetic diversity of N1a in modern populations of the peninsula.[4] Exact origins and migration patterns of this haplogroup are still subject of some debate.

Debate on Origin of Neolithic Europeans edit

Two main competing scenarios exist for the spread of the Neolithic package from the Near East to Europe: demic diffusion (in which agriculture was brought by farmers) or cultural diffusion (in which agriculture was spread through the passage of ideas).

N1a became particularly prominent in this debate when a team led by Wolfgang Haak analyzed skeletons from Linear Pottery Culture sites. The Linear Pottery Culture is credited with the first farming communities in Central Europe, marking the beginning of Neolithic Europe in the region some 7500 years ago. As of 2010, mitochondrial DNA analysis has been conducted on 42 specimens from five locations. Seven of these ancient individuals were found to belong to haplogroup N1a[5][6]

A separate study analyzed 22 skeletons from European hunter-gatherer sites dated 13400-2300 BC. Most of these fossils carried the mtDNA haplogroup U, which was not found in any of the Linear Pottery Culture sites. Conversely, N1a was not identified in any of the hunter-gatherer fossils, indicating a genetic distinction between Early European Farmers and late European hunter-gatherers.[7]

Haak's team concludes that "the transition to farming in central Europe was accompanied by a substantial influx of people from outside the region."[7] However, they note that haplogroup frequencies in modern Europeans are substantially different from early farming and late hunter-gatherer populations. This indicates that "the diversity observed today cannot be explained by admixture between hunter-gatherers and early farmers alone" and that "major demographic events continued to take place in Europe after the early Neolithic."

Critics of these studies claim that the LBK N1a specimens could have derived from local communities established in Europe before the introduction of farming. Ammerman's team voiced concern due to some of the LBK specimens coming from communities several hundred years after farming was first established in the region;[8] a rebuttal was given.[9]

In 2010, researchers led by Palanichamy conducted a genetic and phylogeographic analysis of N1a. Based on the results, they conclude that some of the LBK samples were indigenous to Europe while others may have resulted from 'leapfrog' colonization.[1] Deguilloux's team agreed with Haak's conclusion on a genetic discontinuity between ancient and modern Europeans. However, they consider demic diffusion, cultural diffusion, and long-distance matrimonial exchanges all equally plausible explanations for the current genetic findings.[10]

Ancient DNA edit

Seven of 42 skeletons from Linear Pottery Culture (Linearbandkeramik) sites were found to be members of the N1a haplogroup (see Neolithic European). N1a was also identified in skeletal remains within a 6200-year-old megalithic long mound near Prissé-la-Charrière, France.[10] A 2500-year-old fossil of a Scytho-Siberian in the Altai Republic, easternmost representative of the Scythians, was found to be a member of N1a1.[11] A study of a 10th and 11th century Hungarians found that N1a1a1 was present in high-status individuals but absent from commoners.[12] One of thirteen skeletons analyzed from a medieval cemetery dated 1250-1450 AD in Denmark was found to be a member of subclade N1a1a.[13]

The N1 subclade has also been found in various other fossils that were analysed for ancient DNA, including specimens associated with the Starčevo (N1a1a1, Alsónyék-Bátaszék, Mérnöki telep, 1/3 or 33%), Linearbandkeramik (N1a1a1a3, Szemely-Hegyes, 1/1 or 100%; N1a1b/N1a1a3/N1a1a1a2/N1a1a1/N1a1a1a, Halberstadt-Sonntagsfeld, 6/22 or ~27%), Alföld Linear Pottery (N1a1a1, Hejőkürt-Lidl, 1/2 or 50%), Transdanubian Late Neolithic (N1a1a1a, Apc-Berekalja, 1/1 or 100%), Protoboleráz (N1a1a1a3, Abony, Turjányos-dűlő, 1/4 or 25%), Iberia Early Neolithic cultures (N1a1a1, Els Trocs, 1/4 or 25%),[14] Rinaldone-Gaudo Eneolithic cultures (N1a1a1a3, Monte San Biagio, 1/1 or 100%).[15]

Distribution edit

Haplogroup N1a is widely distributed throughout Europe, Northeast Africa, the Near East and Central Asia. It is divided into the European/Central Asian and African/South Asian branches based on specific genetic markers.

Near East edit

Relatively high frequencies of N1a are found in the modern population of Saudi Arabia. Estimates range from 2.4%[16] to 4%.[17] Regional analysis revealed that the haplogroup was most common in the center of the country. Haplotype diversity is noted for being higher here than elsewhere.[4]

Frequencies of N1a in Yemen are relatively high, with estimates varying by study: 3.6%,[16] 5.2%,[18] and 6.9%.[17] Yemen is noted for high haplotype diversity within the population.[4][18]

Elsewhere in the Near East, prevalence of N1a is lower. A 2008 article cited population frequencies of 1.1% in Qatar, 0.3% in Iran, and 0.2% in Turkey.[16]

Europe edit

N1a is a rare haplogroup that currently appears in only 0.2% of European populations.[5] Pockets of higher frequencies exist such as in Croatia where 0.7% of mainland Croatians,[19] 9.24% of the population on the island of Cres,[20] and 1.9% of the population on the island of Brač are members of N1a. In the Volga-Ural region of Russia, N1a is most prominent in the Komi-Permyaks (9.5%) followed by the Bashkirs (3.6%), Chuvash (1.8%), and Tatars (0.4%).[21] In another study of Volga Tatars, haplogroup N1a was found in 1.6% (2/126) of a sample of Mishar Tatars from Buinsk in western Tatarstan (1/126 N1a1a1a1, 1/126 N1a3a3), but it was not observed in a sample of 71 Kazan Tatars from Aznakayevo in eastern Tatarstan, yielding an overall figure of 1.0% N1a (2/197) among Volga Tatars.[22] Russia as a whole has a frequency of 0.7%.[23]

A study of 542 individuals in Portugal found an N1a frequency of 0.37%. Only 0.11% of individuals analyzed in Scotland were members of the haplogroup.[24]

Asia edit

Analysis of modern Siberian populations revealed a 1.2% prevalence in Altaians, 0.2% in the Buryats,[25] and 0.9% in the Khanty people.[26]

In India, N1a was identified in 4 members of the Havik group, 2 members from Andhra Pradesh,[5] 2 members from West Bengal and 1 member from Tamil Nadu.[1] The members of the Havik group belong to the African/South Asian branch while one member from Andhra Pradesh and others from West Bengal and Tamil Nadu belong to the European Branch.

Haplogroup N1a1 has been observed in 2.9% (4/138) of a sample of Kyrgyz from Kizilsu Kyrgyz Autonomous Prefecture, Xinjiang, China.[27]

Africa edit

N1a is concentrated among Afro-Asiatic-speaking populations in Northeast Africa, occurring in Eritrea, Ethiopia, Kenya, Tanzania, Somalia and Sudan. The clade also occurs at very low frequencies among a few neighboring groups due to historical interactions.[5][28] In Sudan, it is found among the Arakien (5.9%) and Nubians (3.4%).[28] In Ethiopia, 2.2% of the population are N1a carriers, with the haplogroup identified amongst Semitic speakers.[18] In Egypt, N1a has been observed in 0.8% of inhabitants.[16] In Kenya, the haplogroup is carried by around 10% of the Cushitic-speaking Rendille, as well as 1% of the Maasai. [29] Some N1a has also been observed in Tanzania.[5]

Additionally, haplogroup N1a is found among the Socotri (6.2%).[30]

Subclades edit

Tree edit

This phylogenetic tree of haplogroup N1a subclades is based on the paper by Mannis van Oven and Manfred Kayser Updated comprehensive phylogenetic tree of global human mitochondrial DNA variation[2] and subsequent published research.[31]

  • N
    • N1'5
      • N1
        • N1a'c'd'e'I
          • N1a'd'e'I
            • N1a'e'I
              • N1a
                • N1a1
                  • N1a1a
                    • N1a1a1
                      • N1a1a1a
                    • N1a1a2
                    • N1a1a3
                  • N1a1b

The tree of N1a has two distinct branches: Africa/South Asia and Europe with a Central Asian subcluster.[5][25] However, the African branch has members in southern Europe, and the European branch has members in Egypt and the Near East. The Africa/South Asia branch is characterized by the 16147G mutation, whereas the European branch is characterized by 16147A, 3336 and 16320. The Central Asian subcluster is an offshoot of the European branch that is characterized by marker 16189.

Subclade N1a1 is associated with mutation 16147A.[1][4] Palanichamy calculates N1a1 to have emerged between 8900 and 22400 YBP (Years Before Present). Subclade N1a1a is denoted by marker 16320, and is therefore associated with the European N1a branch. Petraglia estimates that N1a1a arose between 11000 and 25000 YBP.

See also edit

Phylogenetic tree of human mitochondrial DNA (mtDNA) haplogroups

  Mitochondrial Eve (L)    
L0 L1–6  
L1 L2   L3     L4 L5 L6
M N  
CZ D E G Q   O A S R   I W X Y
C Z B F R0   pre-JT   P   U
HV JT K
H V J T

References edit

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  15. ^ Antonio, Margaret L.; Gao, Ziyue; M. Moots, Hannah (2019). "Ancient Rome: A genetic crossroads of Europe and the Mediterranean". Science. 366 (6466). Washington D.C.: American Association for the Advancement of Science (published November 8, 2019): 708–714. Bibcode:2019Sci...366..708A. doi:10.1126/science.aay6826. hdl:2318/1715466. PMC 7093155. PMID 31699931.
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  18. ^ a b c Kivisild, T; Reidla, M; Metspalu, E; Rosa, A; Brehm, A; Pennarun, E; Parik, J; Geberhiwot, T; et al. (2004). "Ethiopian Mitochondrial DNA Heritage: Tracking Gene Flow Across and Around the Gate of Tears". The American Journal of Human Genetics. 75 (5): 752–70. doi:10.1086/425161. PMC 1182106. PMID 15457403.
  19. ^ Pericić, Marijana; Barać, Lovorka; Lauc, Irena Martinović; Klarić, Branka; Janićijević, Pavao; Rudan (2005). "Review of Croatian genetic heritage as revealed by mitochondrial DNA and Y chromosomal lineages" (PDF). Croatian Medical Journal. 46 (4): 502–13. PMID 16100752.
  20. ^ Jeran, N; Havas Augustin, D; Grahovac, B; Kapović, M; Metspalu, E; Villems, R; Rudan, P (2009). "Mitochondrial DNA heritage of Cres Islanders--example of Croatian genetic outliers". Collegium Antropologicum. 33 (4): 1323–8. PMID 20102088.
  21. ^ Bermisheva, M. A.; Tambets, K.; Villems, R.; Khusnutdinova, E. K. (2002). (PDF). Molecular Biology. 36 (6): 802–12. doi:10.1023/A:1021677708482. S2CID 16959586. Archived from the original (PDF) on 2009-11-22.
  22. ^ Malyarchuk B, Derenko M, Denisova G, et al. (2010). "Phylogeography of the Y-chromosome haplogroup C in northern Eurasia". Annals of Human Genetics. 74 (6): 539–546. doi:10.1111/j.1469-1809.2010.00601.x. PMID 20726964. S2CID 40763875.
  23. ^ Malyarchuk, Boris; Derenko, Miroslava; Denisova, Galina; Kravtsova, Olga (10 May 2010). "Mitogenomic Diversity in Tatars from the Volga-Ural Region of Russia". Molecular Biology and Evolution. 27 (10): 2220–6. doi:10.1093/molbev/msq065. ISSN 0737-4038. PMID 20457583.
  24. ^ González, Ana M.; Brehm, Antonio; Pérez, José A.; Maca-Meyer, Nicole; Flores, Carlos; Cabrera, Vicente M. (2003). "Mitochondrial DNA affinities at the Atlantic fringe of Europe". American Journal of Physical Anthropology. 120 (4): 391–404. doi:10.1002/ajpa.10168. PMID 12627534.
  25. ^ a b Derenko, M; Malyarchuk, B; Grzybowski, T; Denisova, G; Dambueva, I; Perkova, M; Dorzhu, C; Luzina, F; et al. (2007). "Phylogeographic Analysis of Mitochondrial DNA in Northern Asian Populations". The American Journal of Human Genetics. 81 (5): 1025–41. doi:10.1086/522933. PMC 2265662. PMID 17924343.
  26. ^ Pimenoff, Ville N; Comas, David; Palo, Jukka U; Vershubsky, Galina; Kozlov, Andrew; Sajantila, Antti (2008). "Northwest Siberian Khanty and Mansi in the junction of West and East Eurasian gene pools as revealed by uniparental markers". European Journal of Human Genetics. 16 (10): 1254–64. doi:10.1038/ejhg.2008.101. PMID 18506205. S2CID 19488203.
  27. ^ Guo, Y.; Xia, Z.; Cui, W.; Chen, C.; Jin, X.; Zhu, B. Joint Genetic Analyses of Mitochondrial and Y-Chromosome Molecular Markers for a Population from Northwest China. Genes 2020, 11, 564. doi:10.3390/genes11050564
  28. ^ a b Mohamed, Hisham Yousif Hassan. "Genetic Patterns of Y-chromosome and Mitochondrial DNA Variation, with Implications to the Peopling of the Sudan" (PDF). University of Khartoum. Retrieved 16 April 2016.
  29. ^ Castrì, Loredana; Garagnani, Paolo; Useli, Antonella; Pettener, Davide; Luiselli, Donata (2008). "Kenyan crossroads: migration and gene flow in six ethnic groups from Eastern Africa" (PDF). Journal of Anthropological Sciences. 86: 189–92. ISSN 1827-4765. PMID 19934476. Retrieved 28 Feb 2011.
  30. ^ Černý, Viktor; et al. (2009). (PDF). American Journal of Physical Anthropology. 138 (4): 439–447. doi:10.1002/ajpa.20960. PMID 19012329. Archived from the original (PDF) on 6 October 2016. Retrieved 14 June 2016.
  31. ^ Van Oven, Mannis; Kayser, Manfred (2009). "Updated comprehensive phylogenetic tree of global human mitochondrial DNA variation". Human Mutation. 30 (2): E386–94. doi:10.1002/humu.20921. PMID 18853457. S2CID 27566749.

External links edit

  • Mannis van Oven's PhyloTree
  • mitosearch 2011-02-25 at the Wayback Machine
  • Ian Logan's Mitochondrial DNA Site: Haplogroup N (including N1a1, N1a1b, N1a1b1)
  • Ian Logan's Mitochondrial DNA Site: Haplogroup N1a1a
  • Ian Logan's Mitochondrial DNA Site: Haplogroup N1a3

January 01, 1970
haplogroup, mtdna, haplogroup, human, mitochondrial, mtdna, haplogroup, haplogroup, n1apossible, time, origin12, possible, place, originnear, eastancestorn1a, idescendantsn1a1defining, mutations152, 2702, 5315, 8901, 16147g, 16172, 16248, 16355, contents, orig. Haplogroup N1a is a human mitochondrial DNA mtDNA haplogroup Haplogroup N1aPossible time of origin12 000 32 000 YBP 1 Possible place of originNear EastAncestorN1a e IDescendantsN1a1Defining mutations152 669 2702 5315 8901 16147G 16172 16248 16355 2 Contents 1 Origin 1 1 Debate on Origin of Neolithic Europeans 2 Ancient DNA 3 Distribution 3 1 Near East 3 2 Europe 3 3 Asia 3 4 Africa 4 Subclades 4 1 Tree 5 See also 6 References 7 External linksOrigin editN1a originated in the Near East 3 12 000 to 32 000 years ago 1 Specifically the Arabian Peninsula is postulated as the geographic origin of N1a This supposition is based on the relatively high frequency and genetic diversity of N1a in modern populations of the peninsula 4 Exact origins and migration patterns of this haplogroup are still subject of some debate Debate on Origin of Neolithic Europeans edit Two main competing scenarios exist for the spread of the Neolithic package from the Near East to Europe demic diffusion in which agriculture was brought by farmers or cultural diffusion in which agriculture was spread through the passage of ideas N1a became particularly prominent in this debate when a team led by Wolfgang Haak analyzed skeletons from Linear Pottery Culture sites The Linear Pottery Culture is credited with the first farming communities in Central Europe marking the beginning of Neolithic Europe in the region some 7500 years ago As of 2010 mitochondrial DNA analysis has been conducted on 42 specimens from five locations Seven of these ancient individuals were found to belong to haplogroup N1a 5 6 A separate study analyzed 22 skeletons from European hunter gatherer sites dated 13400 2300 BC Most of these fossils carried the mtDNA haplogroup U which was not found in any of the Linear Pottery Culture sites Conversely N1a was not identified in any of the hunter gatherer fossils indicating a genetic distinction between Early European Farmers and late European hunter gatherers 7 Haak s team concludes that the transition to farming in central Europe was accompanied by a substantial influx of people from outside the region 7 However they note that haplogroup frequencies in modern Europeans are substantially different from early farming and late hunter gatherer populations This indicates that the diversity observed today cannot be explained by admixture between hunter gatherers and early farmers alone and that major demographic events continued to take place in Europe after the early Neolithic Critics of these studies claim that the LBK N1a specimens could have derived from local communities established in Europe before the introduction of farming Ammerman s team voiced concern due to some of the LBK specimens coming from communities several hundred years after farming was first established in the region 8 a rebuttal was given 9 In 2010 researchers led by Palanichamy conducted a genetic and phylogeographic analysis of N1a Based on the results they conclude that some of the LBK samples were indigenous to Europe while others may have resulted from leapfrog colonization 1 Deguilloux s team agreed with Haak s conclusion on a genetic discontinuity between ancient and modern Europeans However they consider demic diffusion cultural diffusion and long distance matrimonial exchanges all equally plausible explanations for the current genetic findings 10 Ancient DNA editSeven of 42 skeletons from Linear Pottery Culture Linearbandkeramik sites were found to be members of the N1a haplogroup see Neolithic European N1a was also identified in skeletal remains within a 6200 year old megalithic long mound near Prisse la Charriere France 10 A 2500 year old fossil of a Scytho Siberian in the Altai Republic easternmost representative of the Scythians was found to be a member of N1a1 11 A study of a 10th and 11th century Hungarians found that N1a1a1 was present in high status individuals but absent from commoners 12 One of thirteen skeletons analyzed from a medieval cemetery dated 1250 1450 AD in Denmark was found to be a member of subclade N1a1a 13 The N1 subclade has also been found in various other fossils that were analysed for ancient DNA including specimens associated with the Starcevo N1a1a1 Alsonyek Bataszek Mernoki telep 1 3 or 33 Linearbandkeramik N1a1a1a3 Szemely Hegyes 1 1 or 100 N1a1b N1a1a3 N1a1a1a2 N1a1a1 N1a1a1a Halberstadt Sonntagsfeld 6 22 or 27 Alfold Linear Pottery N1a1a1 Hejokurt Lidl 1 2 or 50 Transdanubian Late Neolithic N1a1a1a Apc Berekalja 1 1 or 100 Protoboleraz N1a1a1a3 Abony Turjanyos dulo 1 4 or 25 Iberia Early Neolithic cultures N1a1a1 Els Trocs 1 4 or 25 14 Rinaldone Gaudo Eneolithic cultures N1a1a1a3 Monte San Biagio 1 1 or 100 15 Distribution editHaplogroup N1a is widely distributed throughout Europe Northeast Africa the Near East and Central Asia It is divided into the European Central Asian and African South Asian branches based on specific genetic markers Near East edit Relatively high frequencies of N1a are found in the modern population of Saudi Arabia Estimates range from 2 4 16 to 4 17 Regional analysis revealed that the haplogroup was most common in the center of the country Haplotype diversity is noted for being higher here than elsewhere 4 Frequencies of N1a in Yemen are relatively high with estimates varying by study 3 6 16 5 2 18 and 6 9 17 Yemen is noted for high haplotype diversity within the population 4 18 Elsewhere in the Near East prevalence of N1a is lower A 2008 article cited population frequencies of 1 1 in Qatar 0 3 in Iran and 0 2 in Turkey 16 Europe edit N1a is a rare haplogroup that currently appears in only 0 2 of European populations 5 Pockets of higher frequencies exist such as in Croatia where 0 7 of mainland Croatians 19 9 24 of the population on the island of Cres 20 and 1 9 of the population on the island of Brac are members of N1a In the Volga Ural region of Russia N1a is most prominent in the Komi Permyaks 9 5 followed by the Bashkirs 3 6 Chuvash 1 8 and Tatars 0 4 21 In another study of Volga Tatars haplogroup N1a was found in 1 6 2 126 of a sample of Mishar Tatars from Buinsk in western Tatarstan 1 126 N1a1a1a1 1 126 N1a3a3 but it was not observed in a sample of 71 Kazan Tatars from Aznakayevo in eastern Tatarstan yielding an overall figure of 1 0 N1a 2 197 among Volga Tatars 22 Russia as a whole has a frequency of 0 7 23 A study of 542 individuals in Portugal found an N1a frequency of 0 37 Only 0 11 of individuals analyzed in Scotland were members of the haplogroup 24 Asia edit Analysis of modern Siberian populations revealed a 1 2 prevalence in Altaians 0 2 in the Buryats 25 and 0 9 in the Khanty people 26 In India N1a was identified in 4 members of the Havik group 2 members from Andhra Pradesh 5 2 members from West Bengal and 1 member from Tamil Nadu 1 The members of the Havik group belong to the African South Asian branch while one member from Andhra Pradesh and others from West Bengal and Tamil Nadu belong to the European Branch Haplogroup N1a1 has been observed in 2 9 4 138 of a sample of Kyrgyz from Kizilsu Kyrgyz Autonomous Prefecture Xinjiang China 27 Africa edit N1a is concentrated among Afro Asiatic speaking populations in Northeast Africa occurring in Eritrea Ethiopia Kenya Tanzania Somalia and Sudan The clade also occurs at very low frequencies among a few neighboring groups due to historical interactions 5 28 In Sudan it is found among the Arakien 5 9 and Nubians 3 4 28 In Ethiopia 2 2 of the population are N1a carriers with the haplogroup identified amongst Semitic speakers 18 In Egypt N1a has been observed in 0 8 of inhabitants 16 In Kenya the haplogroup is carried by around 10 of the Cushitic speaking Rendille as well as 1 of the Maasai 29 Some N1a has also been observed in Tanzania 5 Additionally haplogroup N1a is found among the Socotri 6 2 30 Subclades editTree edit This phylogenetic tree of haplogroup N1a subclades is based on the paper by Mannis van Oven and Manfred Kayser Updated comprehensive phylogenetic tree of global human mitochondrial DNA variation 2 and subsequent published research 31 N N1 5 N1 N1a c d e I N1a d e I N1a e I N1a N1a1 N1a1a N1a1a1 N1a1a1a N1a1a2 N1a1a3 N1a1b The tree of N1a has two distinct branches Africa South Asia and Europe with a Central Asian subcluster 5 25 However the African branch has members in southern Europe and the European branch has members in Egypt and the Near East The Africa South Asia branch is characterized by the 16147G mutation whereas the European branch is characterized by 16147A 3336 and 16320 The Central Asian subcluster is an offshoot of the European branch that is characterized by marker 16189 Subclade N1a1 is associated with mutation 16147A 1 4 Palanichamy calculates N1a1 to have emerged between 8900 and 22400 YBP Years Before Present Subclade N1a1a is denoted by marker 16320 and is therefore associated with the European N1a branch Petraglia estimates that N1a1a arose between 11000 and 25000 YBP See also editGenealogical DNA test Genetic Genealogy Human mitochondrial genetics Population Genetics Human mitochondrial DNA haplogroups Phylogenetic tree of human mitochondrial DNA mtDNA haplogroups Mitochondrial Eve L L0 L1 6 L1 L2 L3 L4 L5 L6 M N CZ D E G Q O A S R I W X Y C Z B F R0 pre JT P U HV JT K H V J TReferences edit a b c d e Palanichamy Malliya Gounder Zhang Cai Ling Mitra Bikash Malyarchuk Boris Derenko Miroslava Chaudhuri Tapas Kumar Zhang Ya Ping 12 October 2010 Mitochondrial haplogroup N1a phylogeography with implication to the origin of European farmers BMC Evolutionary Biology 10 1 304 Bibcode 2010BMCEE 10 304P doi 10 1186 1471 2148 10 304 ISSN 1471 2148 PMC 2964711 PMID 20939899 a b Van Oven Mannis Kayser Manfred 13 October 2008 2009 Updated comprehensive phylogenetic tree of global human mitochondrial DNA variation Human Mutation 30 2 E386 94 doi 10 1002 humu 20921 ISSN 1098 1004 PMID 18853457 S2CID 27566749 Richards Martin Macaulay Vincent Hickey Eileen Vega Emilce Sykes Bryan Guida Valentina Rengo Chiara Sellitto Daniele et al 16 October 2000 Tracing European Founder Lineages in the Near Eastern mtDNA Pool American Journal of Human Genetics 67 5 1251 76 doi 10 1016 S0002 9297 07 62954 1 ISSN 0002 9297 PMC 1288566 PMID 11032788 a b c d Petraglia Michael Rose Jeffrey 2009 The Evolution of Human Populations in Arabia Paleoenvironments Prehistory and Genetics Springer pp 82 3 ISBN 978 90 481 2719 1 a b c d e f Haak Wolfgang Forster Peter Bramanti Barbara Matsumura Shuichi Brandt Guido Tanzer Marc Villems Richard Renfrew Colin et al 2005 Ancient DNA from the First European Farmers in 7500 Year Old Neolithic Sites Science 310 5750 1016 8 Bibcode 2005Sci 310 1016H doi 10 1126 science 1118725 ISSN 1095 9203 PMID 16284177 S2CID 11546893 Haak Wolfgang Balanovsky Oleg Sanchez Juan Koshel Sergey Zaporozhchenko Valery Adler Christina Der Sarkissian Clio Brandt Guido et al 2010 Penny David ed Ancient DNA from European Early Neolithic Farmers Reveals Their Near Eastern Affinities PLOS Biology 8 11 e1000535 doi 10 1371 journal pbio 1000536 ISSN 1544 9173 PMC 2976717 PMID 21085689 a b Bramanti Barbara Thomas M Haak Wolfgang Unterlaender M Jores P Tambets K Antanaitis Jacobs I Haidle M et al 2009 Genetic Discontinuity Between Local Hunter Gatherers and Central Europe s First Farmers Science 326 5949 137 40 Bibcode 2009Sci 326 137B doi 10 1126 science 1176869 PMID 19729620 S2CID 206521424 Ammerman Albert J Pinhasi Ron Banffy Eszter 2006 Comment on Ancient DNA from the First European Farmers in 7500 Year Old Neolithic Sites Science 312 5782 1875 Bibcode 2006Sci 312 A doi 10 1126 science 1123936 PMID 16809513 Burger Joachim Gronenborn Detlef Forster Peter Matsumura Shuichi Bramanti Barbara Haak Wolfgang 2006 Response to Comment on Ancient DNA from the First European Farmers in 7500 Year Old Neolithic Sites Science 312 5782 1875 Bibcode 2006Sci 312 B doi 10 1126 science 1123984 S2CID 220083496 a b Deguilloux Marie France Soler Ludovic Pemonge Marie Helene Scarre Chris Joussaume Roger Laporte Luc 2010 News from the west Ancient DNA from a French megalithic burial chamber American Journal of Physical Anthropology 144 1 108 18 doi 10 1002 ajpa 21376 PMID 20717990 Ricaut FX Keyser Tracqui C Bourgeois J Crubezy E Ludes B 2004 Genetic analysis of a Scytho Siberian skeleton and its implications for ancient Central Asian migrations Human Biology 76 1 109 25 doi 10 1353 hub 2004 0025 PMID 15222683 S2CID 35948291 Tomory Gyongyver Csanyi Bernadett Bogacsi Szabo Erika Kalmar Tibor Czibula Agnes Csosz Aranka Priskin Katalin Mende Balazs et al 2007 Comparison of maternal lineage and biogeographic analyses of ancient and modern Hungarian populations PDF American Journal of Physical Anthropology 134 3 354 68 doi 10 1002 ajpa 20677 PMID 17632797 S2CID 1359107 Melchior Linea Lynnerup Niels Siegismund Hans R Kivisild Toomas Dissing Jorgen Hofreiter Michael 2010 Hofreiter Michael ed Genetic Diversity among Ancient Nordic Populations PLOS ONE 5 7 e11898 Bibcode 2010PLoSO 511898M doi 10 1371 journal pone 0011898 PMC 2912848 PMID 20689597 Mark Lipson et al 2017 Parallel palaeogenomic transects reveal complex genetic history of early European farmers Nature 551 7680 368 372 Bibcode 2017Natur 551 368L doi 10 1038 nature24476 PMC 5973800 PMID 29144465 Retrieved 1 November 2017 Antonio Margaret L Gao Ziyue M Moots Hannah 2019 Ancient Rome A genetic crossroads of Europe and the Mediterranean Science 366 6466 Washington D C American Association for the Advancement of Science published November 8 2019 708 714 Bibcode 2019Sci 366 708A doi 10 1126 science aay6826 hdl 2318 1715466 PMC 7093155 PMID 31699931 a b c d Abu Amero Khaled K Larruga Jose M Cabrera Vicente M Gonzalez Ana M 2008 Mitochondrial DNA structure in the Arabian Peninsula BMC Evolutionary Biology 8 1 45 Bibcode 2008BMCEE 8 45A doi 10 1186 1471 2148 8 45 PMC 2268671 PMID 18269758 a b Abu Amero Khaled K Gonzalez Ana M Larruga Jose M Bosley Thomas M Cabrera Vicente M 2007 Eurasian and African mitochondrial DNA influences in the Saudi Arabian population BMC Evolutionary Biology 7 32 doi 10 1186 1471 2148 7 32 PMC 1810519 PMID 17331239 a b c Kivisild T Reidla M Metspalu E Rosa A Brehm A Pennarun E Parik J Geberhiwot T et al 2004 Ethiopian Mitochondrial DNA Heritage Tracking Gene Flow Across and Around the Gate of Tears The American Journal of Human Genetics 75 5 752 70 doi 10 1086 425161 PMC 1182106 PMID 15457403 Pericic Marijana Barac Lovorka Lauc Irena Martinovic Klaric Branka Janicijevic Pavao Rudan 2005 Review of Croatian genetic heritage as revealed by mitochondrial DNA and Y chromosomal lineages PDF Croatian Medical Journal 46 4 502 13 PMID 16100752 Jeran N Havas Augustin D Grahovac B Kapovic M Metspalu E Villems R Rudan P 2009 Mitochondrial DNA heritage of Cres Islanders example of Croatian genetic outliers Collegium Antropologicum 33 4 1323 8 PMID 20102088 Bermisheva M A Tambets K Villems R Khusnutdinova E K 2002 Diversity of Mitochondrial DNA Haplogroups in Ethnic Populations of the Volga Ural Region PDF Molecular Biology 36 6 802 12 doi 10 1023 A 1021677708482 S2CID 16959586 Archived from the original PDF on 2009 11 22 Malyarchuk B Derenko M Denisova G et al 2010 Phylogeography of the Y chromosome haplogroup C in northern Eurasia Annals of Human Genetics 74 6 539 546 doi 10 1111 j 1469 1809 2010 00601 x PMID 20726964 S2CID 40763875 Malyarchuk Boris Derenko Miroslava Denisova Galina Kravtsova Olga 10 May 2010 Mitogenomic Diversity in Tatars from the Volga Ural Region of Russia Molecular Biology and Evolution 27 10 2220 6 doi 10 1093 molbev msq065 ISSN 0737 4038 PMID 20457583 Gonzalez Ana M Brehm Antonio Perez Jose A Maca Meyer Nicole Flores Carlos Cabrera Vicente M 2003 Mitochondrial DNA affinities at the Atlantic fringe of Europe American Journal of Physical Anthropology 120 4 391 404 doi 10 1002 ajpa 10168 PMID 12627534 a b Derenko M Malyarchuk B Grzybowski T Denisova G Dambueva I Perkova M Dorzhu C Luzina F et al 2007 Phylogeographic Analysis of Mitochondrial DNA in Northern Asian Populations The American Journal of Human Genetics 81 5 1025 41 doi 10 1086 522933 PMC 2265662 PMID 17924343 Pimenoff Ville N Comas David Palo Jukka U Vershubsky Galina Kozlov Andrew Sajantila Antti 2008 Northwest Siberian Khanty and Mansi in the junction of West and East Eurasian gene pools as revealed by uniparental markers European Journal of Human Genetics 16 10 1254 64 doi 10 1038 ejhg 2008 101 PMID 18506205 S2CID 19488203 Guo Y Xia Z Cui W Chen C Jin X Zhu B Joint Genetic Analyses of Mitochondrial and Y Chromosome Molecular Markers for a Population from Northwest China Genes 2020 11 564 doi 10 3390 genes11050564 a b Mohamed Hisham Yousif Hassan Genetic Patterns of Y chromosome and Mitochondrial DNA Variation with Implications to the Peopling of the Sudan PDF University of Khartoum Retrieved 16 April 2016 Castri Loredana Garagnani Paolo Useli Antonella Pettener Davide Luiselli Donata 2008 Kenyan crossroads migration and gene flow in six ethnic groups from Eastern Africa PDF Journal of Anthropological Sciences 86 189 92 ISSN 1827 4765 PMID 19934476 Retrieved 28 Feb 2011 Cerny Viktor et al 2009 Out of Arabia the settlement of island Soqotra as revealed by mitochondrial and Y chromosome genetic diversity PDF American Journal of Physical Anthropology 138 4 439 447 doi 10 1002 ajpa 20960 PMID 19012329 Archived from the original PDF on 6 October 2016 Retrieved 14 June 2016 Van Oven Mannis Kayser Manfred 2009 Updated comprehensive phylogenetic tree of global human mitochondrial DNA variation Human Mutation 30 2 E386 94 doi 10 1002 humu 20921 PMID 18853457 S2CID 27566749 External links editMannis van Oven s PhyloTree mitosearch Archived 2011 02 25 at the Wayback Machine Ian Logan s Mitochondrial DNA Site Haplogroup N including N1a1 N1a1b N1a1b1 Ian Logan s Mitochondrial DNA Site Haplogroup N1a1a Ian Logan s Mitochondrial DNA Site Haplogroup N1a3 Retrieved from https en wikipedia org w index php title Haplogroup N1a mtDNA amp oldid 1197512119, 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