<%@LANGUAGE="JAVASCRIPT" CODEPAGE="65001"%> Haplogroup N (mtDNA)

In human mitochondrial genetics, Haplogroup N is a human mitochondrial DNA haplogroup. An enormous haplogroup spanning many continents, the macro-haplogroup N, like its sibling M, is a descendant of haplogroup L3.

All mtDNA haplogroups found outside of Africa are descendants of either haplogroup N or its sibling haplogroup M. M and N are the signature haplogroups that define the out of Africa migration and the subsequent spread to rest of the world. The global distribution of haplogroups N and M, indicates that very likely, there was one particularly major prehistoric migration of humans out of Africa, and both N and M were part of the same colonization process.

Possible Time of Origin: Approx. 71,000 YBP

Possible Place of Origin: Asia or East Africa

Ancestor: L3

Defining Mutations: 8701, 9540, 10398, 10873, 15301

Origins: There is widespread agreement in the scientific community concerning the African ancestry of haplogroup L3 (haplogroup N's parent clade). However, whether or not the mutations which define haplogroup N itself first occurred within Asia or Africa has been a subject for ongoing discussion and study.

The out of Africa hypothesis has gained generalized consensus. However, many specific questions remain unsettled. To know whether the two M and N macrohaplogroups that colonized Eurasia were already present in Africa before the exit is puzzling.

Torroni et al. 2006 state that Haplogroups M, N and R occurred somewhere between East Africa and the Persian Gulf.

Also related to the origins of haplogroup N is whether ancestral haplogroups M, N and R were part of the same migration out of Africa, or whether Haplogroup N left Africa via the Northern route through the Levant, and M left Africa via Horn of Africa. This theory was suggested because haplogroup N is by far the predominant haplogroup in Western Eurasia, and haplogroup M is absent in Western Eurasia, but is predominant in India and is common in regions East of India. However, the mitochondrial DNA variation in isolated "relict" populations in southeast Asia and among Indigenous Australians supports the view that there was only a single dispersal from Africa. Southeast Asian populations and Indigenous Australians all possess deep rooted clades of both haplogroups M and N. The distribution of the earliest branches within haplogroups M, N, and R across Eurasia and Oceania therefore supports a three-founder-mtDNA scenario and a single migration route out of Africa. These findings also highlight the importance of Indian subcontinent in the early genetic history of human settlement and expansion.

Asian Origin Hypothesis: The hypothesis of Asia as the place of origin of haplogroup N is supported by the following:

  1. Haplogroup N is found in all parts of the world but has low frequencies in Sub-Saharan Africa. According to a number of studies, the presence of Haplogroup N in Africa is most likely the result of back migration from Eurasia.
  2. The oldest clades of macrohaplogroup N are found in Asia and Australia.
  3. It would be paradoxical that haplogroup N had traveled all the distance to Australia or New World yet failed to affect other populations within Africa besides North Africans and Horn Africans.
  4. N1 is the only sub-clade of haplogroup N that has been observed in Africa. However N1a is the only one in East Africa: this haplogroup is even younger and is not restricted to Africa, N1a has also been detected in Southern Siberia and was found in a 2,500-year-old Scytho-Siberian burial in the Altai region.

African Origin Hypothesis: According to Toomas Kivisild "the lack of L3 lineages other than M and N in India and among non-African mitochondria in general suggests that the earliest migration(s) of modern humans already carried these two mtDNA ancestors, via a departure route over the Horn of Africa.

Distribution: Haplogroup N is derived from the ancestral L3 haplotype that represents the 'Out of Africa' migration. Haplogroup N is the ancestral haplogroup to almost all European and Oceanian haplogroups in addition to many Asian and Amerindian ones. It is believed to have arisen at a similar time to haplogroup M. Subclades such as Haplogroup U6, are also found at moderate to low frequencies in the Northwest and East Africa, due to a back migration from Asia around 35,000 years ago.

In Popular Science: In the book The Real Eve, Stephen Oppenheimer refers to haplogroup N as "Nasreen" as haplogroup N may have arisen near the Persian Gulf. In his popular book The Seven Daughters of Eve, Bryan Sykes named the originator of this mtDNA haplogroup "Naomi".

Subgroups Distribution: Its derived haplogroups include the macro-haplogroup R (and its descendants) and haplogroups A, I, S, W, X, and Y.

  • Haplogroup N1'5
    • Haplogroup N1 - found in West Eurasia.
      • Haplogroup N1b - found in Middle East, Egypt, Caucasus and Europe
      • N1a'c'd'e'I
        • Haplogroup N1c - Northern Saudi Arabia, Turkey
        • N1a'd'e'I
          • Haplogroup N1d - Hindustan
          • N1a'e'I
            • Haplogroup N1a - Arabian Peninsula, Tanzania, Kenya, Ethiopia and Egypt. Found also in Central Asia and Southern Siberia.
            • N1e'I
    • Haplogroup N5 - found in India.
  • Haplogroup N2
    • Haplogroup N2a - small clade found in West Europe.
    • Haplogroup W - found in Western Eurasia and South Asia
  • Haplogroup N9 - found in Far East.
  • Haplogroup O or N12- found in Australia and Flores, Indonesia.
  • Haplogroup N13 - Australia
  • Haplogroup N14 - Australia
  • Haplogroup N21 - In Malays from Malaysia and Indonesia.
  • Haplogroup N22 - Southeast Asia
  • Haplogroup A - found in Central and East Asia, as well as among Native Americans.
  • Haplogroup S - extended among Australian Aborigines
  • Haplogroup X - most common in Western Eurasia.
    • Haplogroup X1 - found primarily in North Africa as well as in some populations of the Levant, notably among Druzes
    • Haplogroup X2 - found in Western Eurasia, Siberia and among Native Americans
  • Haplogroup R - a very extended and diversified macro-haplogroup.

Additionally there are several unnamed N* lineages in South Asia, Australia and among the Ket people of central Siberia.

Tree: This phylogenetic tree of haplogroup N subclades is based on the paper by Mannis van Oven and Manfred Kayser Updated comprehensive phylogenetic tree of global human mitochondrial DNA variation and subsequent published research.

 

N

  • N1'5
    • N1
      • N1a'c'd'e'I
        • N1a'd'e'I
          • N1a'e'I
            • N1a
              • N1a1
                • N1a1a
            • N1e'I
              • I
              • N1e
          • N1d
        • N1c
      • N1b
        • N1b1
          • N1b1a
          • N1b1b
          • N1b1c
            • N1b1d
        • N1b2
    • N5
  • N2
    • N2a
    • W
  • N9
    • N9a
      • N9a1'3
        • N9a1
        • N9a3
      • N9a2'4'5
        • N9a2
          • N9a2a'b
            • N9a2a
            • N9a2b
          • N9a2c
          • N9a2d
        • N9a4
        • N9a5
      • N9a6
        • N9a6a
    • N9b
      • N9b1
        • N9b1a
        • N9b1b
        • N9b1c
          • N9b1c1
      • N9b2
      • N9b3
    • Y
  • N13
  • N14
  • N21
  • N22
  • A
  • O
    • O1
  • S
  • X
  • R

 

 

* Human Mitochondrial DNA Haplogroup R in India by Karmin, Monika

A Skeleton of the Global Phylogenetic Tree

Colours: green - haplogroups specific for Indian subcontinent; yellow - Eastern Eurasian haplogroups; blue - Western Eurasian haplogroups; orange - Orang Asli haplogroups (Malaysian tribes); turquoise - haplogroups on Andaman Island; brown - Near Oceania; pink - African haplogroups.

 

Two Proposed Routes Out of Africa - the Northern and the Southern route

 

* Phylogeny of Mitochondrial DNA Macrohaplogroup N in India, Based on Complete Sequencing: Implications for the Peopling of South Asia by Malliya gounder Palanichamy, et al.

Abstract: To resolve the phylogeny of the autochthonous mitochondrial DNA (mtDNA) haplogroups of India and determine the relationship between the Indian and western Eurasian mtDNA pools more precisely, a diverse subset of 75 macrohaplogroup N lineages was chosen for complete sequencing from a collection of 1800 control-region sequences sampled across India. We identified five new autochthonous haplogroups (R7, R8, R30, R31, and N5) and fully characterized the autochthonous haplogroups (R5, R6, N1d, U2a, U2b, and U2c) that were previously described only by first hypervariable segment (HVS-I) sequencing and coding-region restriction-fragment–length polymorphism analysis. Our findings demonstrate that the Indian mtDNA pool, even when restricted to macrohaplogroup N, harbors at least as many deepest-branching lineages as the western Eurasian mtDNA pool. Moreover, the distribution of the earliest branches within haplogroups M, N, and R across Eurasia and Oceania provides additional evidence for a three-founder-mtDNA scenario and a single migration route out of Africa.