Haplogroup E-M2

Haplogroup E-M2 E3a / E1b1a
Possible time of origin 31,600 years BP[1]
Possible place of origin Western Africa or Central Africa
Ancestor E-V38
Descendants E-Z5994, E-V43
Defining mutations M2

Haplogroup E-M2 is a human Y-chromosome DNA haplogroup. It is primarily distributed in Africa. E-M2 is the predominant subclade in Western Africa, Central Africa, Southern Africa and the African Great Lakes, and occurs at moderate frequencies in North Africa and Middle East. E-M2 has several subclades, but many of these subhaplogroups are included in either E-L485 or E-U175.

Origins

The discovery of two SNPs (V38 and V100) by Trombetta et al. (2011) significantly redefined the E-V38 phylogenetic tree. This led the authors to suggest that E-V38 may have originated in East Africa. V38 joins the West African-affiliated E-M2 and the northern East African-affiliated E-M329 with an earlier common ancestor who, like E-P2, may have also originated in East Africa.[2] The downstreams SNP E-M180 possibly originated on the moist south-central Saharan savannah/grassland of northern Africa between 14,000-10,000 years BP.[3][4][5][6] According to Wood et al. (2005) and Rosa et al. (2007), such population movements changed the pre-existing population Y chromosomal diversity in Central, Southern and southern East Africa, replacing the previous haplogroups frequencies in these areas with the now dominant E1b1a1 lineages. Traces of earlier inhabitants, however, can be observed today in these regions via the presence of the Y DNA haplogroups A1a, A1b, A2, A3, and B-M60 that are common in certain populations, such as the Mbuti and Khoisan.[7][8][9]

Distribution

This haplogroup's frequency and diversity are highest in the West Africa region. Within Africa, E-M2 displays a west-to-east as well as a south-to-north clinal distribution. In other words, the frequency of the haplogroup decreases as one moves from western and southern Africa toward the eastern and northern parts of the continent.[10]

Incidence of E-M2
Population groupfrequencyReferences
Bamileke96%-100%[10][11]
Ewe97%[8]
Ga97%[8]
Yoruba93.1%[12]
Tutsi85%[10]
Fante84%[8]
Mandinka79%-87%[7][8]
Ovambo82%[8]
Senegalese81%[13]
Ganda77%[8]
Bijagós76%[7]
Balanta73%[7]
Fula73%[7]
Herero71%[8]
Nalú71%[7]

Populations on the North West Africa, central Eastern Africa and Madagascar have tested at more moderate frequencies.

Incidence of E-M2
Population groupfrequencyReferences
Tuareg from Tânout, Niger44.4% (8/18 subjects)[14]
Comorian Shirazi41%[15]
Tuareg from Gorom-Gorom, Burkina Faso16.6% (3/18)[14]
Tuareg from Gossi, Mali9.1% (1/9)[14]
Cape Verdeans15.9% (32/201)[16]
Maasai15.4% (4/26)[8]
Luo66% (6/9)[8]
Iraqw11.11% (1/9)[8]
Comoros23.46% (69/294)[17]
Merina people (also called Highlanders)44% (4/9)[18]
Antandroy69.6% (32/46)[18]
Antanosy48.9% (23/47)[18]
Antaisaka37.5% (3/8)[18]

E-M2 is found at low to moderate frequencies in North Africa, and northern East Africa. The some of the lineages found in these areas are possibly due to the Bantu expansion or other migrations.[10][19] The E-M2 marker that appeared in North African samples stem from the Ancient Indeginous Moors.[10] However, the discovery in 2011 of the E-M2 marker that predates E-M2 has led Trombetta et al. to suggest that E-M2 may have originated in East Africa (please refer to the Origins section for details). In Eritrea and most of Ethiopia (excluding the Anuak) E-V38 is usually only found in the form of E-M329, which is autochthonous, while E-M2 generally indicates Bantu migratory origins.[20][21][22]

Incidence of E-M2
Population groupfrequencyReferences
Tuareg from Al Awaynat and Tahala, Libya46.5% (20/43) [Note 1][23]
Oran, Algeria8.6% (8/93)[24]
Berbers, southern and north-central Morocco9.5% (6/63) 5.8% (4/69)[25][Note 2][26]
Moroccan Arabs6.8% (3/44) 1.9% (1/54)[25][26]
Saharawis3.5% (1/29)[25]
Egyptians1.4% (2/147), 0% (0/73), 8.33% (3/36)[10][27][28]
Tunisians1.4% (2/148)[28]
Sudanese (may include Hausa migrants)0.9% (4/445)[29]
Somalia nationals (may include Bantu minorities)1.5% (3/201)[19]
Somalis (ethnic Somalis)0% (0/108)[22]
Djiboutians (Somalis and Afars)0% (0/54)[20]
Eritreans (Tigray-Tigrinya, Tigre, Cunama, Nara, Saho)0% (0/161)[Note 3][20]
Ethiopians (Amhara, Oromo, Ethiopian Jews, Wolayta, Somali, Tigray, Other Ethiopians)0% (0/119)[Note 4][20]

Outside of Africa, E-M2 has been found at low frequencies. The clade has been found at low frequencies in West Asia. A few isolated occurrences of E-M2 have also been observed among populations in Southern Europe, such as Croatia, Malta, Spain and Portugal.[30] [31][32][33]

Incidence of E-M2 in Asia
Population groupfrequencyReferences
Saudi Arabians7.6% (12/157)

[34]

Omanis6.6% (8/121)[10]
Emiratis5.5% (9/164)[35]
Yemenis4.8% (3/62)[35]
Majorcans3.2% (2/62)[33]
Qataris4.2% (3/72)[35]
Southern Iranians1.7% (2/117)[36]
Iraqis1.4% (2/139)[37]
Pakistanis1.4% (9/638)[38]
Istanbul, Turkey1.2% (1/81)[39]

The Trans-Atlantic slave trade brought people to North America, Central America and South America including the Caribbean. Consequently, the haplogroup is often observed in the United States populations in men who self-identify as African Americans.[40] It has also been observed in a number of populations in Mexico, the Caribbean, Central America, and South America among people of African descent.

Incidence of E-M2 in populations of the Americas
Population groupfrequencyReferences
U.S. Americans7.7-7.9% [Note 5][40]
Cubans9.8% (13/132)[41]
Dominicans7.69% (2/26)[42]
Puerto Ricans19.23% (5/26)[42]
Nicaraguans5.5% (9/165)[43]
Several populations of Colombians6.18% (69/1116)[44]
Alagoas, Brazil4.45% (11/247)[45]
Bahia, Brazil19% (19/100)[46]
Bahamians58.63% (251/428)[47]

Subclades

E1b1a1

African spatial distribution of haplogroup E3a-M2. Rosa et al. (2007)

E1b1a1 is defined by markers DYS271/M2/SY81, M291, P1/PN1, P189, P293, V43, and V95.

E1b1a1a1

E1b1a1a1 is commonly defined by M180/P88. The basal subclade is quite regularly observed in M2+ samples.

E1b1a1a1a

E1b1a1a1a is defined by marker M58. 5% (2/37) of the town Singa-Rimaïbé, Burkina Faso tested positive for E-M58.[11] 15% (10/69) of Hutus in Rwanda tested positive for M58.[10] Three South Africans tested positive for this marker.[9] One Carioca from Rio de Janeiro, Brazil tested positive for the M58 SNP.[48] The place of origin and age is unreported.

E1b1a1a1b

E1b1a1a1b is defined by M116.2, a private marker. A single carrier was found in Mali.[9] [Note 6]

E1b1a1a1c

E1b1a1a1c is defined by private marker M149. This marker was found in a single South African.[9]

E1b1a1a1d

E1b1a1a1d is defined by a private marker M155. It is known from a single carrier in Mali.[9]

E1b1a1a1e

E1b1a1a1e is defined by markers M10, M66, M156 and M195. Wairak people in Tanzania tested 4.6% (2/43) positive for E-M10.[10] E-M10 was found in a single person of the Lissongo group in the Central African Republic and two members in a "Mixed" population from the Adamawa region.[9]

E1b1a1a1f

E1b1a1a1f is defined by L485. The basal node E-L485* appears to be somewhat uncommon but has not been sufficiently tested in large populations. The ancestral L485 SNP (along with several of its subclades) was very recently discovered. Some of these SNPs have little or no published population data and/or have yet to receive nomenclature recognition by the YCC.

  • E1b1a1a1f1 is defined by marker L514. This SNP is currently without population study data outside of the 1000 Genomes Project.
  • E1b1a1a1f1a (YCC E1b1a7) is defined by marker M191/P86. Filippo et al. (2011) studied a number of African populations that were E-M2 positive and found the basal E-M191/P86 (without E-P252/U174) in a population of Gur speakers in Burkina Faso.[49] Montano et al. (2011) found similar sparse distribution of E-M191* in Nigeria, Gabon, Cameroon and Congo.[6] M191/P86 positive samples occurred in tested populations of Annang (38.3%), Ibibio (45.6%), Efik (45%), and Igbo (54.3%) living in Nigeria, West Africa.[50] E-M191/P86 appears in varying frequencies in Central and Southern Africa but almost all are also positive for P252/U174. Bantu-speaking South Africans (89/343) tested 25.9% positive and Khoe-San speaking South Africans tested 7.7% (14/183) positive for this SNP.[51] It also appears commonly in Africans living in the Americas. A population in Rio de Janeiro, Brazil tested 9.2% (12/130) positive.[48] 34.9% (29/83) of American Haplogroup E men tested positive for M191.[40]
Veeramah et al. (2010) studies of the recombining portions of M191 positive Y chromosomes suggest that this lineage has "diffusely spread with multiple high frequency haplotypes implying a longer evolutionary period since this haplogroup arose".[50] The subclade E1b1a1a1f1a appears to express opposite clinal distributions to E1b1a1* in the West African Savanna region. Haplogroup E1b1a1a1f1a (E-M191) has a frequency of 23% in Cameroon (where it represents 42% of haplotypes carrying the DYS271 mutation or E-M2), 13% in Burkina Faso (16% of haplotypes carrying the M2/DYS271 mutation) and only 1% in Senegal.[13] Similarly, while E1b1a reaches its highest frequency of 81% in Senegal, only 1 of the 139 Senegalese that were tested showed M191/P86.[13] In other words, as one moves to West Africa from western Central Africa, the less subclade E1b1a1f is found. "A possible explanation might be that haplotype 24 chromosomes [E-M2*] were already present across the Sudanese belt when the M191 mutation, which defines haplotype 22, arose in central western Africa. Only then would a later demic expansion have brought haplotype 22 chromosomes from central western to western Africa, giving rise to the opposite clinal distributions of haplotypes 22 and 24."[11]
  • E1b1a1a1f1a1 (YCC E1b1a7a) is defined by P252/U174. It appears to be the most common subclade of E-L485. It is believed to have originated near western Central Africa. It is rarely found in the most western portions of West Africa. Montano et al. (2011) found this subclade very prevalent in Nigeria and Gabon.[6] Filippo et al. (2011) estimated a tMRCA of ~4.2 kya from sample of Yoruba population positive for the SNP.[49]
  • E1b1a1a1f1a1b (YCC E1b1a7a2) is defined by P115. This subclade has only been observed amongst Fang people of Central Africa.[6]
  • E1b1a1a1f1a1c (YCC E1b1a7a3) is defined by P116. Montano et al. (2011) observed this SNP only in Gabon and a Bassa population from Cameroon.[6]
  • E1b1a1a1f1a1d is defined by Z1704. This subclade has been observed across Africa. The 1000 Genomes Project Consortium found this SNP in Yoruba Nigerian, three Kenyan Luhyas and one African descent Puerto Rican.[52]
  • E1b1a1a1f1b is defined by markers L515, L516, L517, and M263.2. This subclade was found by the researchers of Y-Chromosome Genome Comparison Project using data from the commercial bioinformatics company 23andMe.[53]

E1b1a1a1g

E1b1a1a1g (YCC E1b1a8) is defined by marker U175. The basal E-U175* is extremely rare. Montano et al. (2011) only found one out of 505 tested African subjects who was U175 positive but negative for U209.[6] Brucato et al. found similarly low frequencies of basal E-U175* in subjects in the Ivory Coast and Benin. Veeramah et al. (2010) found U175 in tested Annang (45.3%), Ibibio (37%), Efik (33.3%), and Igbo (25.3%) but did not test for U209.[50]

The supposed "Bantu haplotype" found in E-U175 carriers is "present at appreciable frequencies in other Niger–Congo languages speaking peoples as far west as Guinea-Bissau".[50] This is the modal haplotype of STR markers that is common in carriers of E-U175.[Note 7]

E-U175 haplotype DYS19 DYS388 DYS390 DYS391 DYS392 DYS393
151221101113

E1b1a1a1g has several subclades.

  • E1b1a1a1g1 (YCC E1b1a8a) is defined by U209. It is the most prominent subclade of U175. This subclade has very high frequencies of over fifty percentages in Cameroonian populations of Bassa and Bakaka, possibly indicating place of origin. However, E-U209 is widely found at lower frequencies in West and Central African countries surrounding Cameroon and Gabon.[6] Brucato et al. (2010) found the SNP in a populations of Ahizi (in Ivory Coast) 38.8% (19/49), Yacouba (Ivory Coast) 27.5% (11/40), and Beninese 6.5% (5/77) respectively.[54]
  • E1b1a1a1g1a (YCC E1b1a8a1) is defined by U290. The Montano et al. (2011) study of U290 showed a lower frequency in Nigeria (11.7%) and western Central Africa than basal node U209. The highest population frequency rate in that study was 57.7% (15/26) in Ewondo in Cameroon.[6] 32.5% (27/83) of American Haplogroup E men tested by Sims et al. (2007) were positive for this SNP.[40]
  • E1b1a1a1g1a2 is defined by Z1725. This marker has been observed by The 1000 Genomes Project Consortium in Yoruba Nigerians and Luhya Kenyans.[52]
  • E1b1a1a1g1c (YCC E1b1a4) is defined by M154. A Bamilike population tested 31.3% (15/48) for the marker. Bakaka speakers from Cameroon tested 8%.[11] An Ovimbundu test population found this SNP at 14% (14/100).[55] Members of this subclade have also been found in South Africa.[56][51]
  • E1b1a1a1g1d is defined by V39. Trombetta et al. first published this SNP in 2011 but gave little population data about it.[2] It is only known to have been found in an African population.

E1b1a1a1h

E1b1a1a1h is defined by markers P268 and P269. It was first reported in a person from the Gambia.[57]

Phylogenetics

Phylogenetic history

Prior to 2002, there were in academic literature at least seven naming systems for the Y-Chromosome Phylogenetic tree. This led to considerable confusion. In 2002, the major research groups came together and formed the Y-Chromosome Consortium (YCC). They published a joint paper that created a single new tree that all agreed to use. Later, a group of citizen scientists with an interest in population genetics and genetic genealogy formed a working group to create an amateur tree aiming at being above all timely. The table below brings together all of these works at the point of the landmark 2002 YCC Tree. This allows a researcher reviewing older published literature to quickly move between nomenclatures.

YCC 2002/2008 (Shorthand) (α) (β) (γ) (δ) (ε) (ζ) (η) YCC 2002 (Longhand) YCC 2005 (Longhand) YCC 2008 (Longhand) YCC 2010r (Longhand) ISOGG 2006 ISOGG 2007 ISOGG 2008 ISOGG 2009 ISOGG 2010 ISOGG 2011 ISOGG 2012
E-P2921III3A13Eu3H2BE*EEEEEEEEEE
E-M3321III3A13Eu3H2BE1*E1E1aE1aE1E1E1aE1aE1aE1aE1a
E-M4421III3A13Eu3H2BE1aE1aE1a1E1a1E1aE1aE1a1E1a1E1a1E1a1E1a1
E-M7521III3A13Eu3H2BE2aE2E2E2E2E2E2E2E2E2E2
E-M5421III3A13Eu3H2BE2bE2bE2bE2b1-------
E-P225III414Eu3H2BE3*E3E1bE1b1E3E3E1b1E1b1E1b1E1b1E1b1
E-M28III515Eu2H2BE3a*E3aE1b1E1b1aE3aE3aE1b1aE1b1aE1b1aE1b1a1E1b1a1
E-M588III515Eu2H2BE3a1E3a1E1b1a1E1b1a1E3a1E3a1E1b1a1E1b1a1E1b1a1E1b1a1a1aE1b1a1a1a
E-M116.28III515Eu2H2BE3a2E3a2E1b1a2E1b1a2E3a2E3a2E1b1a2E1b1a2E1ba12removedremoved
E-M1498III515Eu2H2BE3a3E3a3E1b1a3E1b1a3E3a3E3a3E1b1a3E1b1a3E1b1a3E1b1a1a1cE1b1a1a1c
E-M1548III515Eu2H2BE3a4E3a4E1b1a4E1b1a4E3a4E3a4E1b1a4E1b1a4E1b1a4E1b1a1a1g1cE1b1a1a1g1c
E-M1558III515Eu2H2BE3a5E3a5E1b1a5E1b1a5E3a5E3a5E1b1a5E1b1a5E1b1a5E1b1a1a1dE1b1a1a1d
E-M108III515Eu2H2BE3a6E3a6E1b1a6E1b1a6E3a6E3a6E1b1a6E1b1a6E1b1a6E1b1a1a1eE1b1a1a1e
E-M3525III414Eu4H2BE3b*E3bE1b1b1E1b1b1E3b1E3b1E1b1b1E1b1b1E1b1b1removedremoved
E-M7825III414Eu4H2BE3b1*E3b1E1b1b1aE1b1b1a1E3b1aE3b1aE1b1b1aE1b1b1aE1b1b1aE1b1b1a1E1b1b1a1
E-M14825III414Eu4H2BE3b1aE3b1aE1b1b1a3aE1b1b1a1c1E3b1a3aE3b1a3aE1b1b1a3aE1b1b1a3aE1b1b1a3aE1b1b1a1c1E1b1b1a1c1
E-M8125III414Eu4H2BE3b2*E3b2E1b1b1bE1b1b1b1E3b1bE3b1bE1b1b1bE1b1b1bE1b1b1bE1b1b1b1E1b1b1b1a
E-M10725III414Eu4H2BE3b2aE3b2aE1b1b1b1E1b1b1b1aE3b1b1E3b1b1E1b1b1b1E1b1b1b1E1b1b1b1E1b1b1b1aE1b1b1b1a1
E-M16525III414Eu4H2BE3b2bE3b2bE1b1b1b2E1b1b1b1b1E3b1b2E3b1b2E1b1b1b2aE1b1b1b2aE1b1b1b2aE1b1b1b2aE1b1b1b1a2a
E-M12325III414Eu4H2BE3b3*E3b3E1b1b1cE1b1b1cE3b1cE3b1cE1b1b1cE1b1b1cE1b1b1cE1b1b1cE1b1b1b2a
E-M3425III414Eu4H2BE3b3a*E3b3aE1b1b1c1E1b1b1c1E3b1c1E3b1c1E1b1b1c1E1b1b1c1E1b1b1c1E1b1b1c1E1b1b1b2a1
E-M13625III414Eu4H2BE3ba1E3b3a1E1b1b1c1aE1b1b1c1a1E3b1c1aE3b1c1aE1b1b1c1a1E1b1b1c1a1E1b1b1c1a1E1b1b1c1a1E1b1b1b2a1a1

Research publications

The following research teams per their publications were represented in the creation of the YCC tree.

Tree

This phylogenetic tree of haplogroup subclades is based on the Y-Chromosome Consortium (YCC) 2008 Tree,[57] the ISOGG Y-DNA Haplogroup E Tree,[4] and subsequent published research.

    • E1b1a1 (DYS271/M2/SY81, M291, P1/PN1, P189, P293, V43, V95, Z1101, Z1107, Z1116, Z1120, Z1122, Z1123, Z1124, Z1125, Z1127, Z1130, Z1133) [Note 8]
      • E1b1a1a (L576)
        • E1b1a1a1 (L86.1, L88.3, M180/P88, PAGES00066, P182, Z1111, Z1112)
          • E1b1a1a1a (M58, PAGES00027)
          • E1b1a1a1b (M116.2)
          • E1b1a1a1c (M149)
          • E1b1a1a1d (M155)
          • E1b1a1a1e (M10, M66, M156, M195)
          • E1b1a1a1f (L485)
            • E1b1a1a1f1 (L514)
              • E1b1a1a1f1a (M191/P86, P253/U247, U186, Z1712, rs9786041)
                • E1b1a1a1f1a1 (P252/U174)
                  • E1b1a1a1f1a1a (P9.2)
                  • E1b1a1a1f1a1b (P115)
                  • E1b1a1a1f1a1c (P116)
                    • E1b1a1a1f1a1c1 (P113)
                  • E1b1a1a1f1a1d (Z1704)
                  • (L372)
              • E1b1a1a1f1b (L515, L516, L517, M263.2)
                • E1b1a1a1f1b1 (Z1893)
                  • (Z1894)
          • E1b1a1a1g (U175)
            • E1b1a1a1g1 (L220.3, L652, P277, P278.1, U209, rs7067329, rs7474403, rs7893016)
              • E1b1a1a1g1a (U290)
                • E1b1a1a1g1a1 (U181)
                  • E1b1a1a1g1a1a (L97)
                • E1b1a1a1g1a2 (Z1725)
              • E1b1a1a1g1b (P59)
              • E1b1a1a1g1c (M154)
              • E1b1a1a1g1d (V39)
          • E1b1a1a1h (P268, P269)
Phylogenetic tree of human Y-chromosome DNA haplogroups [χ 1][χ 2]
"Y-chromosomal Adam"
A00 A0-T [χ 3]
A0 A1 [χ 4]
A1a A1b
A1b1 BT
B CT
DE CF
D E C F
F1  F2  F3  GHIJK
G HIJK
IJK H
IJ K
I   J     LT [χ 5]       K2 [χ 6]
L     T    K2a [χ 7]        K2b [χ 8]     K2c     K2d K2e [χ 9]  
K-M2313 [χ 10]     K2b1 [χ 11] P [χ 12]
NO   S [χ 13]  M [χ 14]    P1     P2
N O Q R

See also

Genetics

Y-DNA E subclades

Notes

  1. All were positive for U175.
  2. The publication refers to E-V38 as H22.
  3. All E-M329, no E-M2 in this Eritrean data set
  4. All E-M329, no E-M2 in this Ethiopian data set
  5. E-M2 is approximately 7.7-7.9% of total US male population.
  6. The publication transposes M116.2 with M116.1 in Table 1.
  7. The YCAII STR marker value of 19-19 is also usually indicative of U175.
  8. DYS271/M2/SY81, P1/PN1, P189, P293, and M291 appear to form E1b1a1*. L576 forms a subclade immediately after the previously mentioned SNPs. L576 gave rise to a deeper subclade of M180/P88, P182, L88.3, L86, and PAGES0006. From this subclade, all the major subclades (i.e. E-U175 and E-L485) of E1b1a evolved. The exact position of V43 and V95 within these three subclades and E1b1a1a1b (M116.2), E1b1a1a1c (M149), and E1b1a1a1d (M155) remains uncertain.

References

  1. https://www.yfull.com/tree/E-M2/
  2. 1 2 Trombetta, Beniamino; Fulvio Cruciani; Daniele Sellitto; Rosaria Scozzari (6 January 2011). MacAulay, Vincent, ed. "A New Topology of the Human Y Chromosome Haplogroup E1b1 (E-P2) Revealed through the Use of Newly Characterized Binary Polymorphisms". PLoS ONE. 6 (1): e16073. doi:10.1371/journal.pone.0016073. PMC 3017091. PMID 21253605. Retrieved 7 January 2010.
  3. https://www.yfull.com/tree/E-V43/
  4. 1 2 International Society of Genetic Genealogy (3 February 2010). "Y-DNA Haplogroup E and its Subclades - 2010". Retrieved 17 December 2010.
  5. Adams, Jonathan. "Africa During the Last 150,000 Years". Archived from the original on 1 May 2006. Retrieved 26 January 2011.
  6. 1 2 3 4 5 6 7 8 Montano, Valeria; Gianmarco Ferri; Veronica Marcari; Chiara Batini; Okorie Anyaele; Giovanni Destro-Bisol; David Comas (1 July 2011). "The Bantu expansion revisited a new analysis of Y chromosome variation in Central Western Africa". Molecular Ecology. 20 (13): 2693–2708. doi:10.1111/j.1365-294X.2011.05130.x. PMID 21627702.
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