Haplogroup E-Z827

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Haplogroup E-Z827
Possible time of originapprox 24,100 years BP [1]
Possible place of originNorth Africa[2][3]
AncestorE-M215/M35
DescendantsE-L19, E-Z830
Defining mutationsZ827

E-Z827, also known as E1b1b1b,[4] is a major human Y-chromosome DNA haplogroup. It is the parent lineage to the E-Z830 and E-L19 subclades, and defines their common phylogeny. The former is predominantly found in the Middle East; the latter is most frequently observed in North Africa. E-Z827 is also found at lower frequencies in Europe, and in isolated parts of Southeast Africa.

Subclades of E-Z827 and Distribution

Family Tree

The following phylogeny is based on the YCC 2008 tree and subsequent published research as summarized by ISOGG.[5][6][7]

  • E-Z827 (Z827) - E1b1b1b[8]
    • E-V257/L19 (L19, V257) - E1b1b1b1[8]
      • E-PF2431 (PF2431)[9]
        • E-PF2438
          • E-Y10561
            • E-FGC18981
              • E-FGC38527
              • E-Y35933
              • E-FGC18960
                • E-Y33020
                • E-FGC18958
          • E-PF2440
            • E-PF2471
              • E-BY9805
      • E-M81 (M81)[10]
        • E-M81*
        • E-PF2546
          • E-PF2546*
          • E-CTS12227
            • E-MZ11
              • E-MZ12
          • E-A929
            • E-Z5009
              • E-Z5009*
              • E-Z5010
              • E-Z5013
                • E-Z5013*
                • E-A1152
            • E-A2227
              • E-A428
              • E-MZ16
            • E-PF6794
              • E-PF6794*
              • E-PF6789
                • E-MZ21
                • E-MZ23
                • E-MZ80
            • E-A930
            • E-Z2198/E-MZ46
              • E-A601
              • E-L351
    • E-Z830 (Z830) - E1b1b1b2[8]
      • E-M123 (M123)
        • E-M34 (M34)
          • E-M84 (M84)
            • E-M136 (M136)
          • E-M290 (M290)
          • E-V23 (V23)
          • E-L791 (L791,L792)
      • E-V1515
        • E-V1515*
        • E-V1486
          • E-V1486*
          • E-V2881
            • E-V2881*
            • E-V1792
            • E-V92
          • E-M293 (M293)
            • E-M293*
            • E-P72 (P72)
            • E-V3065*
        • E-V1700
          • E-V42 (V42)
          • E-V1785
            • E-V1785*
            • E-V6 (V6)

E-V257/L19 (E1b1b1b1)

E-V257/L19 showed a parallel with its sibling clade E-V68 in the way that both clades show signs of having migrated from North Africa to southern Europe across the Mediterranean sea. 6 "E-V257/L19*" individuals were found in published samples who were E-V257/L19, but not E-M81. a Marrakesh Berber, a Corsican, a Sardinian, a Borana from Kenya, a southern Spaniard and a Cantabrian.

Within E-M35, there are striking parallels between two haplogroups, E-V68 and E-V257. Both contain a lineage which has been frequently observed in North Africa (E-M78 and E-M81, respectively) and a group of undifferentiated chromosomes that are mostly found in southern Europe. An expansion of E-M35 carriers, possibly from the Middle East as proposed by other authors, and split into two branches separated by the geographic barrier of the Mediterranean Sea, would explain this geographic pattern. However, the absence of E-V68* and E-V257* in the Middle East makes a maritime spread between northern Africa and southern Europe a more plausible hypothesis.

— [11]

E-PF2431

PF2431 is the sister branch of M81 which was discovered in Paolo Francalacci (2011). Previously, it was designated L19*/V257*. This mutation has been discovered in North Africa (in Souss in Morocco, in central and eastern Algeria, West Nile in Egypt), the Sahel (Chad, Gambia), Western Europe (United Kingdom (Derbyshire), Germany, Switzerland, Spain, Italy) and Near Eastern (Turkey, Karabakh and Urmia). It would have formed 13800 years ago and is thought to originate from the "green" Sahara. Its TMRCA is estimated at 10600 years by yfull.

Archeology unearthed the remains of a member of the Hungarian conquering elite was analyzed from branch E-FGC19010, it had been discovered in Sandorfalva in Hungary and is dated to the second half of the tenth century.[12] A skeleton was discovered at the Monastery of San Pietro, Villa Magna in Italy, whose DNA belongs to the same branch and lived around 1180CE.[13] Scientists have examined the DNA of a mass grave of victims of the bubonic plague in Ellwangen in Germany, this one dates from the 16th century and belongs to another branch E-FGC18981.[14]

E-M81

E-M81 has two major subclades, E-M165 is found exclusively in the Middle East and E-CTS4236 is found both in the Middle East and in the Maghreb.[15]

E-M165

E-M165 was discovered in one Israeli bedouin.[15]

E-CTS4236

E-CTS4236 is the most common subclade of haplogroup E-M81. It is found in the Middle East and in the Maghreb, and is dominated by its E-M183 subclade. E-M183 is believed to have originated in the Middle East, and has an estimated age of 2284-2984 ybp.[2][16]

The E-M183 subhaplogroup reaches a mean frequency of 42% in North Africa. It decreases in frequency from 100% in Tunisian populations to approximately 28.6% to the east of this range in Egypt.[2][17][18] High levels, reaching 77.8%, among the Tuareg population inhabiting the Sahara in Burkina Faso, near Gorom-Gorom, are observed. There was a much lower frequency of 11.1% in the vicinity of Tanut in the Republic of Niger. The E-M81 subclade is common among North African Arabs. It reaches 100% among Tunisian Arabs,[19] and is generally found at frequencies around 45% in coastal cities such as Oran, Tunis, Algiers.[2][20]

In this key area from Egypt to the Atlantic Ocean,[2] report a pattern of decreasing STR haplotype variation (implying decreasing lineage age in those areas) from East to West (but[16] reports West to East for M183), accompanied by a substantial increasing frequency. At the eastern extreme of this core range,[18] M81 is found in 28.6% (10 out of 35 men) in El-Hayez in the Western desert in Egypt

The pattern of distribution and variance to be consistent with the hypothesis of a post Paleolithic "demic diffusion" from the East.[2] The ancestral lineage of E-M81 in their hypothesis could have been linked with the spread of Neolithic food-producing technologies from the Fertile Crescent via the Nile, although pastoralism rather than agriculture. E-M81 and possibly proto-Afroasiatic language may have been carried either all the way from Asia, or they may represent a "local contribution to the North African Neolithic transition". A Near Eastern origin of proto-Afroasiatic speakers carrying E-M81, or its ancestral lineage, is inconsistent with the linguistic evidence, which seems to indicate an African origin of Proto-Afro-Asiatic speakers.

The E-M81 subclade has been found in Arab remains from Al-Andalus,[21] and Medieval Guanche (Bimbapes) fossils excavated in Punta Azul, El Hierro, Canary Islands, which are dated to the 10th century (~44%).[22]

Europe

In Europe, E-M81 has a widespread distribution at very low frequencies but is common mostly in the Iberian Peninsula, where unlike in the rest of Europe,[23] shows an average frequency of 4.3% (49/1140) in the Iberian Peninsula with frequencies reaching 4% and 9% in two separate surveys of Galicia, 10% in Western Andalusia and Northwest Castile. However this study also includes 153 individuals from Majorca, Minorca and Ibiza islands as well as 24 individuals from Gascony which are not in the Iberian Peninsula. Without these 177 individuals, real average for Iberian Peninsula is 4.9% (47/963)[23] it is more common than E-M78, with an average frequency around 5%. Its frequencies are higher in the western half of the peninsula with frequencies reaching 8% in Extremadura and South Portugal, 4% in one study and 9% in another in Galicia, 10% in Western Andalusia and Northwest Castile and 9% to 17% in Cantabria.[23][24][25][26][27] The highest frequencies of this clade found so far in Europe were observed in the Pasiegos from Cantabria, ranging from 18% (8/45)[27] to 41% (23/56).[19] An average frequency of 8.28% (54/652) has also been reported in the Spanish Canary Islands with frequencies over 10% in the three largest islands of Tenerife (10.68%), Gran Canaria (11.54%) and Fuerteventura (13.33%).[28]

E-M81 is also found in other parts of Europe, such as Britain – especially Wales and Scotland – and France, where it has an overall incidence of 2.7% (15/555), with frequencies surpassing 5.0% in Auvergne (5/89) and Île-de-France (5/91).[29][30][31] E-M81 was also observed in Italy with frequencies of 0,7% to 5,8% in Sardinia,[32][33] approximately 2.12% overall in Sicily (but up to 7.14% in Piazza Armerina),[34] and in very much lower frequency near Lucera (1.7%), in continental Italy,[35] possibly due to ancient migrations during the Islamic, Roman, and Carthaginian empires. In a 2014 study by Stefania Sarno et al. with 326 samples from Cosenza, Reggio Calabria, Lecce and five Sicilian provinces, E-M81 shows an average frequency of 1.53%, but the typical Maghrebin core haplotype 13-14-30-24-9-11-13 has been found in only two out of the five E-M81 individuals. These results, along with the negligible contribution from North-African populations revealed by the admixture-like plot analysis, suggest only a marginal impact of trans-Mediterranean gene flows on the current SSI genetic pool.[34][36]

Latin America

As a result of Spanish and Portuguese colonization of the Americas, this sub-clade is found throughout Latin America, for example 6.1% in Cuba, (8 out of 132),[37] 5.4% in Brazil (Rio de Janeiro) (6 out of 112), "The presence of chromosomes of North African origin (E3b1b-M81;[19] can also be explained by a Portuguese-mediated influx, since this haplogroup reaches a frequency of 5.6% in Portugal,[25] quite similar to the frequency found in Rio de Janeiro (5.4%) among European contributors."[38] and among Hispanic men from California and Hawaii 2.4% (7 out of 295),[39]

Others

In smaller numbers, E-M81 men can be found in areas in contact with the Maghreb, both around the Sahara, in places like Sudan, and around the Mediterranean in places like Lebanon, Turkey, and amongst Sephardic Jews.

E-Z830 (E1b1b1b2)

A recently confirmed sub-clade of E-Z827, Z830, includes the confirmed sub-clades of E-M123, E-M293, and E-V42, and is a sibling clade to E-L19. Currently, the E-M35 phylogeny project recognizes four distinct clusters of Z830* carriers, two of which are exclusively Jewish in origin. The remaining two are significantly smaller, and include scattered individuals in Germany, Spain, Latin America, Egypt, and Ethiopia.[40][41][42][43]

E-M123

Main article: Haplogroup E-M123 (Y-DNA)

E-M123 is mostly known for its major subclade E-M34, which dominates this clade.[44]

E-V1515

A new clade (E-V1515) was defined by Trombetta et al. 2015, which originated about 12 kya (95% CI 8.6-16.4) in eastern Africa where it is currently mainly distributed. This clade includes all the sub-Saharan haplogroups (E-V42, E-M293, E-V92, E-V6) reported as E-M35 basal clades in a previous phylogeny.[3]

We observed the highest frequency and diversity of this haplogroup in the northern part of the Horn of Africa (present day Eritrea and northern Ethiopia), where the majority of the deepest E-V1515 subhaplogroups and paragroups were found. In the southern part of the Horn (southern Ethiopia, Somalia and northern Kenya), haplogroup E-V1515 is almost exclusively represented by the recent (3.5 ka; 95% CI: 1.7–5.9 ka) subhaplogroup E-V1486. Further south, in southern Kenya and southern Africa, a single E-V1486 terminal clade, known as E-M293 (Henn et al. 2008), was found (fig. 3). This phylogeographic pattern is strongly suggestive of human movements from the northern part of the Horn to the Ethiopian/Kenyan borders between 12 ka (the coalescence of E-V1515) and 3.5 ka (the coalescence of E-V1486), and from here toward southern Africa across the equatorial belt in more recent times.[3]

Multiple instances of commercially observed E-V1515 have also been detected in Arabia.[45]

E-M293

E-M293 is a subclade of E-V1515. It was identified by ISOGG as the second clade within E-Z830. It was discovered before E-Z830 and is associated with the spread of pastoralism from Eastern Africa into Southern Africa.[46] So far high levels have been found in specific ethnic groups in Tanzania and Southern Africa. Highest were the Datog (43%), Khwe (Kxoe) (31%), Burunge (28%), and Sandawe (24%). Two Bantu-speaking Kenyan males were found with the M293 mutation.[46] Other E-M215 subclades are rare in Southern Africa. The authors state...

Without information about M293 in the Maasai, Hema, and other populations in Kenya, Sudan, and Ethiopia, we cannot pinpoint the precise geographic source of M293 with greater confidence. However, the available evidence points to present-day Tanzania as an early and important geographic locus of M293 evolution.

They also say that "M293 is only found in sub-Saharan Africa, indicating a separate phylogenetic history for M35.1 * (former) samples further north". E-P72.[6] This is a subclade of E-M293.[11]

E-V42

E-V42 was discovered in two Ethiopian Jews.[11] It was suggested that it may be restricted to the region around Ethiopia. However, further testing by commercial DNA testing companies confirmed positive results for this subclade in Arabia as well.[47]

E-V6

The E-V6 subclade of E-V1515 is defined by V6 and has been identified a significant presence of these lineages in Ethiopia, and also some in the neighboring Somali population.[19] Among the Ethiopian and Somali samples, the highest were 14.7% among the Ethiopian Amhara, and 16.7% among the Ethiopian Wolayta.

E-V92

E-V92 was discovered in two Ethiopian Amhara.[11] Like E-V6 and E-V42 it possibly only exists in the area of Ethiopia.

Phylogenetics

Phylogenetic History

Main article: Conversion table for Y chromosome haplogroups

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-P29 21 III 3A 13 Eu3 H2 B E* E E E E E E E E E E
E-M33 21 III 3A 13 Eu3 H2 B E1* E1 E1a E1a E1 E1 E1a E1a E1a E1a E1a
E-M44 21 III 3A 13 Eu3 H2 B E1a E1a E1a1 E1a1 E1a E1a E1a1 E1a1 E1a1 E1a1 E1a1
E-M75 21 III 3A 13 Eu3 H2 B E2a E2 E2 E2 E2 E2 E2 E2 E2 E2 E2
E-M54 21 III 3A 13 Eu3 H2 B E2b E2b E2b E2b1 - - - - - - -
E-P2 25 III 4 14 Eu3 H2 B E3* E3 E1b E1b1 E3 E3 E1b1 E1b1 E1b1 E1b1 E1b1
E-M2 8 III 5 15 Eu2 H2 B E3a* E3a E1b1 E1b1a E3a E3a E1b1a E1b1a E1b1a E1b1a1 E1b1a1
E-M58 8 III 5 15 Eu2 H2 B E3a1 E3a1 E1b1a1 E1b1a1 E3a1 E3a1 E1b1a1 E1b1a1 E1b1a1 E1b1a1a1a E1b1a1a1a
E-M116.2 8 III 5 15 Eu2 H2 B E3a2 E3a2 E1b1a2 E1b1a2 E3a2 E3a2 E1b1a2 E1b1a2 E1ba12 removed removed
E-M149 8 III 5 15 Eu2 H2 B E3a3 E3a3 E1b1a3 E1b1a3 E3a3 E3a3 E1b1a3 E1b1a3 E1b1a3 E1b1a1a1c E1b1a1a1c
E-M154 8 III 5 15 Eu2 H2 B E3a4 E3a4 E1b1a4 E1b1a4 E3a4 E3a4 E1b1a4 E1b1a4 E1b1a4 E1b1a1a1g1c E1b1a1a1g1c
E-M155 8 III 5 15 Eu2 H2 B E3a5 E3a5 E1b1a5 E1b1a5 E3a5 E3a5 E1b1a5 E1b1a5 E1b1a5 E1b1a1a1d E1b1a1a1d
E-M10 8 III 5 15 Eu2 H2 B E3a6 E3a6 E1b1a6 E1b1a6 E3a6 E3a6 E1b1a6 E1b1a6 E1b1a6 E1b1a1a1e E1b1a1a1e
E-M35 25 III 4 14 Eu4 H2 B E3b* E3b E1b1b1 E1b1b1 E3b1 E3b1 E1b1b1 E1b1b1 E1b1b1 removed removed
E-M78 25 III 4 14 Eu4 H2 B E3b1* E3b1 E1b1b1a E1b1b1a1 E3b1a E3b1a E1b1b1a E1b1b1a E1b1b1a E1b1b1a1 E1b1b1a1
E-M148 25 III 4 14 Eu4 H2 B E3b1a E3b1a E1b1b1a3a E1b1b1a1c1 E3b1a3a E3b1a3a E1b1b1a3a E1b1b1a3a E1b1b1a3a E1b1b1a1c1 E1b1b1a1c1
E-M81 25 III 4 14 Eu4 H2 B E3b2* E3b2 E1b1b1b E1b1b1b1 E3b1b E3b1b E1b1b1b E1b1b1b E1b1b1b E1b1b1b1 E1b1b1b1a
E-M107 25 III 4 14 Eu4 H2 B E3b2a E3b2a E1b1b1b1 E1b1b1b1a E3b1b1 E3b1b1 E1b1b1b1 E1b1b1b1 E1b1b1b1 E1b1b1b1a E1b1b1b1a1
E-M165 25 III 4 14 Eu4 H2 B E3b2b E3b2b E1b1b1b2 E1b1b1b1b1 E3b1b2 E3b1b2 E1b1b1b2a E1b1b1b2a E1b1b1b2a E1b1b1b2a E1b1b1b1a2a
E-M123 25 III 4 14 Eu4 H2 B E3b3* E3b3 E1b1b1c E1b1b1c E3b1c E3b1c E1b1b1c E1b1b1c E1b1b1c E1b1b1c E1b1b1b2a
E-M34 25 III 4 14 Eu4 H2 B E3b3a* E3b3a E1b1b1c1 E1b1b1c1 E3b1c1 E3b1c1 E1b1b1c1 E1b1b1c1 E1b1b1c1 E1b1b1c1 E1b1b1b2a1
E-M136 25 III 4 14 Eu4 H2 B E3ba1 E3b3a1 E1b1b1c1a E1b1b1c1a1 E3b1c1a E3b1c1a E1b1b1c1a1 E1b1b1c1a1 E1b1b1c1a1 E1b1b1c1a1 E1b1b1b2a1a1

Original Research Publications

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

See also

Wikiquote has quotations related to Haplogroup E-Z827.

Genetics

Y-DNA E Subclades

Y-DNA Backbone Tree

References

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Further reading

External links

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