Haplogroup O-M119

In human genetics, Haplogroup O-M119 is a Y-chromosome DNA haplogroup. Haplogroup O-M119 is a descendant branch of haplogroup O-F265 also known as O1a, one of two extant primary subclades of Haplogroup O-M175. The same clade previously has been labeled as O-MSY2.2.[6]

Haplogroup O-M119
Possible time of origin33,181 [95% CI 24,461 <-> 36,879] years ago (Karmin 2022[1])

34,100 or 29,200 years ago (Poznik 2016[2])

31,590 ybp[3]

30,000 [95% CI 27,900 <-> 32,200] years before present (YFull 2018[4])
Coalescence age19,680 ybp[5]

17,500 [95% CI 19,400 <-> 15,500] years before present (YFull 2018[4])
Possible place of originSouthern China
Ancestorhaplogroup O-F265
Defining mutationsM119
Highest frequenciesSouthern China, Taiwan, Malay Archipelago, Pacific islands, Madagascar

Origins

The Haplogroup O-M119 branch is believed to have evolved during the Late Pleistocene (Upper Paleolithic) in China mainland.

Paleolithic migrations

Karafet et al. (2010) suggest haplogroup O-M119 was part of a four-phase colonization model in which Paleolithic migrations of hunter-gatherers shaped the primary structure of current Y-Chromosome diversity of Maritime Southeast Asia. Approximately 5000 BCE, Haplogroup O-M119 coalesced at Sundaland and migrated northwards to as far as Taiwan, where O-M50 constitutes some 90% of the Aboriginal Y-DNA, being the main haplogroup that can be directly linked to the Austronesian expansion in phase 3.

Taiwan homeland

Li et al. (2008) concluded that in contrast to the Taiwan homeland hypothesis, Island Southeast Asians do not have a Taiwan origin based on their paternal lineages. According to their results, lineages within Maritime Southeast Asia did not originate from Taiwanese aborigines as linguistic studies suggest. Taiwan aborigines and Indonesians were likely to have been derived from the Tai–Kadai-speaking populations based on their paternal lineages, and thereafter evolved independently of each other.

The strongest positive correlation between Haplogroup O-M119 and ethno-linguistic affiliation is that which is observed between this haplogroup and the Austronesians. The peak frequency of Haplogroup O-M119 is found among the aborigines of Taiwan, precisely the region from which linguists have hypothesized that the Austronesian language family originated. A slightly weaker correlation is observed between Haplogroup O-M119 and the Han Chinese populations of southern China, as well as between this haplogroup and the Tai–Kadai-speaking populations of southern China and Southeast Asia. The distribution of Tai–Kadai languages in Thailand and other parts of Southeast Asia outside of China has long been believed, for reasons of traditional linguistic geography, to reflect a recent invasion of Southeast Asia by Tai–Kadai-speaking populations originating from southeastern China, and the somewhat elevated frequency of Haplogroup O-M119 among the Tai–Kadai populations, coupled with a high frequency of Haplogroup O-M95, which is a genetic characteristic of the Austroasiatic-speaking peoples of Southeast Asia, suggests that the genetic signature of the Tai–Kadai peoples' affinity with populations of southeastern China has been weakened due to extensive assimilation of the earlier Austroasiatic residents of the lands which the Tai–Kadai peoples invaded.

Distribution

Haplogroup O-M119 lineages are found primarily in Southeast Asian populations of Malaysia, Vietnam, Indonesia, the Philippines, southern China and Taiwan (ISOGG 2010). High frequencies of this haplogroup have been found in populations spread in an arc through southeastern China, Taiwan, the Philippines, and Indonesia. It has been found with generally lower frequency in samples from Oceania, mainland Southeast Asia, Southwest China, Northwest China, North China, Northeast China, Korea, Japan, North Asia, and Central Asia.

A 2008 study by Li suggested that the admixture analyses of Tai–Kadai-speaking populations showed a significant genetic influence in a large proportion of Indonesians. Most of the population samples contained a high frequency of haplogroup O-M119.[7]

The frequencies of Haplogroup O-M119 among various East Asian and Austronesian populations suggest a complex genetic history of the modern Han populations of southern China. Although Haplogroup O-M119 occurs only at an average frequency of approximately 4% among Han populations of northern China and peoples of southwestern China and Southeast Asia who speak Tibeto-Burman languages, the frequency of this haplogroup among the Han populations of southern China nearly quadruples to about 15-23%.[8] The frequency of Haplogroup O-M119 among the Southern Han has been found to be slightly greater than the arithmetic mean of the frequencies of Haplogroup O-M119 among the Northern Han and a pooled sample of Austronesian populations. This suggests that modern Southern Han populations may possess a non-trivial number of male ancestors who were originally affiliated with some Austronesian-related culture, or who at least shared some genetic affinity with many of the ancestors of modern Austronesian peoples.[9][10]

O-M119

This lineage is found frequently in Austronesians, southern Han Chinese, and Kra-Dai peoples.[11] This lineage is presumed to be a marker of the prehistoric Austronesian expansion, with possible origins encompassing the regions along the southeastern coast of China and neighboring Taiwan, and is found among modern populations of Maritime Southeast Asia and Oceania (Karafet 2005).

Haplogroup O-M119 Y-chromosomes also have been found to occur at low frequency among various populations of Siberia, such as the Nivkhs (one of 17 sampled Y-chromosomes), Ulchi/Nanai (2/53), Yenisey Evenks (1/31), and especially the Buryats living in the Sayan-Baikal uplands of Irkutsk Oblast (6/13) (Lell 2002).

O-P203

O-P203 was found in 86.7% (52/60) of a sample from Nias, 70.8% (34/48) of Taiwanese Aboriginals, 28.4% (21/74) of Mentawai, 11.4% (73/641) of Balinese, 9.8% (6/61) of a sample from Java, 9.1% (36/394) of a sample from Flores, 9.1% (15/165) of Han Chinese, 8.3% (1/12) of a sample from Western Samoa, 8.2% (4/49) of Tujia from Hunan, 6.9% (4/58) of Miao from China, 5.7% (4/70) of Vietnamese, 3.3% (1/30) of a sample from the Moluccas, 3.1% (1/32) of Malaysians, 3.0% (1/33) of a sample from highland Papua New Guinea, 2.6% (1/38) of a sample from Sumatra, 2.3% (2/86) of a sample from Borneo, 2.1% (1/48) of Filipinos, 2.0% (1/51) of She, 1.7% (1/60) of Yao from Guangxi, 1.1% (1/92) of a sample from Lembata, and 0.9% (3/350) of a sample from Sumba.[12]

In a study published in 2011, O-P203 was observed in 22.2% (37/167) of Han Chinese male volunteers at Fudan University in Shanghai whose origin may be traced back to East China (Jiangsu, Zhejiang, Shanghai, or Anhui), 12.3% (8/65) of Han Chinese male volunteers whose origin may be traced back to South China, and 1.6% (2/129) of Han Chinese male volunteers whose origin may be traced back to North China.[13]

O-M101

This lineage was observed in one individual from China (Underhill 2000) and another from Kota Kinabalu (Hurles 2005).

According to the website of Chinese genetic testing company 23mofang, O-M101 is a subclade of O-M307/P203 (O-M307 > O-F446 > O-F5498 > O-Z23406 > O-M101). Its TMRCA is estimated to be 4,850 years before present, and it is estimated to account for the Y-DNA of approximately 0.21% of all males in present-day China, with its distribution being relatively dense in Hunan, Hubei, Hainan, and Jiangxi.[14] The O-M101 > O-A5863 > O-SK1573 subclade (TMRCA 3,400 ybp) has been estimated to account for the Y-DNA of approximately 0.08% of all males in present-day China, being relatively concentrated in South Central China and Southwest China at present.[15] The O-M101 > O-A5863 > O-Y163909 subclade (TMRCA 4,080 ybp) has been observed in 16.7% (3/18) of a sample of Phuan males from Central Thailand.[16][17]

O-M50

This lineage occurs among Austronesian peoples of Taiwan, the Philippines, Indonesia, Melanesia, Micronesia, and Madagascar as well as among some populations of continental Southeast Asia and among Bantu peoples of the Comoros.[18] It also has been found in a Hawaiian.[19]

A study published in 2005 found O-M50 in 33.3% (13/39) of a sample of aboriginals in Taiwan, 18.2% (2/11) of a sample of people in Majuro, 17.1% (6/35) of a sample of Malagasy, 9.2% (6/65) of a sample of people in Kota Kinabalu, 9.1% (2/22) of a sample of people in Banjarmasin, 3.6% (1/28) of a sample of people in the Philippines, and 1.9% (1/52) of a sample of people in Vanuatu.[20]

Kayser et al. 2008 found O-M110 in 34.1% (14/41) of a sample of Taiwan Aborigines, 17.7% (26/147) of a sample from the Admiralty Islands, 17.3% (9/52) of a sample from the Trobriand Islands, 13.5% (5/37) of a sample from the Philippines, 9.7% (3/31) of a sample from the Nusa Tenggara Islands, 3.8% (2/53) of a sample from Java, 3.0% (1/33) of a sample from the Moluccas, 2.5% (1/40) of a sample from Borneo, 1.0% (1/100) of a sample from Tuvalu, and 0.95% (1/105) of a sample from Fiji.[21]

A study published in 2010 found O-M110 in 18.8% (9/48) Taiwanese Aboriginals, 13.3% (8/60) Nias, 8.3% (4/48) Philippines, 7.4% (4/54) Sulawesi, 6.3% (22/350) Sumba, 5.8% (5/86) Borneo, 3.3% (1/30) Moluccas, 2.3% (1/44) Maewo, Vanuatu, 1.6% (1/61) Java, 1.4% (1/74) Mentawai, and 0.8% (5/641) Bali.[22]

A study published in 2012 found O-M110 in 4.6% (33/712) of males from the Solomon Islands.[23]

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
O-M17526VII1U28Eu16H9IO*OOOOOOOOOO
O-M11926VII1U32Eu16H9HO1*O1aO1aO1aO1aO1aO1aO1aO1aO1aO1a
O-M10126VII1U32Eu16H9HO1aO1a1O1a1aO1a1aO1a1O1a1O1a1aO1a1aO1a1aO1a1aO1a1a
O-M5026VII1U32Eu16H10HO1bO1a2O1a2O1a2O1a2O1a2O1a2O1a2O1a2O1a2O1a2
O-P3126VII1U33Eu16H5IO2*O2O2O2O2O2O2O2O2O2O2
O-M9526VII1U34Eu16H11GO2a*O2aO2aO2aO2aO2aO2aO2aO2aO2a1O2a1
O-M8826VII1U34Eu16H12GO2a1O2a1O2a1O2a1O2a1O2a1O2a1O2a1O2a1O2a1aO2a1a
O-SRY46520VII1U35Eu16H5IO2b*O2bO2bO2bO2bO2bO2bO2bO2bO2bO2b
O-47z5VII1U26Eu16H5IO2b1O2b1aO2b1O2b1O2b1aO2b1aO2b1O2b1O2b1O2b1O2b1
O-M12226VII1U29Eu16H6LO3*O3O3O3O3O3O3O3O3O3O3
O-M12126VII1U29Eu16H6LO3aO3aO3a1O3a1O3a1O3a1O3a1O3a1O3a1O3a1aO3a1a
O-M16426VII1U29Eu16H6LO3bO3bO3a2O3a2O3a2O3a2O3a2O3a2O3a2O3a1bO3a1b
O-M15913VII1U31Eu16H6LO3cO3cO3a3aO3a3aO3a3O3a3O3a3aO3a3aO3a3aO3a3aO3a3a
O-M726VII1U29Eu16H7LO3d*O3cO3a3bO3a3bO3a4O3a4O3a3bO3a3bO3a3bO3a2bO3a2b
O-M11326VII1U29Eu16H7LO3d1O3c1O3a3b1O3a3b1-O3a4aO3a3b1O3a3b1O3a3b1O3a2b1O3a2b1
O-M13426VII1U30Eu16H8LO3e*O3dO3a3cO3a3cO3a5O3a5O3a3cO3a3cO3a3cO3a2c1O3a2c1
O-M11726VII1U30Eu16H8LO3e1*O3d1O3a3c1O3a3c1O3a5aO3a5aO3a3c1O3a3c1O3a3c1O3a2c1aO3a2c1a
O-M16226VII1U30Eu16H8LO3e1aO3d1aO3a3c1aO3a3c1aO3a5a1O3a5a1O3a3c1aO3a3c1aO3a3c1aO3a2c1a1O3a2c1a1

Research publications

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

Phylogenetic trees

This phylogenetic tree of haplogroup O subclades is based on the YCC 2008 tree (Karafet 2008) and subsequent published research.

See also

Genetics

Y-DNA O subclades

Proportion of O-M119 in various samples

Population Percentage Count Source SNPs
Nias100.0%60Karafet 2010P203=52
M110=8
Nias99.8%407van Oven 2011M119
Taiwanese aborigines89.6%48Karafet 2010P203=34
M110=9
Mentawai86.5%74Karafet 2010M119(xP203, M110)=42
P203=21
M110=1
Aboriginal Taiwanese83.4%223Tajima 2004M119
Taiwan (aborigines)78.0%41Kayser 2008M119(xM110)=18
M110=14
Taiwan (aborigines)71.8%39Hurles 2005M119(xM50, M101)=15
M50=13
Taiwan (aborigines)68.9%74Underhill 2000M119(xM101)
Atayal62.5%24Su 1999M119(xM50, M110, M103)=13
M50/M110/M103=2
Utsat (Sanya, Hainan)61.1%72Li 2013M119=44
Gelao60.0%30M119(xM110)=18
Gelong (Hainan)57.7%78M119(xM110)=45
Tagalog
(Philippine subgroup)
46.0%50Tajima 2004M119
Kota Kinabalu42.1%19M119(xM50, M110, M103)=6
M50/M110/M103=2
Philippines41.0%39Kayser 2006
Kayser 2008
M119(xM110)=11
M110=5
Mulam (Luocheng)40.5%42P203=13
M110=4
Hlai (Jiamao)40.0%50Li et al. 2008M119=20
Philippines35.7%28Hurles 2005M119(xM50, M101)=9
M50=1
Dong35%20Xie 2004M119(xM110, M50, M103)=5
M110/M50/M103=2
Hlai (Zwn)32.0%75Li et al. 2008M119=24
Sui31.5%92M119(xM110)=29
Malaysian30.8%13Su 1999M110=3
M119(xM110)=1
Dong30%10Su 1999M119(xM50, M110, M103)=2
M50/M110/M103=1
Kota Kinabalu29.2%65Hurles 2005M119(xM50, M101)=12
M50=6
M101=1
Hlai (Moifau)28.8%66Li et al. 2008M119=19
Trobriand Islands28.3%53Kayser 2006M119=15
Hlai27.3%11M119(xM110)=3
Trobriand Islands26.9%52Kayser 2008M110=9
M119(xM110)=5
Li (Hlai)26.5%34Xue 2006M119
Malay (near Kuala Lumpur)25.0%12Tajima 2004M119
Han (East China)24.0%167Yan 2011M119
Han Chinese (Taiwan)23.1%26Kayser 2006M119=6
Hlai (Ha)23.0%74Li et al. 2008M119=17
Banjarmasin22.7%22Hurles 2005M119(xM50, M101)=3
M50=2
Java22.6%53Kayser 2008M119(xM110)=10
M110=2
Nusa Tenggara22.6%31Kayser 2008M119(xM110)=4
M110=3
Batak (Sumatra)22.2%18Su 1999M119(xM50, M110, M103)=4
China22.2%36Kayser 2008M119(xM110)=8
Balinese21.1%641Karafet 2010P203=73
M119(xP203, M110)=57
M110=5
Mandar (Sulawesi)20.4%54Karafet 2010M119(xP203, M110)=7
M110=4
Tujia20%-Su 1999-
Han (Meixian)20.0%35Xue 2006M119
Buka20.0%10Scheinfeldt 2006M119
CDX
(Dai in Xishuangbanna)
19.2%52Poznik 2016K644/Z23266=7
F656=2
Z23442=1
Zhuang
(Napo County, Guangxi)
19.0%63M119=12
Malay18.5%27M50/M110/M103=4
M119(xM50, M110, M103)=1
Thin Board Mien18.2%11Cai 2011M119(xM110)
Majuro (Marshall Islands)18.2%11Hurles 2005M50=2
Balinese18.1%551Karafet 2005M119=100
Sui18.0%50Xie 2004M119(xM110, M50, M103)=9
Zhuang (Guangxi)17.9%28Su 1999M119(xM50, M110, M103)=5
Admiralty Islands17.7%147Kayser 2008M110=26
Malaysia17.6%17Kayser 2008M119(xM110)=3
Sumatra17.5%57Kayser 2006
Kayser 2008
M119(xM110)=10
Malagasy17.1%35Hurles 2005M50
Han (South China)16.9%65Yan 2011M119
Qiang15.2%33Xue 2006M119
Borneo15.0%40Kayser 2008M119(xM110)=5
M110=1
Han Chinese15%-Tajima 2004-
Dai (Dehong, Yunnan)15.0%20Yang 2005M119=3
Java14.8%61Karafet 2010P203=6
M119(xP203, M110)=2
M110=1
She14.7%34Xue 2006M119
Han (Chengdu)14.7%34Xue 2006M119
Manus14.3%7Scheinfeldt 2006M119
Palyu13.3%30Cai 2011M119
Batak Toba13.2%38Karafet 2010M119(xP203, M110)=4
P203=1
Sumba12.6%350Karafet 2010M110=22
M119(xP203, M110)=19
P203=3
Micronesia12.5%16Karafet 2010M119(xP203, M110)=2
Guizhou Miao12.2%49Cai 2011M119(xM110)
Lowland Kimmun12.2%41Cai 2011M119(xM110)
Thai (Northern Thailand)11.8%17He 2012P203(xM101)
Tai Yong
(Northern Thailand)
11.5%26Brunelli 2017P203=2
M50=1
Bunu11.1%36Cai 2011M119(xM110)
Malaysia11.1%18Kayser 2006M119=2
Filipinos10.4%48Karafet 2010M110=4
P203=1
Zhuang10%-Hammer 2006-
Mountain Straggler Mien10.0%20Cai 2011M119(xM110)
Northeast Thai10.0%20Su 1999M119(xM50, M110, M103)=1
M50/M110/M103=1
Vietnam10%10Kayser 2006M119=1
Tai Lue
(Northern Thailand)
9.9%91Brunelli 2017P203=6
M50=3
Han (China & Taiwan)9.7%165Karafet 2010P203=15
M119(xP203, M110)=1
Flores9.6%394Karafet 2010P203=36
M119(xP203, M110)=2
Zhuang (Guangxi)9.6%166Chen 2006-
Han (Taiwan)9.5%21Tajima 2004M119
Han (Yili)9.4%32Xue 2006M119
Borneo (Indonesia)9.3%86Karafet 2010M110=5
P203=2
M119(xP203, M110)=1
Bougainville9.2%65Scheinfeldt 2006M119
Top Board Mien9.1%11Cai 2011M119(xM110)
Northern Mien9.1%33Cai 2011M119(xM110)
Northern She8.9%56Cai 2011M119(xM110)
Thai
(Chiang Mai & Khon Kaen)
8.8%34Tajima 2004M119
Hui8.6%35Xue 2006M119
Mosuo (Ninglang, Yunnan)8.5%47Wen 2004M119(xM110)
Miao (Wenshan, Yunnan)8.3%48Yang 2005M119=4
Tonga8.3%12Karafet 2010M119(xP203, M110)=1
Tujia (Jishou, Hunan)8.2%49Karafet 2010P203=4
Hlai (Gei)8.1%62Li et al. 2008M119=5
Hlai/Cun8%-Li et al. 2008-
Cambodian7.7%26Su 1999M119(xM50, M110, M103)=1
M50/M110/M103=1
Ewenki (China)7.7%26Xue 2006M119
Xibe7.3%41Xue 2006M119
Dai (Shuangjiang, Yunnan)7.1%28Yang 2005M119=2
Hunan Miao7.0%100Cai 2011M119(xM110)
Tujia7%-Xie 2004-
Miao (China)6.9%58Karafet 2010P203=4
Bai (Dali, Yunnan)6.7%30Yang 2005M119=2
Katu6.7%45Cai 2011M119(xM110)
Moluccas6.7%30Karafet 2010P203=1
M110=1
Han (Lanzhou)6.7%30Xue 2006M119
Kinh6.7%15Cai 2011M119(xM110)
Kinh (Hanoi, Vietnam)6.6%76He 2012P203(xM101)
Southern Mien6.5%31Cai 2011M119(xM110)
Yao (Malipo, Yunnan)6.4%47Yang 2005M119=3
Malaysia6.3%32Karafet 2010M119(xP203, M110)=1
P203=1
Dai (Xinping, Yunnan)6.1%49Yang 2005M119=3
Lisu (Nujiang, Yunnan)6.1%49Yang 2005M119=3
Yunnan Miao6.1%49Cai 2011M119(xM110)
Northern Han6.1%49Tajima 2004M119
Comorians6.0%381Msaidie 2010M50=22
MSY2.2(xM50)=1
Bai (Dali, Yunnan)6.0%50Wen 2004M119(xM110)
Bai (Eryuan, Yunnan)6.0%50Yang 2005M119=3
Moluccas5.9%34Kayser 2006
Kayser 2008
M119(xM110)=1
M110=1
Kyrgyz (Kyrgyzstan)5.8%52Wells 2001M119
Vietnam5.7%70Karafet 2010P203=4
Yao (Liannan, Guangdong)5.7%35Xue 2006M119
Fiji5.6%107Kayser 2006M119=6
Mon
(Northern Thailand)
5.6%18Brunelli 2017P203=1
Samoa5.6%18Karafet 2010P203=1
Thailand5.3%75Trejaut 2014P203=2
M119(xP203, M50)=2
Daur5.1%39Xue 2006M119
Cham
(Binh Thuan, Vietnam)
5.1%59He 2012M119(xM50)
Dungan (Kyrgyzstan)5.0%40Wells 2001M119
Shan
(Northern Thailand)
5.0%20Brunelli 2017P203=1
Manchu (Baoshan, Yunnan)4.9%41Yang 2005M119=2
Han (NE China)4.8%42Katoh 2005M119
Maewo (Vanuatu)4.5%44Karafet 2010M119(xP203, M110)=1
M110=1
Bouyei4.4%45Xie 2004M119(xM110, M50, M103)=2
Jino
(Xishuangbanna, Yunnan)
4.4%45Yang 2005M119=2
Korean4.4%45Wells 2001M119
KHV
(Kinh in Ho Chi Minh City)
4.3%46Poznik 2016Z23392(xZ23442)=1
Z23442=1
Han (Yuxi, Yunnan)4.3%47Yang 2005M119=2
Western Mien4.3%47Cai 2011M119(xM110)
Pumi (Ninglang, Yunnan)4.3%47Wen 2004M119(xM110)
Zhuang (Wenshan, Yunnan)4.3%47Yang 2005M119=2
Buyi (Luoping, Yunnan)4.2%48Yang 2005M119=2
Mongolian4.2%24Wells 2001M119
Tai Khün
(Northern Thailand)
4.2%24Brunelli 2017P203=1
Korea4.0%25Kayser 2006M119=1
Western Samoa4.0%25Hurles 2005M119(xM101, M50)=1
Khon Mueang
(Northern Thailand)
3.9%205Brunelli 2017P203=6
M50=2
Manchu3.8%52Hammer 2006M119
Koreans (Daejeon)3.8%133Park 2012P203=3
M119(xP203, M110)=2
New Ireland3.7%109Scheinfeldt 2006M119
Bo3.6%28Cai 2011M119(xM110)
Tai Yuan
(Thailand)
3.5%85Brunelli 2017P203=3
Japanese3.4%263Nonaka 2007M119(xM101, M50)
Lembata3.3%92Karafet 2010M119(xP203, M110)=2
P203=1
Korean3.2%216Kim 2007M119
Samoa3.2%62Kayser 2006
Kayser 2008
M119(xM110)=2
Han (North China)3.1%129Yan 2011M119(xM110)
Papua New Guinea
(Highlands)
3.0%33Karafet 2010P203=1
Manchu (NE China)3.0%101Katoh 2005M119
Koreans (Seoul)3.0%573Park 2012P203=16
M119(xP203, M110)=1
Dai
(Xishuangbanna, Yunnan)
2.9%35Yang 2005M119=1
Manchu2.9%35Xue 2006M119
Han (Harbin)2.9%35Xue 2006M119
Buyi2.9%35Xue 2006M119
Yao (Bama, Guangxi)2.9%35Xue 2006M119
West New Britain2.8%249Scheinfeldt 2006M119
Koreans2.7%300Park 2012M119
Koreans2.7%75Hammer 2006M119
Japanese (Kantō)2.6%117Katoh 2005M119
Koreans (Seoul)2.4%85Katoh 2005M119
Lavongai2.3%43Scheinfeldt 2006M119
Koreans (South Korea)2.2%506Kim 2011M119
Laven2.0%50Cai 2011M119(xM110)
Yi (Shuangbai, Yunnan)2.0%50Wen 2004M119(xM110)
Hmong Daw (Laos)2.0%51Cai 2011M119(xM110)
She2.0%51Karafet 2010P203=1
Japanese (Kyushu)1.9%104Tajima 2004M119
Vanuatu1.9%52Hurles 2005M50=1
Yao (Guangxi)1.7%60Karafet 2010P203=1
Uygur1.4%70Xue 2006M119
East New Britain1.4%145Scheinfeldt 2006M119
Japanese1.2%2390Sato 2014M119
Tuvalu1.0%100Kayser 2008M110=1
Mongolia
(mostly Khalkh)
0.7%149Hammer 2006M119
Mongols (Mongolia)0.6%160Di Cristofaro 2013M119
Lawa
(Northern Thailand)
0.0%50Brunelli 2017M119=0

Y-DNA backbone tree

References

Footnotes

  1. Monika Karmin, Rodrigo Flores, Lauri Saag, et al. (2022), "Episodes of Diversification and Isolation in Island Southeast Asian and Near Oceanian Male Lineages." Mol. Biol. Evol. 39(3): msac045 doi:10.1093/molbev/msac045
  2. Poznik, G David; Xue, Yali; Mendez, Fernando L; Willems, Thomas F; Massaia, Andrea; Wilson Sayres, Melissa A; Ayub, Qasim; McCarthy, Shane A; et al. (June 2016). "Punctuated bursts in human male demography inferred from 1,244 worldwide Y-chromosome sequences". Nature Genetics. 48 (6): 593–599. doi:10.1038/ng.3559. hdl:11858/00-001M-0000-002A-F024-C.
  3. Phylogenetic Tree of Haplogroup O1-F75 at 23mofang
  4. YFull Haplogroup YTree v6.03.19 at 24 July 2018
  5. Phylogenetic Tree of Haplogroup O1a-M119 at 23mofang
  6. https://isogg.org/tree/ISOGG_HapgrpO.html: "MSY2.2 was removed from tree because not providing reliable results."
  7. (Li et al. 2008)
  8. Yan, Shi (September 2011). "An updated tree of Y-chromosome Haplogroup O and revised phylogenetic positions of mutations P164 and PK4". European Journal of Human Genetics. 19 (9): 1013–5. doi:10.1038/ejhg.2011.64. PMC 3179364. PMID 21505448.
  9. HUGO Pan-Asian SNP Consortium, HUGO Pan-Asian SNP Consortium (2009). "Mapping Human Genetic Diversity in Asia". Science. 326 (5959): 1541–1545. Bibcode:2009Sci...326.1541.. doi:10.1126/science.1177074. PMID 20007900. S2CID 34341816.
  10. HUGO Pan-Asian SNP Consortium, HUGO Pan-Asian SNP Consortium (2009). "Mapping Human Genetic Diversity in Asia". Science. Science Magazine. 326 (5959): 1541–1545. Bibcode:2009Sci...326.1541.. doi:10.1126/science.1177074. PMID 20007900. S2CID 34341816. Retrieved 11 December 2009.
  11. "Major East–West Division Underlies Y Chromosome Stratification across Indonesia". Karafet et al. Archived from the original on 2014-06-08. Retrieved 15 May 2010.
  12. Karafet, Tatiana (2010). "Major East–West Division Underlies Y Chromosome Stratification across Indonesia". Molecular Biology and Evolution. 27 (8): 1833–1844. doi:10.1093/molbev/msq063. PMID 20207712.
  13. Shi Yan, Chuan-Chao Wang, Hui Li, Shi-Lin Li, Li Jin, and The Genographic Consortium, "An updated tree of Y-chromosome Haplogroup O and revised phylogenetic positions of mutations P164 and PK4." European Journal of Human Genetics (2011) 19, 1013–1015; doi:10.1038/ejhg.2011.64; published online 20 April 2011.
  14. https://www.23mofang.com/ancestry/ytree/O-M101/detail
  15. https://www.23mofang.com/ancestry/ytree/O-SK1573/detail
  16. Wibhu Kutanan, Jatupol Kampuansai, Metawee Srikummool, et al. (2019), "Contrasting Paternal and Maternal Genetic Histories of Thai and Lao Populations." Mol. Biol. Evol. Advance Access publication April 12, 2019. doi:10.1093/molbev/msz083
  17. Phylogenetic tree of haplogroup O-M119 at TheYtree
  18. Msaidie, Said; Ducourneau, Axel; Boetsch, Gilles; Longepied, Guy; Papa, Kassim; Allibert, Claude; Yahaya, Ali Ahmed; Chiaroni, Jacques; Mitchell, Michael J (January 2011). "Genetic diversity on the Comoros Islands shows early seafaring as major determinant of human biocultural evolution in the Western Indian Ocean". European Journal of Human Genetics. 19 (1): 89–94. doi:10.1038/ejhg.2010.128. PMC 3039498. PMID 20700146.
  19. Swapan Mallick, Heng Li, Mark Lipson, et al., "The Simons Genome Diversity Project: 300 genomes from 142 diverse populations." Nature 538, 201–206 (13 October 2016) doi:10.1038/nature18964
  20. Hurles, Matthew E.; Sykes, Bryan C.; Jobling, Mark A.; Forster, Peter (2005). "The Dual Origin of the Malagasy in Island Southeast Asia and East Africa: Evidence from Maternal and Paternal Lineages". American Journal of Human Genetics. 76 (5): 894–901. doi:10.1086/430051. PMC 1199379. PMID 15793703.
  21. Manfred Kayser, Ying Choi, Mannis van Oven, Stefano Mona, Silke Brauer, Ronald J. Trent, Dagwin Suarkia, Wulf Schiefenhövel, and Mark Stoneking (2008), "The Impact of the Austronesian Expansion: Evidence from mtDNA and Y Chromosome Diversity in the Admiralty Islands of Melanesia." Mol. Biol. Evol. 25(7):1362–1374. doi:10.1093/molbev/msn078
  22. Karafet et al. 2010.
  23. Frederick Delfin, Sean Myles, Ying Choi, David Hughes, Robert Illek, Mannis van Oven, Brigitte Pakendorf, Manfred Kayser, and Mark Stoneking, "Bridging Near and Remote Oceania: mtDNA and NRY Variation in the Solomon Islands." Molecular Biology and Evolution 29(2):545–564. 2012 doi:10.1093/molbev/msr186.
  24. Brunelli, Andrea; Kampuansai, Jatupol; Seielstad, Mark; Lomthaisong, Khemika; Kangwanpong, Daoroong; Ghirotto, Silvia; Kutanan, Wibhu (24 July 2017). "Y chromosomal evidence on the origin of northern Thai people". PLOS ONE. 12 (7): e0181935. doi:10.1371/journal.pone.0181935. PMC 5524406. PMID 28742125.
  25. Wibhu Kutanan, Rasmi Shoocongdej, Metawee Srikummool, et al. (2020), "Cultural variation impacts paternal and maternal genetic lineages of the Hmong-Mien and Sino-Tibetan groups from Thailand." European Journal of Human Genetics https://doi.org/10.1038/s41431-020-0693-x
  26. O Y-Haplogroup Project at Family Tree DNA
  27. Enrico Macholdt, Leonardo Arias, Nguyen Thuy Duong, et al., "The paternal and maternal genetic history of Vietnamese populations." European Journal of Human Genetics (2020) 28:636–645. https://doi.org/10.1038/s41431-019-0557-4
  28. Monika Karmin, Lauri Saag, Mário Vicente, et al., "A recent bottleneck of Y chromosome diversity coincides with a global change in culture." Genome Research (2015) 25: 459-466. doi: 10.1101/gr.186684.114
  29. Underhill, PA; Shen, P; Lin, AA; Jin, L; Passarino, G; Yang, WH; Kauffman, E; Bonné-Tamir, B; Bertranpetit, J (2000). "Y chromosome sequence variation and the history of human populations". Nature Genetics. 26 (3): 358–61. doi:10.1038/81685. PMID 11062480. S2CID 12893406.
  30. Y-DNA Haplotree at FamilyTreeDNA

Works cited

Websites

Sources for conversion tables

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