[1]	Ballinger S W, Schurr T G, Torroni A, Gan Y Y, Hodge J A, Hassan K, Chen K H, Wallace D C (1992). Southeast Asian mitochondrial DNA analysis reveals genetic continuity of ancient mongoloid migrations. Genetics, 130: 139–152

[2]	Bowcock A M, Ruiz-Linares A, Tomfohrde J, Minch E, Kidd J R, Cavalli-Sforza L L (1994). High resolution of human evolutionary trees with polymorphic microsatellites. Nature, 368: 455–457 CrossRef Google scholar

[3]	Cann R L, Stoneking M, Wilson A C (1987). Mitochondrial DNA and human evolution. Nature, 325: 31–36 CrossRef Google scholar

[4]	Cavalli-Sforza L L (1998). The Chinese human genome diversity project. Proc Natl Acad Sci USA, 95: 11501–11503 CrossRef Google scholar

[5]	Cavalli-Sforza L L, Menozzi P, Piazza A (1994). The history and geography of human genes. Princeton: Princeton University Press

[6]	Chu J Y, Huang W, Kuang S Q, Wang J M, Xu J J, Chu Z T, Yang Z Q, Lin K Q, Li P, Wu M, Geng Z C, Tan C C, Du R F, Jin L (1998). Genetic relationship of populations in China. Proc Natl Acad Sci USA, 95: 11763–11768 CrossRef Google scholar

[7]

Clark J D, Beyene Y, WoldeGabriel G, Hart W K, Renne P R, Gilbert H, Defleur A, Suwa G, Katoh S, Ludwig K R, Boisserie J R, Asfaw B, White T D (2003). Stratigraphic, chronological and behavioural contexts of Pleistocene Homo sapiens from Middle Awash, Ethiopia. Nature, 423: 747–752 CrossRef Google scholar

[8]	Cordaux R, Weiss G, Saha N, Stoneking M (2004). The northeast Indian passageway: a barrier or corridor for human migrations? Mol Biol Evol, 21: 1525–1533 CrossRef Google scholar

[9]

Cruciani F, La Fratta R, Trombetta B, Santolamazza P, Sellitto D, Colomb E B, Dugoujon J M, Crivellaro F, Benincasa T, Pascone R, Moral P, Watson E, Melegh B, Barbujani G, Fuselli S, Vona G, Zagradisnik B, Assum G, Brdicka R, Kozlov A I, Efremov G D, Coppa A, Novelletto A, Scozzari R (2007). Tracing past human male movements in northern/eastern Africa and Western eurasia: new clues from Y-chromosomal haplogroups E-M78 and J-M12. Mol Biol Evol, 24: 1300–1311 CrossRef Google scholar

[10]	Ding Y C, Wooding S, Harpending H C, Chi H C, Li H P, Fu Y X, Pang J F, Yao Y G, Yu J G, Moyzis R, Zhang Y (2000). Population structure and history in East Asia. Proc Natl Acad Sci USA, 97: 14003–14006 CrossRef Google scholar

[11]	Du R, Xiao C, Cavalli-Sforza L (1998). Estimation on genetic distance between Chinese populations based on 38 locus. Science in China (Series C), 28: 84–89

[12]	Dupuy B M, Stenersen M, Egeland T, Olaisen B (2004). Y-chromosomal microsatellite mutation rates: differences in mutation rate between and within loci. Hum Mutat, 23: 117–124 CrossRef Google scholar

[13]	Etler D A (1996). The fossil evidence for human evolution in Asia. Annu Rev Anthropol, 25: 275–301 CrossRef Google scholar

[14]	Gayden T, Cadenas A M, Regueiro M, Singh N B, Zhivotovsky L A, Underhill P A, Cavalli-Sforza L L, Herrera R J (2007). The Himalayas as a directional barrier to gene flow. Am J Hum Genet, 80: 884–894

[15]	Hammer M F (1995). A recent common ancestry for human Y chromosomes. Nature, 378: 376–378 CrossRef Google scholar

[16]	Hammer M F, Karafet T M, Park H, Omoto K, Harihara S, Stoneking M, Horai S (2006). Dual origins of the Japanese: common ground for hunter-gatherer and farmer Y chromosomes. J Hum Genet, 51: 47–58 CrossRef Google scholar

[17]	Harihara S, Saitou N, Hirai M, Gojobori T, Park K S, Misawa S, Ellepola S B, Ishida T, Omoto K (1988). Mitochondrial DNA polymorphism among five Asian populations. Am J Hum Genet, 43: 134–143

[18]	Jin L, Su B (2000). Natives or immigrants: modern human origin in East Asia. Nat Rev Genet, 1: 126–133 CrossRef Google scholar

[19]	Jin L, Underhill P A, Doctor V, Davis R W, Shen P, Cavalli-Sforza L L, Oefner P J (1999). Distribution of haplotypes from a chromosome 21 region distinguishes multiple prehistoric human migrations. Proc Natl Acad Sci USA, 96: 3796–3800 CrossRef Google scholar

[20]	Jobling M A, Tyler-Smith C (1995). Fathers and sons: the Y chromosome and human evolution. Trends Genet, 11: 449–456 CrossRef Google scholar

[21]	Jobling M A, Tyler-Smith C (2003). The human Y chromosome: an evolutionary marker comes of age. Nat Rev Genet, 4: 598–612 CrossRef Google scholar

[22]	Karafet T, Xu L, Du R, Wang W, Feng S, Wells R S, Redd A J, Zegura S L, Hammer M F (2001). Paternal population history of East Asia: sources, patterns, and microevolutionary processes. Am J Hum Genet, 69: 615–628 CrossRef Google scholar

[23]

Kayser M, Roewer L, Hedman M, Henke L, Henke J, Brauer S, Kruger C, Krawczak M, Nagy M, Dobosz T, Szibor R, de Knijff P, Stoneking M, Sajantila A (2000). Characteristics and frequency of germline mutations at microsatellite loci from the human Y chromosome, as revealed by direct observation in father/son pairs. Am J Hum Genet, 66: 1580–1588 CrossRef Google scholar

[24]	Krings M, Capelli C, Tschentscher F, Geisert H, Meyer S, von Haeseler A, Grossschmidt K, Possnert G, Paunovic M, Paabo S (2000). A view of Neandertal genetic diversity. Nat Genet, 26: 144–146 CrossRef Google scholar

[25]	Krings M, Stone A, Schmitz R W, Krainitzki H, Stoneking M, Paabo S (1997). Neandertal DNA sequences and the origin of modern humans. Cell, 90: 19–30 CrossRef Google scholar

[26]	Lell J T, Sukernik R I, Starikovskaya Y B, Su B, Jin L, Schurr T G, Underhill P A, Wallace D C (2002). The dual origin and Siberian affinities of Native American Y chromosomes. Am J Hum Genet, 70: 192–206 CrossRef Google scholar

[27]	Li H, Wen B, Chen S J, Su B, Pramoonjago P, Liu Y, Pan S, Qin Z, Liu W, Cheng X, Yang N, Li X, Tran D, Lu D, Hsu M T, Deka R, Marzuki S, Tan C C, Jin L (2008). Paternal genetic affinity between western Austronesians and Daic populations. BMC Evol Biol, 8: 146 CrossRef Google scholar

[28]	Nachman M W, Crowell S L (2000). Estimate of the mutation rate per nucleotide in humans. Genetics, 156: 297–304

[29]	Nei M, Roychoudhury A K (1993). Evolutionary relationships of human populations on a global scale. Mol Biol Evol, 10: 927–943

[30]	Ovchinnikov I V, Gotherstrom A, Romanova G P, Kharitonov V M, Liden K, Goodwin W (2000). Molecular analysis of Neanderthal DNA from the northern Caucasus. Nature, 404: 490–493 CrossRef Google scholar

[31]	Pakendorf B, Novgorodov I N, Osakovskij V L, Danilova A P, Protod'jakonov A P, Stoneking M (2006). Investigating the effects of prehistoric migrations in Siberia: genetic variation and the origins of Yakuts. Hum Genet, 120: 334–353 CrossRef Google scholar

[32]	Ramakrishnan U, Mountain J L (2004). Precision and accuracy of divergence time estimates from STR and SNPSTR variation. Mol Biol Evol, 21: 1960–1971 CrossRef Google scholar

[33]

Semino O, Magri C, Benuzzi G, Lin A A, Al-Zahery N, Battaglia V, Maccioni L, Triantaphyllidis C, Shen P, Oefner P J, Zhivotovsky L A, King R, Torroni A, Cavalli-Sforza L, Underhill P A, Santachiara-Benerecetti A S (2004). Origin, diffusion, and differentiation of Y-chromosome haplogroups E and J: inferences on the neolithization of Europe and later migratory events in the Mediterranean area. Am J Hum Genet, 74: 1023–1034 CrossRef Google scholar

[34]

Semino O, Passarino G, Oefner P J, Lin A A, Arbuzova S, Beckman L E, De Benedictis G, Francalacci P, Kouvatsi A, Limborska S, Marcikiae M, Mika A, Mika B, Primorac D, Santachiara-Benerecetti A S, Cavalli-Sforza L L, Underhill P A (2000). The genetic legacy of Paleolithic Homo sapiens sapiens in extant Europeans: a Y chromosome perspective. Science, 290: 1155–1159 CrossRef Google scholar

[35]	Shi H, Dong Y L, Wen B, Xiao C J, Underhill P A, Shen P D, Chakraborty R, Jin L, Su B (2005). Y-chromosome evidence of southern origin of the East Asian-specific haplogroup O3-M122. Am J Hum Genet, 77: 408–419 CrossRef Google scholar

[36]	Shi H, Zhong H, Peng Y L, Dong Y, Qi X B, Zhang F, Liu L F, Tan S J, Ma R L, Wells R S, Jin L, Su B (2008). Relic distribution of Y-chromosome haplogroup D suggests ancient Paleolithic migration of modern humans in Eastern Asia. BMC Biol, 6: 45 CrossRef Google scholar

[37]	Su B, Jin L, Underhill P, Martinson J, Saha N, McGarvey S T, Shriver M D, Chu J, Oefner P, Chakraborty R, Deka R (2000a). Polynesian origins: insights from the Y chromosome. Proc Natl Acad Sci USA, 97: 8225–8228 CrossRef Google scholar

[38]	Su B, Xiao C, Deka R, Seielstad M T, Kangwanpong D, Xiao J, Lu D, Underhill P, Cavalli-Sforza L, Chakraborty R, Jin L (2000b). Y chromosome haplotypes reveal prehistorical migrations to the Himalayas. Hum Gene, 107: 582–590 CrossRef Google scholar

[39]

Su B, Xiao J, Underhill P, Deka R, Zhang W, Akey J, Huang W, Shen D, Lu D, Luo J, Chu J, Tan J, Shen P, Davis R, Cavalli-Sforza L, Chakraborty R, Xiong M, Du R, Oefner P, Chen Z, Jin L (1999). Y-chromosome evidence for a northward migration of modern humans into Eastern Asia during the last Ice Age. Am J Hum Genet, 65: 1718–1724 CrossRef Google scholar

[40]	Thangaraj K, Chaubey G, Kivisild T, Reddy A G, Singh V K, Rasalkar A A, Singh L (2005). Reconstructing the origin of Andaman Islanders. Science, 308: 996 CrossRef Google scholar

[41]	The Y Chromosome Consortium (2002). A nomenclature system for the tree of human Y-chromosomal binary haplogroups. Genome Res, 12: 339–348 CrossRef Google scholar

[42]	Thorne A, Grun R, Mortimer G, Spooner N A, Simpson J J, McCulloch M, Taylor L, Curnoe D (1999). Australia's oldest human remains: age of the Lake Mungo 3 skeleton. J Hum Evol, 36: 591–612 CrossRef Google scholar

[43]	Thorne A G, Wolpoff M H (1992). The multiregional evolution of humans. Sci Am, 266: 76–83

[44]	Tishkoff S A, Dietzsch E, Speed W, Pakstis A J, Kidd J R, Cheung K, Bonne-Tamir B, Santachiara-Benerecetti A S, Moral P, Krings M (1996). Global patterns of linkage disequilibrium at the CD4 locus and modern human origins. Science, 271: 1380–1387 CrossRef Google scholar

[45]	Turner C G 2nd (1987). Late Pleistocene and Holocene population history of East Asia based on dental variation. Am J Phys Anthropol, 73: 305–321 CrossRef Google scholar

[46]	Underhill P A, Passarino G, Lin A A, Shen P, Mirazon Lahr M, Foley R A, Oefner P J, Cavalli-Sforza L L (2001). The phylogeography of Y chromosome binary haplotypes and the origins of modern human populations. Ann Hum Genet, 65: 43–62 CrossRef Google scholar

[47]

Underhill P A, Shen P, Lin A A, Jin L, Passarino G, Yang W H, Kauffman E, Bonne-Tamir B, Bertranpetit J, Francalacci P, Ibrahim M, Jenkins T, Kidd J R, Mehdi S Q, Seielstad M T, Wells R S, Piazza A, Davis R W, Feldman M W, Cavalli-Sforza L L, Oefner P J (2000). Y chromosome sequence variation and the history of human populations. Nat Genet, 26: 358–361 CrossRef Google scholar

[48]	Vigilant L, Stoneking M, Harpending H, Hawkes K, Wilson A C (1991). African populations and the evolution of human mitochondrial DNA. Science, 253: 1503–1507 CrossRef Google scholar

[49]	Weale M E, Shah T, Jones A L, Greenhalgh J, Wilson J F, Nymadawa P, Zeitlin D, Connell D A, Bradman N, Thomas M G (2003). Rare deep-rooting Y chromosome lineages in humans: lessons for phylogeography. Genetics, 165: 229–234

[50]

Wells R S, Yuldasheva N, Ruzibakiev R, Underhill P A, Evseeva I, Blue-Smith J, Jin L, Su B, Pitchappan R, Shanmugalakshmi S, Balakrishnan K, Read M, Pearson N M, Zerjal T, Webster M T, Zholoshvili I, Jamarjashvili E, Gambarov S, Nikbin B, Dostiev A, Aknazarov O, Zalloua P, Tsoy I, Kitaev M, Mirrakhimov M, Chariev A, Bodmer W F (2001). The Eurasian heartland: a continental perspective on Y-chromosome diversity. Proc Natl Acad Sci USA, 98: 10244–10249 CrossRef Google scholar

[51]	Wen B, Li H, Gao S, Mao X, Gao Y, Li F, Zhang F, He Y, Dong Y, Zhang Y, Huang W, Jin J, Xiao C, Lu D, Chakraborty R, Su B, Deka R, Jin L (2005). Genetic structure of Hmong-Mien speaking populations in East Asia as revealed by mtDNA lineages. Mol Biol Evol, 22: 725–734 CrossRef Google scholar

[52]	Wen B, Li H, Lu D, Song X, Zhang F, He Y, Li F, Gao Y, Mao X, Zhang L, Qian J, Tan J, Jin J, Huang W, Deka R, Su B, Chakraborty R, Jin L (2004a). Genetic evidence supports demic diffusion of Han culture. Nature, 431: 302–305 CrossRef Google scholar

[53]	Wen B, Xie X, Gao S, Li H, Shi H, Song X, Qian T, Xiao C, Jin J, Su B, Lu D, Chakraborty R, Jin L (2004b). Analyses of genetic structure of Tibeto-Burman populations reveals sex-biased admixture in southern Tibeto-Burmans. Am J Hum Genet, 74: 856–865 CrossRef Google scholar

[54]	White T D, Asfaw B, DeGusta D, Gilbert H, Richards G D, Suwa G, Howell F C (2003). Pleistocene Homo sapiens from Middle Awash, Ethiopia. Nature, 423: 742–747 CrossRef Google scholar

[55]	Wilson A C, Cann R L (1992). The recent African genesis of humans. Sci Am, 266: 68–73

[56]	Wu H C, Poirier F E, Wu X Z (1995). Human evolution in China: a metric description of the fossils and a review of the sites. Oxford: Oxford Univ Press

[56]	Xue Y, Zerjal T, Bao W, Zhu S, Shu Q, Xu J, Du R, Fu S, Li P, Hurles M E, Yang H, Tyler-Smith C (2006). Male demography in East Asia: a north-south contrast in human population expansion times. Genetics, 172: 2431–2439

[58]	Yao Y G, Kong Q P, Bandelt H J, Kivisild T, Zhang Y P (2002). Phylogeographic differentiation of mitochondrial DNA in Han Chinese. Am J Hum Genet, 70: 635–651 CrossRef Google scholar

[59]	Yao Y G, Watkins W S, Zhang Y P (2000). Evolutionary history of the mtDNA 9-bp deletion in Chinese populations and its relevance to the peopling of east and southeast Asia. Hum Genet, 107: 504–512 CrossRef Google scholar

[60]	Zegura S L, Karafet T M, Zhivotovsky L A, Hammer M F (2004). High-resolution SNPs and microsatellite haplotypes point to a single, recent entry of native American Y chromosomes into the Americas. Mol Biol Evol, 21: 164–175 CrossRef Google scholar

[61]	Zerjal T, Wells R S, Yuldasheva N, Ruzibakiev R, Tyler-Smith C (2002). A genetic landscape reshaped by recent events: Y-chromosomal insights into central Asia. Am J Hum Genet, 71: 466–482 CrossRef Google scholar

[62]

Zerjal T, Xue Y, Bertorelle G, Wells R S, Bao W, Zhu S, Qamar R, Ayub Q, Mohyuddin A, Fu S, Li P, Yuldasheva N, Ruzibakiev R, Xu J, Shu Q, Du R, Yang H, Hurles M E, Robinson E, Gerelsaikhan T, Dashnyam B, Mehdi S Q, Tyler-Smith C (2003). The genetic legacy of the Mongols. Am J Hum Genet, 72: 717–721 CrossRef Google scholar

[63]	Zhao T M, Lee T D (1989). Gm and Km allotypes in 74 Chinese populations: a hypothesis of the origin of the Chinese nation. Hum Genet, 83: 101–110 CrossRef Google scholar

[64]	Zhao T M, Zhang G L, Zhu Y M, Zheng S Q, Lui D Y, Chen Q, Zhang X (1986). The distribution of immunoglobulin Gm allotypes in forty Chinese populations. Acta Anthropol Sin, 6: 1–8 (in Chinese)