11冊目の単著紹介


斎藤研究室日本語HPトップへ
書名:核DNA解析でたどる日本人の源流
著者:斎藤 成也(さいとう なるや)
発行日:科学紀元17年(西歴2017年)11月5日
出版社:河出書房新社
ISBN: 978-4-309-25372-5
定価:1512円(1400円+消費税)
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本書210-213頁にリストした引用文献は、初出頁順ですが、ここでは著者の五十音順としました。 引用文献の末尾のかっこの中に、この文献を引用して書かれた本文の頁番号がしめしてあります。 <著書> 井口直司 (2012) 縄文土器ガイドブック--縄文土器の世界. 新泉社. (75頁) 石原道博訳 (1985) 新訂 魏志倭人伝・後漢書倭伝・宋書倭国伝・隋書倭国伝. 岩波文庫. (190頁) 泉拓良・今村啓爾編 (2013) 講座日本の考古学3 縄文時代(上). 青木書店. (74頁) 泉拓良・今村啓爾編 (2014) 講座日本の考古学4 縄文時代(下). 青木書店. (74頁) 印東道子編著(2013)人類の移動誌. 臨川書店. (34頁) 宇治谷孟訳 (1988) 日本書紀全現代語訳 (上・下).講談社学術文庫. (145-146頁) 長田夏樹 (2010) 邪馬台国の言語. 学生社. (189-190頁) 尾本惠市 (1996) 分子人類学と日本人の起源. 裳華房. (52-54頁) 海部陽介 (2016) 日本人はどこから来たか. 文藝春秋社. (70頁, 72頁) 角張淳一 (2010) 旧石器捏造事件の研究. 鳥影社. (70頁) Kanzawa-Kiriyama H. (2014) Ancient genomic DNA analysis of Jomon people. 総合研究大学院大学生命科学研究科遺伝学専攻博士論文. (105頁, 112頁) 金関丈夫 (1976) 日本民族の起源. 法政大学出版局. (121頁) 鬼頭宏 (2007)人口で見る日本史. PHP. (150頁) 木村資生 (1988) 生物進化を考える. 岩波新書. (195頁) 工藤隆 (2012) 古事記誕生. 中公新書. (70頁) 倉野憲司訳 (1963) 古事記. 岩波文庫. (191頁) 呉秀三 (1967) シーボルト先生1. 東洋文庫, 70頁. (192頁) 神野志隆光 (2016) 「日本」国号の由来と歴史. 講談社学術文庫. (7頁, 68頁) 小山修三 (1984) 縄文時代. 中公新書. (151頁) 斎藤成也(2005)DNAからみた日本人.ちくま新書.(39頁, 70頁, 116-118頁, 123-125頁) 斎藤成也 (2007) ゲノム進化学入門.共立出版. (4-5頁, 193-200頁) 斎藤成也編著(2009)絵でわかる人類の進化.講談社.(18-25頁) 斎藤成也(2015)日本列島人の歴史.岩波ジュニア新書.(7-10頁, 68-73頁, 87頁, 128頁, 148頁, 165頁) 斎藤成也(2016)歴誌主義宣言.ウェッジ.(187頁) 斎藤成也監修(2016)DNAからわかった日本人のルーツ. 別冊宝島. (205頁) Jinam T. A. (2011) The genetic diversity and population history of indigenous peoples in Asia. 総合研究大学院大学生命科学研究科遺伝学専攻博士論文. (133頁) 篠田謙一 (2015)日本人の起源.岩波書店.(112頁, 180頁) 島尾敏雄 (1977) ヤポネシア考. 葦書房. (7頁) 鈴木尚 (1983)骨から見た日本人のルーツ. 岩波新書.(121頁) 瀬川拓郎(2015)アイヌ学入門.講談社現代新書.(147頁) 瀬川拓郎(2016)アイヌと縄文.ちくま新書.(147頁) 勅使河原彰 (2016) 縄文時代史.新泉社.(76頁) 寺田和夫 (1975) 日本の人類学. 思索社{1981年に角川文庫から香原志勢の解説をつけて再版}. (116-119頁) 百々幸雄 (2015) アイヌと縄文人の骨学的研究〜骨と語り合った40年〜. 東北大学出版会. (121頁) 中橋孝博 (2005) 日本人の起源. 講談社選書メチエ. (148頁) 埴原和郎(1995)日本人の成り立ち.人文書院.(8頁, 76-78頁, 123頁) 長谷部言人 (1951) 日本人の祖先. 岩波書店. {1983年、築地書館より近藤四郎の解説をつけて再版.}(121頁) 樋口隆康 (1971) 日本人はどこから来たか.講談社現代新書.(118頁) 藤尾慎一郎(2012)<新>弥生時代. 吉川弘文館. (170頁) 古畑種基(1962)血液型の話.岩波新書.(184頁) 宝来聰 (1997) DNA人類進化学.岩波科学ライブラリー. (26頁, 79頁, 124頁, 174頁, 178頁) 毎日新聞旧石器遺跡取材班 (2003) 発掘捏造. 新潮文庫. (70頁) 松藤和人 (2010) 検証「前期旧石器遺跡発掘捏造事件」. 雄山閣. (70頁) 松本建速 (2011) 蝦夷とは誰か. 同成社. (146頁) 松本清張 (1961) 砂の器. カッパノベルズ.{1973年新潮文庫に所収} (156頁) モーウッド M. & オオステルチィ P. 著, 馬場悠男監訳、仲村明子訳 (2008) ホモ・フロレシエンシス (上)・(下). NHKブックス. (51頁) 山口敏 (1999) 日本人の生いたち. みすず書房. (76頁, 123頁) 山田秀三 (1993) 東北・アイヌ語地名の研究. 草風館. (146頁) 山田康弘(2015)つくられた縄文時代.新潮選書. (76頁) <論文> 安達登・篠田謙一・梅津和夫 (2008) 北海道伊達市有珠モシリ遺跡出土人骨のミトコンドリアDNA多型解析. DNA多型 16: 287-290. 安達登・篠田謙一・梅津和夫 (2009) ミトコンドリアDNA多型からみた北日本縄文人. DNA多型 17: 265-269. Adachi N. et al. (2009) Mitochondrial DNA analysis of Jomon skeletons from the Funadomari site, Hokkaido, and its implication for the origins of Native American. American. American Journal of Physical Anthropology, 138: 255-265. Adachi N. et al. (2011) Mitochondrial DNA Analysis of Hokkaido Jomon Skeletons: Remnants of Archaic Maternal Lineages at the Southwestern Edge of Former Beringia. American. American Journal of Physical Anthropology, 146: 346-360. Bannai M. et al. (2000) Analysis of HLA genes and haplotypes in Ainu (from Hokkaido, northern Japan) supports the premise that they descent from Upper Paleolithic populations of East Asia. Tissue Antigens 55:128-139. Cann R. et al. (1987) Mitochondrial DNA and human evolution. Nature, 325, 31-36. (23頁) Cavalli-Sforza L.L. and Edwards A.W.F. (1967) Phylogenetic analysis. Models and estimation procedures. American Journal of Human Genetics 19: 233-257. (23頁) Chang C.-H. et al. (2015) The first archaic Homo from Taiwan. Nature Communications 6: 6037. Chaplin G. (2004) Geographic distribution of environmental factors influencing human skin coloration. American Journal of Physical Anthropology 125: 292-302. Dart R. (1925) Australopithecus africanus: The Man-Ape of South Africa. Nature 115:195-199. (19頁) Di D. et al. (2015) Computer simulation of human leukocyte antigen genes supports two main routes of colonization by human populations in East Asia. BMC Evolutionary Biology 15: 240. Excoffier L. and Ray N. (2008) Surfing during population expansions promotes genetic revolutions and structuration. Trends in Ecology and Evolution 23: 347-351. Fu C.-M. et al. (2013) DNA analysis of an early modern human from Tianyuan Cave, China. PNAS vol. 110, no. 6, pp. 2223-2227. Fujita Y. et al. (1978) The distribution of the ABO blood groups in Japan. Japanese Journal of Human Genetics 23:63-109. Gakuhari T. et al. (2016) The preliminary report for genome sequencing of a Jomon woman from the Ikawadu shell mound site in the Atsumi peninsula. Anthropological Science 124: 204. Green R. E. et al. (2010) A Draft Sequence of the Neandertal Genome. Science 328: 710-722. Hammer M. F. et al. (2006) Dual origins of the Japanese: common ground for hunter-gatherer and farmer Y chromosomes. Journal of Human Genetics 51:47-58. Hanihara K. (1987) Estimation of the Number of Early Migrants to Japan: A Simulative Study. Journal of Anthropological Society of Nippon 95: 391-403. Hanihara K. (1991) Dual structure model for the population history of Japanese. Japan Review 2: 1-33. Harihara S. et al. (1988) Mitochondrial DNA polymorphism among five Asian populations. American Journal of Human Genetics 43: 134-143. Hara Y. et al. (2012) Reconstructing the Demographic History of the Human Lineage Using Whole-Genome Sequences from Human and Three Great Apes. Genome Biology and Evolution 4: 1133-1145. (19頁) He Y. et al. (2012) Paleolithic Contingent in Modern Japanese: Estimation and Inference using Genome-wide Data. Scientific Report 2: 355. Horai S. et al. (1991) Phylogenetic affiliation of ancient and contemporary humans inferred from mitochondrial DNA. Phil. Trans. R Soc. Lond. B 333: 409-417. Horai S. et al. (1996) mtDNA polymorphism in East Asian Populations, with special reference to the peopling of Japan. Am. J. Hum. Genet. 59: 579-590. HUGO Pan-Asian SNP Consortium (2009) Mapping human genetic diversity in Asia. Science 326: 1541-1545. Ingman M. et al. (2000) Mitochondrial genome variation and the origin of modern humans. Nature 408: 708-713. (23頁) The International Chimpanzee Chromosome 22 Consortium (2004) DNA sequence and comparative analysis of chimpanzee chromosome 22. Nature 429: 382-388. International Human Genome Sequencing Consortium (2004) Finishing the euchromatic sequence of the human genome. Nature 431: 931-945. (4頁) The International HapMap Consortium (2005) A haplotype map of the human genome. Nature 437: 1299-1320. Kanzawa-Kiriyama H. et al. (2013) Ancient mitochondrial DNA sequences of Jomon teeth samples from Sanganji, Tohoku district, Japan. Anthropological Science 121: 89-103. Kanzawa-Kiriyama H. et al. (2016) Nuclear Genome Analysis of Jomon people from the Funadomari site, Rebun island. Anthropological Science 124: 209. (10頁, 91-111頁) Kumasaka N. et al. (2010) Establishment of a standardized system to perform population structure analyses with limited sample size or with different sets of SNP genotypes. Journal of Human Geneics 575: 523-533. Japanese Archipelago Human Population Genetics Consortium (2012) The history of human populations in the Japanese Archipelago inferred from genome-wide SNP data with a special reference to the Ainu and the Ryukyuan populations. Journal of Human Genetics 57: 787-795. (9頁, 133-143頁)) Jeong C. et al. (2016) Deep History of East Asian Populations Revealed Through Genetic Analysis of the Ainu. Genetics 202: 261-272. Jinam T. A. et al. (2015) Unique characteristics of the Ainu population in Northern Japan. Journal of Human Genetics 60: 565-571. Jinam T. A. et al. (2016) The history of human populations in the Japanese Archipelago and genetically differentiated regions inferred from genome-wide SNP. Anthropological Science 120: 286. Jinam T.A. and Saitou N. (2016) Genetic substructure in the Japanese people inferred from genome-wide SNP data. Anthropological Science 124: 208. Jinam T. A. et al. (2017) Discerning the origins of the Negritos, First Sundaland People: deep divergence and archaic admixture. Genome Biology and Evolution 9: 2013?2022. Kanzawa-Kiriyama H. et al. (2016) A partial nuclear genome of the Jomons who lived 3000 years ago in Fukushima, Japan. Journal of Human Genetics オンライン出版:9月1日 {紙媒体出版: 2017年, 62: 213-221}. Kawai Y. et al. (2015) Japonica array: improved genotype imputation by designing a population-specific SNP array with 1070 Japanese individuals. Journal of Human Genetics 60: 581-587. Koyama S. (1978) Jomon subsistence and population. Senri Ethnological Studies 2: 1-65. Krings M. et al. (1997) Neandertal DNA sequences and the origin of modern humans. Cell 90: 19-30. (21頁) Kryukov K. and Saitou N. (2010) MISHIMA - a new method for high speed multiple alignment of nucleotide sequences of bacterial genome scale data. BMC Bioinformatics 11: 142. Kuon S. Y. et al. (2015) Confirmation of Y haplogroup tree topologies with newly suggested Y-SNPs for the C2, O2b and O3a subhaplogroups. Forensic Science International 19: 42-46. Li J. Z. et al. (2008) Worldwide human relationships inferred from genome-wide patterns of variation. Science 319: 1100-1104. Liu X. and Fu Y.-X. (2015) Exploring population size changes using SNP frequency spectra. Nature Genetics 47: 555-559. (34-38頁) Malaspinas A.-S. et al. A genomic history of Aboriginal Australia. (2016) Nature 538: 207-214. (37頁, 61-62頁) Matsumura H. (2007) Non-metric dental trait variation among local sites and regional groups of the Neolithic Jomon period, Japan. Anthropological Science 115: 25-33. Matsumura H. and Dodo Y. (2009) Dental characteristics of Tohoku residents in Japan:implications for biological affinity with ancient Emishi. Anthropological Science 117: 95-105. Mendez F. L. et al. (2013) An African American paternal lineage adds an extremely ancient root to the human Y chromosome phylogenetic tree. American Journal of Human Genetics 92: 454-459. Meyer M. et al. (2014) A mitochondrial genome sequence of a hominin from Sima de los Huesos. Nature 505: 403-406. Misawa S. et al. (1974) The distribution of genetic markers in blood samples from Okinawa, the Ryukyus. Journal of Anthropological Society of Nippon 82: 135-143. Mondal M et al. (2016) Genomic analysis of Andamanese provides insights into ancient human migration into Asia and adaptation. Nature Genetics, 48: 1066-1070. Nagasaki M. et al. (2015) Rare variant discovery by deep whole-genome sequencing of 1,070 Japanese individuals. Nature Communications 6:8018. (6頁) 内藤芳篤 (1984) 九州における縄文人骨から弥生人骨への移行. 人類学 その多様な発展, 52-59. Nakagome S. et al. (2015) Model-Based Verification of Hypotheses on the Origin of Modern Japanese Revisited by Bayesian Inference Based on Genome-Wide SNP Data. Mol. Biol. Evol. 32: 1533-1543. Nakajima H. et al. (1967) The distribution of several serological and biochemical traits in east Asia. II. The distribution of ABO, MNSs, Q, Lewis, Rh, Kell, Duffy and Kidd blood groups in Ryukyu. Japanese Journal of Human Genetics 12:29-37. Nakaoka H. et al. (2013) Detection of ancestry informative HLA alleles confirms the admixed origins of Japanese population. PLoS One 8: e60793. Nei M. and Roychoudhury A. (1974) Genic variation within and between the three major races of man, Caucasoids, Negroids, and Mongoloids. American Journal of Human Genetics 26: 421-443. (23頁) Ohashi J. et al. (2011) The impact of natural selection on an ABCC11 SNP determining earwax type. Molecular Biology and Evolution, 28: 849-857. (44頁) Omoto K. and Saitou N. (1997) Genetic origins of the Japanese: A partial support for the dual structure hypothesis. American Journal of Physical Anthropology 102: 437-446. Oota H. et al. (1995) A Genetic Study of 2,000-Year-Old Human Remains From Japan Using Mitochondria1 DNA Sequences. American Journal of Physical Anthropology 98:133-145. The 1000 Genomes Project Consortium (2012) An integrated map of genetic variation from 1,092 human genomes. Nature 491: 56-65. Patterson N. et al. (2006) Population structure and eigenanalysis. PLoS Genetics 2: e190. Pickrell J. K. and Pritchard J. K. (2012) Inference of population splits and mixtures from genome-wide allele frequency data. PLoS Genet. 8: e1002967. Poznik G. D. et al. (2016) Punctuated bursts in human male demography inferred from 1,244 worldwide Y-chromosome sequences. Nature Genetics 48: 593-601. Prufer K. et al. (2014) The complete genome sequence of a Neanderthal from the Altai Mountains. Nature 505: 43-49. Reich D. et al. (2010) Genetic history of an archaic hominin group from Denisova Cave in Siberia. Nature 468: 1053-1060. Reich D. et al. (2011) Denisova Admixture and the First Modern Human Dispersals into Southeast Asia and Oceania. American Journal of Human Genetics, 89: 516-528. Richter D. et al. (2017) The age of the hominin fossils from Jebel Irhoud, Morocco, and the origins of the Middle Stone Age. Nature 546: 293-296. Saitou N. (1995) A genetic affinity analysis of human populations. Human Evolution 10: 17-33. (7頁) Saitou N. (2005) Evolution of hominoids and the search for a genetic basis for creating humanness. Cytogenetic and Genome Research 108: 16-21. 斎藤成也 (2009) ヒトゲノム研究の新しい地平. Anthropological Science Japanese Series 117: 1-9. 斎藤成也・神澤秀明 (2013) DNAからたどる南アジア人の系統. 長田直樹編『インダス 南アジア基層世界を探る』京都大学学術出版会, 343-361. 斎藤成也 (2016) ゲノム配列とゲノム規模SNPデータが解明する現生人類の進化. 遺伝 70: 460-464. Saitou N. and Jinam T. A. (2017) LANGUAGE DIVERSITY OF THE JAPANESE ARCHIPELAGO AND ITS RELATIONSHIP WITH HUMAN DNA DIVERSITY. Man in India 97: 205-228. 斎藤成也(2017)日本列島人の起源と成立. 現代思想 6月号, 128-144. 斎藤成也 (2017) 日本人起源論研究をしばってきたものごと.井上章一編『学問をしばるもの--人文諸学の歩みから』. 思文閣出版 (印刷中). Saitou N. and Nei M. (1987) The neighbor-joining method: a new method for reconstructing phylogenetic trees. Molecular Biology and Evolution 4: 406-425. (30頁, 47-48頁, 105頁, ) Sato T. et al. (2009) Mitochondrial DNA haplogrouping of the Okhotsk people based on analysis of ancient DNA: an intermediate of gene flow from the continental Sakhalin people to the Ainu. Anthropological Science 117: 171-180. Sato Y. et al. (2014) Overview of genetic variation in the Y chromosome of modern Japanese males. Anthropological Science 122: 131-136. Shinoda K. and Kanai S. (1999) Intracemetery Genetic Analysis at the Nakazuma Jomon Site in Japan by Mitochondrial DNA Sequencing. Anthropological Science, 107: 129-140. Skogland P. et al. (2016) Genomic insights into the peopling of the Southwest Pacific. Nature 538: 510-513. Tajima A. et al. (2003) Genetic origins of the Ainu inferred from combined DNA analyses of maternal and paternal lineages. Journal of Human Geneics 49: 187-193. Takahata N. (1993) Allelic genealogy and human evolution. Molecular Biology and Evolution 10: 2-22. (22頁) Tanaka M. et al. (2004) Mitochondrial Genome Variation in Eastern Asia and the Peopling of Japan. Genome Research 14: 1832-1850. Tian C. et al. (2008) Analysis of East Asia Genetic Substructure Using Genome-Wide SNP Arrays. PLoS One 3, e3862. Tishkoff S. et al. (2009) The genetic structure and history of Africans and African Americans. Science 324: 1035-1044. (30-33頁) Wang L. et al. (2000) Genetic structure of a 2,500-year-old human population in China and its spatiotemporal changes. Mol. Biol. Evol., 17:1396-1400. White T. et al. (2009) Ardipithecus ramidus and the Paleobiology of Early Hominids. Science 326: 64-86. (19頁) Yamaguchi-Kabata Y. et al. (2008) Japanese Population Structure, Based on SNP Genotypes from 7003 Individuals Compared to Other Ethnic Groups: Effects on Population-Based Association Studies. American Journal of Human Genetics 83: 445-456. Yoshiura K. et al. (2006) A SNP in the ABCC11 gene is the determinant of human earwax type. Nature Genetics 38: 324-330. (42-44頁)
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更新日=科学紀元18年(西暦2018年)3月8日
(c)2017 & 2018 斎藤成也