Stanislav V Dryomov, Elena B Starikovskaya, Azhar M Nazhmidenova, Igor V Morozov, Rem I Sukernik
{"title":"几乎灭绝的海上部落线粒体基因组中东北亚海岸土著文化的遗传遗产。","authors":"Stanislav V Dryomov, Elena B Starikovskaya, Azhar M Nazhmidenova, Igor V Morozov, Rem I Sukernik","doi":"10.1186/s12862-020-01652-1","DOIUrl":null,"url":null,"abstract":"<p><strong>Background: </strong>We have described the diversity of complete mtDNA sequences from 'relic' groups of the Russian Far East, primarily the Nivkhi (who speak a language isolate with no clear relatedness to any others) and Oroki of Sakhalin, as well as the sedentary Koryak from Kamchatka and the Udegey of Primorye. Previous studies have shown that most of their traditional territory was dramatically reshaped by the expansion of Tungusic-speaking groups.</p><p><strong>Results: </strong>Overall, 285 complete mitochondrial sequences were selected for phylogenetic analyses of published, revised and new mitogenomes. To highlight the likely role of Neolithic expansions in shaping the phylogeographical landscape of the Russian Far East, we focus on the major East Eurasian maternal lineages (Y1a, G1b, D4m2, D4e5, M7a2, and N9b) that are restricted to the coastal area. To obtain more insight into autochthonous populations, we removed from the phylogeographic analysis the G2a, G3a2, M8a1, M9a1, and C4b1 lineages, also found within our samples, likely resulting from admixture between the expanding proto-Tungus and the indigenous Paleoasiatic groups with whom they assimilated. Phylogenetic analysis reveals that unlike the relatively diverse lineage spectrum observed in the Amur estuary and northwestern Sakhalin, the present-day subpopulation on the northeastern coast of the island is relatively homogenous: a sole Y1a sublineage, conspicuous for its nodal mutation at m.16189 T > C!, includes different haplotypes. Sharing of the Y1a-m.16189 T > C! sublineages and haplotypes among the Nivkhi, Ulchi and sedentary Koryak is also evident. Aside from Y1a, the entire tree approach expands our understanding of the evolutionary history of haplogroups G1, D4m, N9b, and M7a2. Specifically, we identified the novel haplogroup N9b1 in Primorye, which implies a link between a component of the Udegey ancestry and the Hokkaido Jomon.</p><p><strong>Conclusions: </strong>Through a comprehensive dataset of mitochondrial genomes retained in autochthonous populations along the coast between Primorye and the Bering Strait, we considerably extended the sequence diversity of these populations to provide new features based on the number and timing of founding lineages. We emphasize the value of integrating genealogical information with genetic data for reconstructing the population history of indigenous groups dramatically impacted by twentieth century resettlement and social upheavals.</p>","PeriodicalId":9111,"journal":{"name":"BMC Evolutionary Biology","volume":"20 1","pages":"83"},"PeriodicalIF":3.4000,"publicationDate":"2020-07-13","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1186/s12862-020-01652-1","citationCount":"4","resultStr":"{\"title\":\"Genetic legacy of cultures indigenous to the Northeast Asian coast in mitochondrial genomes of nearly extinct maritime tribes.\",\"authors\":\"Stanislav V Dryomov, Elena B Starikovskaya, Azhar M Nazhmidenova, Igor V Morozov, Rem I Sukernik\",\"doi\":\"10.1186/s12862-020-01652-1\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background: </strong>We have described the diversity of complete mtDNA sequences from 'relic' groups of the Russian Far East, primarily the Nivkhi (who speak a language isolate with no clear relatedness to any others) and Oroki of Sakhalin, as well as the sedentary Koryak from Kamchatka and the Udegey of Primorye. Previous studies have shown that most of their traditional territory was dramatically reshaped by the expansion of Tungusic-speaking groups.</p><p><strong>Results: </strong>Overall, 285 complete mitochondrial sequences were selected for phylogenetic analyses of published, revised and new mitogenomes. To highlight the likely role of Neolithic expansions in shaping the phylogeographical landscape of the Russian Far East, we focus on the major East Eurasian maternal lineages (Y1a, G1b, D4m2, D4e5, M7a2, and N9b) that are restricted to the coastal area. To obtain more insight into autochthonous populations, we removed from the phylogeographic analysis the G2a, G3a2, M8a1, M9a1, and C4b1 lineages, also found within our samples, likely resulting from admixture between the expanding proto-Tungus and the indigenous Paleoasiatic groups with whom they assimilated. Phylogenetic analysis reveals that unlike the relatively diverse lineage spectrum observed in the Amur estuary and northwestern Sakhalin, the present-day subpopulation on the northeastern coast of the island is relatively homogenous: a sole Y1a sublineage, conspicuous for its nodal mutation at m.16189 T > C!, includes different haplotypes. Sharing of the Y1a-m.16189 T > C! sublineages and haplotypes among the Nivkhi, Ulchi and sedentary Koryak is also evident. Aside from Y1a, the entire tree approach expands our understanding of the evolutionary history of haplogroups G1, D4m, N9b, and M7a2. 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引用次数: 4
摘要
背景:我们已经描述了来自俄罗斯远东地区“遗迹”群体的完整mtDNA序列的多样性,主要是Nivkhi(他们说一种与任何其他人没有明确关系的孤立语言)和库页岛的Oroki,以及来自堪察加半岛的定居Koryak和滨海边疆区的Udegey。先前的研究表明,通古斯语群体的扩张极大地改变了他们的大部分传统领土。结果:总的来说,285个完整的线粒体序列被选择用于已发表的、修订的和新的有丝分裂基因组的系统发育分析。为了突出新石器时代扩张在塑造俄罗斯远东地区系统地理景观中的可能作用,我们将重点放在主要的东欧亚母系(Y1a, G1b, D4m2, D4e5, M7a2和N9b)上,这些母系仅限于沿海地区。为了更深入地了解土著群体,我们从系统地理分析中删除了在我们的样本中发现的G2a, G3a2, M8a1, M9a1和C4b1谱系,这些谱系可能是由扩张的原始通古斯人和他们同化的土著古亚洲群体之间的混合造成的。系统发育分析显示,与在阿穆尔河河口和库页岛西北部观察到的相对多样化的谱系谱不同,目前在该岛东北海岸的亚种群相对同质:一个单一的Y1a亚谱系,其在m.16189 T > C处的节点突变很明显!,包括不同的单体型。Y1a-m.16189 T > C的分享!Nivkhi, Ulchi和久坐的Koryak之间的亚谱系和单倍型也很明显。除了Y1a,整个树的方法扩展了我们对单倍群G1, D4m, N9b和M7a2的进化史的理解。具体来说,我们在滨海地区发现了新的单倍群N9b1,这意味着Udegey祖先的一个组成部分与北海道绳纹之间存在联系。结论:通过在滨海边疆区和白令海峡之间沿海地区的本土种群中保留的线粒体基因组的综合数据集,我们大大扩展了这些种群的序列多样性,并根据建立谱系的数量和时间提供了新的特征。我们强调整合家谱信息与遗传数据的价值,以重建受20世纪重新安置和社会动荡严重影响的土著群体的人口历史。
Genetic legacy of cultures indigenous to the Northeast Asian coast in mitochondrial genomes of nearly extinct maritime tribes.
Background: We have described the diversity of complete mtDNA sequences from 'relic' groups of the Russian Far East, primarily the Nivkhi (who speak a language isolate with no clear relatedness to any others) and Oroki of Sakhalin, as well as the sedentary Koryak from Kamchatka and the Udegey of Primorye. Previous studies have shown that most of their traditional territory was dramatically reshaped by the expansion of Tungusic-speaking groups.
Results: Overall, 285 complete mitochondrial sequences were selected for phylogenetic analyses of published, revised and new mitogenomes. To highlight the likely role of Neolithic expansions in shaping the phylogeographical landscape of the Russian Far East, we focus on the major East Eurasian maternal lineages (Y1a, G1b, D4m2, D4e5, M7a2, and N9b) that are restricted to the coastal area. To obtain more insight into autochthonous populations, we removed from the phylogeographic analysis the G2a, G3a2, M8a1, M9a1, and C4b1 lineages, also found within our samples, likely resulting from admixture between the expanding proto-Tungus and the indigenous Paleoasiatic groups with whom they assimilated. Phylogenetic analysis reveals that unlike the relatively diverse lineage spectrum observed in the Amur estuary and northwestern Sakhalin, the present-day subpopulation on the northeastern coast of the island is relatively homogenous: a sole Y1a sublineage, conspicuous for its nodal mutation at m.16189 T > C!, includes different haplotypes. Sharing of the Y1a-m.16189 T > C! sublineages and haplotypes among the Nivkhi, Ulchi and sedentary Koryak is also evident. Aside from Y1a, the entire tree approach expands our understanding of the evolutionary history of haplogroups G1, D4m, N9b, and M7a2. Specifically, we identified the novel haplogroup N9b1 in Primorye, which implies a link between a component of the Udegey ancestry and the Hokkaido Jomon.
Conclusions: Through a comprehensive dataset of mitochondrial genomes retained in autochthonous populations along the coast between Primorye and the Bering Strait, we considerably extended the sequence diversity of these populations to provide new features based on the number and timing of founding lineages. We emphasize the value of integrating genealogical information with genetic data for reconstructing the population history of indigenous groups dramatically impacted by twentieth century resettlement and social upheavals.
期刊介绍:
BMC Evolutionary Biology is an open access, peer-reviewed journal that considers articles on all aspects of molecular and non-molecular evolution of all organisms, as well as phylogenetics and palaeontology.