基于DNA分子的现代人起源研究35年回顾与展望

1983年,有学者首次发表现代人线粒体DNA进化树,认为现代人可能起源自亚洲。1987年,又有学者按照分子钟假说得到线粒体在10-20万年前出自非洲的推论。随后,以分子钟为前提的Y染色体和常染色体DNA研究也支持了出非洲的结论,该结论逐渐成为分子进化领域的主流理论。2010年,对尼安德特人常染色体基因组的研究指出其对现代人有遗传贡献,这颠覆了人们先前关于现代人只来源自非洲,其他大洲的当地古人被完全取代的认知。目前,单地区起源说已经被修正为同化说。尽管学界对非洲人遗传多样性最高这一现象有共识,但是对该现象的不同解读却可以得出两种迥然不同的结果,现代人出亚洲说和出非洲说。大量研究证实基因组的大部分序列是有功能的,并处在遗传变异水平的饱和态,这质疑了中性理论以及由它推导的现代人出非洲说的合理性,而中性理论的提出恰恰是用来解释并非普遍存在的分子钟的。近年来已经有研究者从新理论的角度解读遗传多样性的饱和态和线性态,人们对现代人起源的认识将会进一步加深完善。     

多重分布与现代人类起源

尽管有大量证据,但现代人类的起源问题仍然没有解决。目前通常归之为“非洲起源论”和“多源论”两种观点。“多源论”是第一个综合性的现代人类进化理论。它解释了现代人类自更新世的起源及随后出现的地区多样性。“多源论”的首创者魏敦瑞认为亚洲和澳洲人形态的差异源于相对独立进化的中国猿人（Ｓｉｎａ—ｎｔｈｒｏＰｕｓ）和猿人（Ｐｌｔｈｏcaｎｔｈｒｏｐｕｓ）。最近沃尔波夫（Wolpoff）等提出了一种早期多源说的修正版,认为“基因流”（ｇｅｎｅflow）从中起了主导作用。“非洲起源论”要更新一些,它是基于在非洲和其他地区发…     

中国古人类研究在人类进化史中的作用：纪念北京猿人第一头盖骨发现六十周年

中国发现了大量古猿化石,其中的禄丰古猿可能是接近于非洲大猿和人科成员的共同祖先的类型;巨猿更可能是一种绝灭的猿类的旁枝。 人类发展的主要阶段在中国都有代表的化石。 直立人最早起源于非洲,大约在距今100万年左右进入亚洲的论点,目前有较多的证据。 中国发现的人类化石,从直立人到现代人,有着明显的形态上的连续性,支持现代人的多地区起源说。 中国人类化石与周围地区的人群有着密切的关系。     

mtDNA与现代人类的起源和迁徙

对现代人类线粒体DNA（mtDNA)类型在各人群中分布特点的研究表明,人类起源于约20万年前的非洲,然后向全球各个角落迁徙,并演化为现代人。     

中国人类化石的主要发现和理论探索(1922-2009)

文中简要回顾和总结近90年来中国古人类学的发展历程与脉络,重在梳理中国人类化石的发现、解剖特征、年代测定,以及建立在这些研究基础上所提出的主要理论学说,收尾于中国现代人类起源之论争.对中国古人类化石的形态学特征的比较研究导致为中国的人类进化提出新的假说-连续进化附带杂交说.这个假说同样获得古文化和古环境丰富信息的支持.     

与中国现代人起源问题有联系的分子生物学研究成果的讨论

本文简略介绍最近几年发表的与中国现代人起源有直接和间接关系的几篇分子生物学论文,结合中国的人类化石、旧石器、古哺乳动物学和亚洲西部的旧石器以及分子生物学研究的新资料,论证根据Y染色体一些基因的分析认为中国的古老人类被来自非洲的现代人完全替代的推论不能成立。古人类学的研究已经显示人类进化是十分复杂的过程,新的分子生物学论文也显示人类的分子进化比过去认识的远为复杂。在对新信息进行解释和推论时必须对这样的复杂性保持深刻清醒的认识,人类进化不可能既是这样又是那样,只有将各个有关学科得来的信息进行综合思考才可望使得根据这些信息得出的推论趋于协调,对人类进化的认识逐渐接近真实。     

东亚现代人来源的考古学思考:证据与解释

现代人的起源与扩散是当今古人类学界极具争议的问题。目前,"多地区进化"假说和非洲起源为主的"同化"假说是该争议的两大阵营。在"多地区进化"假说的基础上,立足中国的化石材料,吴新智提出了中国乃至东亚古人类"连续演化、附带杂交"的假说,认为中国的现代人主要由本地古老类型人类演化而来。本文从现代人扩散关键时段的考古材料出发,讨论氧同位素5～3阶段(大约13～3万年)考古材料在研究中国现代人形成中的作用和存在的挑战。首先,概括介绍现代人起源的主要假说和现代人扩散的假定路线——南线和北线的多重证据;其次,在此背景下,通过对中国境内考古材料的概括,分析不同石器技术可能反映的现代人来源;最后,简要探讨立足考古材料研究现代人起源与扩散的挑战。总体而言,氧同位素5～3阶段的旧石器考古材料支持中国北方南部和中国南方古人类的连续演化,同时也指示了非洲扩散而出的现代人人群自西北地区和南方地区进入中国的可能性。该模式支持中国古人类"连续演化、附带杂交"假说,然而我们也认识到中国现代人起源研究的考古基础仍十分薄弱,使用考古学材料研究现代人扩散的理论基础也需探讨。目前,细化、完善基础考古数据仍是中国旧石器时代考古学和古人类学学者努力的主要方向之一。如此,我们才能够更加有效地将人类化石与考古学证据融合,进而结合分子生物学的研究,更为全面地理解现代人的起源与演化。     

中国家驴的非洲起源研究

对我国13个家驴品种367条序列(其中引用文献资料241条)的mtDNA D-loop 区399 bp进行分析, 共检测到96种单倍型57个多态位点, 其单倍型多样度为0.767~0.967, 核苷酸多样度为0.014~0.032, 表明我国家驴的遗传多态性丰富。与3个努比亚野驴、3个索马里野驴和6个亚洲野驴的序列构建 NJ系统发育树, 证明我国家驴的母系起源为非洲野驴中的索马里驴和努比亚驴, 亚洲野驴不是中国家驴的母系祖先。     

中国西藏拉托唐古墓地古代居民线粒体全基因组研究

目前青藏高原高海拔地区古DNA研究匮乏。拉托唐古墓地位于青藏高原西南高海拔区域,本文对该墓地出土距今约700年的人骨进行古DNA提取,捕获了高质量线粒体全基因组数据,结合东亚线粒体基因组数据库,运用遗传统计方法开展分析。研究结果表明,距今3000年以内青藏高原西南部人群的遗传历史具有连续性,距今700年左右的拉托唐古墓地居民与距今3150-1250年的古代尼泊尔居民以及现代中国西藏居民母系遗传关系较近,且他们都具有共同的M9a1a1c1b1a单倍群。对M9a1a1c1b1a单倍群的深入研究发现,距今10930-5150年期间青藏高原可能发生了人口扩张事件。以上结果为我们了解古代青藏高原高海拔地区人群遗传历史提供了重要信息。     

东亚人群源流研究新进展

中国科学家对大量东亚人群样本中分析得到的近200个未定类型的线粒体DNA序列进行研究,结果显示,迄今甄别出来的线粒体DNA未定类型事实上均源自非洲起源的建群类型M或N,没有发现可能追溯至古人类的母系遗传组份。进一步分析还提示,研究中新鉴别的基部类群很可能代表了最初进入东亚南部的现代人群祖先的母系遗存,而非来自邻近地区的近期基因流。     

Mitochondrial footprints of human expansions in Africa.

mtDNA studies support an African origin for modern Eurasians, but expansion events within Africa have not previously been investigated. We have therefore analyzed 407 mtDNA control-region sequences from 13 African ethnic groups. A number of sequences (13%) were highly divergent and coalesced on the "mitochondrial Eve" in Africans. The remaining sequences also ultimately coalesced on this sequence but fell into four major clusters whose starlike phylogenies testify to demographic expansions. The oldest of these African expansions dates to approximately 60,000-80,000 years ago. Eurasian sequences are derived from essentially one sequence within this ancient cluster, even though a diverse mitochondrial pool was present in Africa at the time.     

Evidence of ancient DNA reveals the first European lineage in Iron Age Central China

Various studies on ancient DNA have attempted to reconstruct population movement in Asia, with much interest focused on determining the arrival of European lineages in ancient East Asia. Here, we discuss our analysis of the mitochondrial DNA of human remains excavated from the Yu Hong tomb in Taiyuan, China, dated 1400 years ago. The burial style of this tomb is characteristic of Central Asia at that time. Our analysis shows that Yu Hong belonged to the haplogroup U5, one of the oldest western Eurasian-specific haplogroups, while his wife can be classified as haplogroup G, the type prevalent in East Asia. Our findings show that this man with European lineage arrived in Taiyuan approximately 1400 years ago, and most probably married a local woman. Haplogroup U5 was the first west Eurasian-specific lineage to be found in the central part of ancient China, and Taiyuan may be the easternmost location of the discovered remains of European lineage in ancient China.     

A western Eurasian male is found in 2000‐year‐old elite Xiongnu cemetery in Northeast Mongolia

We analyzed mitochondrial DNA (mtDNA), Y‐chromosome single nucleotide polymorphisms (Y‐SNP), and autosomal short tandem repeats (STR) of three skeletons found in a 2,000‐year‐old Xiongnu elite cemetery in Duurlig Nars of Northeast Mongolia. This study is one of the first reports of the detailed genetic analysis of ancient human remains using the three types of genetic markers. The DNA analyses revealed that one subject was an ancient male skeleton with maternal U2e1 and paternal R1a1 haplogroups. This is the first genetic evidence that a male of distinctive Indo‐European lineages (R1a1) was present in the Xiongnu of Mongolia. This might indicate an Indo‐European migration into Northeast Asia 2,000 years ago. Other specimens are a female with mtDNA haplogroup D4 and a male with Y‐SNP haplogroup C3 and mtDNA haplogroup D4. Those haplogroups are common in Northeast Asia. There was no close kinship among them. The genetic evidence of U2e1 and R1a1 may help to clarify the migration patterns of Indo‐Europeans and ancient East‐West contacts of the Xiongnu Empire. Artifacts in the tombs suggested that the Xiongnu had a system of the social stratification. The West Eurasian male might show the racial tolerance of the Xiongnu Empire and some insight into the Xiongnu society. Am J Phys Anthropol, 2010. © 2010 Wiley‐Liss, Inc.     

Mitochondrial DNA variation of domestic sheep (Ovis aries) in Kenya

The history of domestic sheep (Ovis aries) in Africa remains largely unknown. After being first introduced from the Near East, sheep gradually spread through the African continent with pastoral societies. The eastern part of Africa was important either for the first diffusion of sheep southward or for putative secondary introductions from the Arabian Peninsula or southern Asia. We analysed mitochondrial DNA control region sequences of 91 domestic sheep from Kenya and found a high diversity of matrilines from the widespread haplogroup B, whereas only a single individual from haplogroup A was detected. Our phylogeography analyses of more than 500 available mitochondrial DNA sequences also identified ancestral haplotypes that were probably first introduced in Africa and are now widely distributed. Moreover, we found no evidence of an admixture between East and West African sheep. The presence of shared haplotypes in eastern and ancient southern African sheep suggests the possible southward movement of sheep along the eastern part of Africa. Finally, we found no evidence of an extensive introduction of sheep from southern Asia into Africa via the Indian Ocean trade. The overall findings on the phylogeography of East African domestic sheep set the grounds for understanding the origin and subsequent movements of sheep in Africa. The richness of maternal lineages in Kenyan breeds is of prime importance for future conservation and breeding programmes.     

Regional differences in the distribution of the sub-Saharan, West Eurasian, and South Asian mtDNA lineages in Yemen

Despite its key location for population movements out of and back into Africa, Yemen has not yet been sampled on a regional level for an investigation of sub-Saharan, West Eurasian, and South Asian genetic contributions. In this study, we present mitochondrial DNA (mtDNA) data for regionally distinct Yemeni populations that reveal different distributions of mtDNA lineages. An extensive database of mtDNA sequences from North and East African, Middle Eastern and Indian populations was analyzed to provide a context for the regional Yemeni mtDNA datasets. The groups of western Yemen appear to be most closely related to Middle Eastern and North African populations, while the eastern Yemeni population from Hadramawt is most closely related to East Africa. Furthermore, haplotype matches with Africa are almost exclusively confined to West Eurasian R0a haplogroup in southwestern Yemen, although more sub-Saharan L-type matches appear in more northern Yemeni populations. In fact, Yemeni populations have the highest frequency of R0a haplotypes detected to date, thus Yemen or southern Arabia may be the site of the initial expansion of this haplogroup. Whereas two variants of the sub-Saharan haplogroup M1 were detected only in southwestern Yemen close to the Bab el-Mandeb Strait, different non-African M haplotypes were detected at low frequencies (approximately 2%) in western parts of the country and at a higher frequency (7.5%) in the Hadramawt. We conclude that the Yemeni gene pool is highly stratified both regionally and temporally and that it has received West Eurasian, Northeast African, and South Asian gene flow.     

Mitochondrial DNA reveals multiple introductions of domestic chicken in East Africa

Chicken were possibly domesticated in South and Southeast Asia. They occur ubiquitously in East Africa where they show extensive phenotypic diversity. They appeared in the region relatively late, with the first undisputed evidence of domestic chicken in Sudan, around ~ 700 BC. We reveal through a detailed analysis of mitochondrial DNA D-loop sequence diversity of 512 domestic village chickens, from four East African countries (Kenya, Ethiopia, Sudan, Uganda), the presence of at least five distinct mitochondrial DNA haplogroups. Phylogeographic analyses and inclusion of reference sequences from Asia allow us to address the origin, ways of introduction and dispersion of each haplogroup. The results indicate a likely Indian subcontinent origin for the commonest haplogroup (D) and a maritime introduction for the next commonest one (A) from Southeast and/or East Asia. Recent introgression of commercial haplotypes into the gene pool of village chickens might explain the rare presence of two haplogroups (B and C) while the origin of the last haplogroup (E) remains unclear being currently observed only outside the African continent in the inland Yunnan Province of China. Our findings not only support ancient historical maritime and terrestrial contacts between Asia and East Africa, but also indicate the presence of large maternal genetic diversity in the region which could potentially support genetic improvement programmes.     

Y-chromosome evidence of southern origin of the East Asian-specific haplogroup O3-M122

The prehistoric peopling of East Asia by modern humans remains controversial with respect to early population migrations. Here, we present a systematic sampling and genetic screening of an East Asian-specific Y-chromosome haplogroup (O3-M122) in 2,332 individuals from diverse East Asian populations. Our results indicate that the O3-M122 lineage is dominant in East Asian populations, with an average frequency of 44.3%. The microsatellite data show that the O3-M122 haplotypes in southern East Asia are more diverse than those in northern East Asia, suggesting a southern origin of the O3-M122 mutation. It was estimated that the early northward migration of the O3-M122 lineages in East Asia occurred approximately 25,000-30,000 years ago, consistent with the fossil records of modern humans in East Asia.     

An economical mtDNA SNP assay detecting different mitochondrial haplogroups in identical HVR 1 samples of Caucasian ancestry

BackgroundWe had sequenced 329 Caucasian samples in Hypervariable Region 1 (HVR 1) and found that they belong to eleven different mitochondrial DNA (mtDNA) haplotypes. The sample set was further analysed by an mtDNA assay examining 32 single nucleotide polymorphisms (SNPs) for haplogroup discrimination.In a validation study on 160 samples of different origin it was shown that these SNPs were able to discriminate between the evolved superhaplogroups worldwide (L, M and N) and between the nine most common Caucasian haplogroups (H, I, J, K, T, U, V, W and X).ResultsThe 32 mtDNA SNPs comprised 42 different SNP haplotypes instead of only eleven haplotypes after HVR 1 sequencing. The assay provided stable results in a range of 5 ng genomic DNA down to virtually no genomic DNA per reaction. It was possible to detect samples of African, Asian and Eurasian ancestry, respectively.DiscussionThe 32 mtDNA SNP assay is a helpful adjunct to further distinguish between identical HVR 1 sequences of Caucasian origin. Our results suggest that haplogroup prediction using HVR 1 sequencing provides instable results. The use of coding region SNPs for haplogroup assignment is more suited than using HVR 1 haplotypes.     

The Arabian cradle: mitochondrial relicts of the first steps along the southern route out of Africa

A major unanswered question regarding the dispersal of modern humans around the world concerns the geographical site of the first human steps outside of Africa. The "southern coastal route" model predicts that the early stages of the dispersal took place when people crossed the Red Sea to southern Arabia, but genetic evidence has hitherto been tenuous. We have addressed this question by analyzing the three minor west-Eurasian haplogroups, N1, N2, and X. These lineages branch directly from the first non-African founder node, the root of haplogroup N, and coalesce to the time of the first successful movement of modern humans out of Africa, ～60 thousand years (ka) ago. We sequenced complete mtDNA genomes from 85 Southwest Asian samples carrying these haplogroups and compared them with a database of 300 European examples. The results show that these minor haplogroups have a relict distribution that suggests an ancient ancestry within the Arabian Peninsula, and they most likely spread from the Gulf Oasis region toward the Near East and Europe during the pluvial period 55-24 ka ago. This pattern suggests that Arabia was indeed the first staging post in the spread of modern humans around the world.     

Haplotype diversity in mtDNA and Y-chromosome in populations of Altai-Sayan region

Polymorphism of mtDNA was examined in five ethnic populations that belong to the Turkic language group and inhabit the territory of the Altai-Sayan upland (N = 1007). Most of the haplogroups identified in the examined populations belonged to East Eurasian lineages. In all five populations, only three haplogroups, C, D, and F, were prevailing. The frequencies of the other six haplogroups (A, B, G, M, Y, and Z) varied in the range from 1.1 to 6.5%. Among West Eurasian haplogrous, the most common were haplogroups H, J, T, and U. An analysis of Y-chromosome haplogroups in 407 individuals showed that only two haplogroups, N* and R1a1, were present in all five populations examined. Moreover, in different ethnic groups, the highest frequencies were observed for C-M130, N-P43, and N-Tat haplogroups. The differences in the distribution patterns of ancient West Eurasian and East Eurasian haplotypes from Gorny Altai in the present-day populations from the northern part of Eurasia revealed can be explained in terms of the multistage expansion of humans across these territories. The ubiquity of haplotypes from haplogroup H and cluster U across the wide territory from the Yenisei River basin to the Atlantic Ocean can indicate directional human expansion, which most likely occurred out of Central Asia as early as in the Paleolithic era, and took place in several waves with the glacier retreat.