Diane J. Rowold

Alu Elements and the Human Genome

Aluinsertional elements, the most abundant class of SINEs in humans are dimeric sequences approximately 300 bp in length derived from the 7SL RNA gene. These sequences contain a bipartite RNA pol III promoter, a central poly A tract, a 3′ poly A tail, numerous CpG islands and are bracketed by short direct repeats. An estimated 500,000 to 1 × 106units are dispersed throughout the human haploid genome primarily in AT rich neighborhoods located within larger GC dense chromosomal regions via a mechanism known as retroposition. Retroposition activity of Aluelements is determined by both internal and flanking regulatory elements as well as distant genes affecting transcription or transcript stability. Aluelements impact the organization and expression of the human genome at many levels including the processes of recombination, transcription and translation. Twelve subfamilies of Aluare defined by distinct patterns of diagnostic base substitutions. Subfamilies may be classified as young, intermediate or old reflecting the time since the start of retroposition by their members. Some insertions of the youngest subfamilies are not yet fixed in the human species and represent polymorphic loci. Alus are excellent molecular markers for a variety of reasons. They aid in tracing the complex pattern of duplication and rearrangements that occurred during the evolution of primate genome. Unlike other mutations, Alusequences are rarely lost completely once retroposed, have a defined ancestral state and are free from homoplasy since independent and identical insertions are highly unlikely. Because of these characteristics, Alus are literally molecular fossils. Polymorphic Aluloci are especially useful in studies of human genetic diversity and in pedigree and forensicanalysis.

Inferring recent human phylogenies using forensic STR technology.

STR loci are characterized by extremely high mutation rates and thus, high levels of length polymorphism both within and among populations. In addition, much of the observed variation is believed to be nearly selectively neutral. Because of these features, STRs are ideal markers for genetic mapping, intra-species phylogenetic reconstructions and forensic analysis. In the present study, we investigate the application of five STR loci (CS1PO, TH01, TPOX, FGA and vWA) routinely used in forensic analysis for delineating the phylogenetic relationships of 10 human populations representing the three major racial groups (African-Caribbean, Croatian from the island of Hvar, East Asian, Han Chinese, Italian, Japanese, Portuguese, UK Caucasian, US Caucasian and Zimbabwe). The resulting tree topology exhibited strong geographic and racial partitioning consistent with that obtained with mtDNA haplotypes, Y-chromosome markers, SNPs, PAIs (polymorphic Alu insertions) as well as classic genetic polymorphisms. These findings suggest that forensic STR loci may be particularly powerful tools and provide the necessary fine resolution for the reconstruction of recent human evolutionary history.

Mitochondrial DNA geneflow indicates preferred usage of the Levant Corridor over the Horn of Africa passageway

AbstractBoth the Levantine Corridor and the Horn of Africa route have figured prominently in early hominid migrations from Africa to Eurasia. To gauge the importance of these two African-Asian thoroughfares in the demic movements of modern man, we surveyed the mtDNA control region variation and coding polymorphisms of 739 individuals representing ten African and Middle Eastern populations. Two of these collections, Egypt and Yemen, are geographically close to the Levant and Horn of Africa, respectively. In this analysis, we uncover genetic evidence for the preferential use of the Levantine Corridor in the Upper Paleolithic to Neolithic dispersals of haplogroups H, J*, N1b, and T1, in contrast to an overwhelming preference in favor of the Horn of Africa for the intercontinental expansion of M1 during the Middle to Upper Paleolithic. Furthermore, we also observed a higher frequency of sub-Saharan mtDNA compared to NRY lineages in the Middle Eastern collections, a pattern also seen in previous studies. In short, the results of this study suggest that several migratory episodes of maternal lineages occurred across the African-Asian corridors since the first African exodus of modern Homo sapiens sapiens.

On the origins, rapid expansion and genetic diversity of native Americans from hunting-gatherers to agriculturalists

Given the importance of Y-chromosome haplogroup Q to better understand the source populations of contemporary Native Americans, we studied 8 biallelic and 17 microsatellite polymorphisms on the background of 128 Q Y-chromosomes from geographically targeted populations. The populations examined in this study include three from the Tuva Republic in Central Asia (Bai-Tai, Kungurtug, and Toora-Hem, n = 146), two from the northeastern tip of Siberia (New Chaplino and Chukchi, n = 32), and two from Mesoamerica (Mayans from Yucatan, Mexico n = 72, and Mayans from the Guatemalan Highlands, n = 43). We also see evidence of a dramatic Mesoamerican post-migration population growth in the ubiquitous and diverse Y-STR profiles of the Mayan and other Mesoamerican populations. In the case of the Mayans, this demographic growth was most likely fueled by the agricultural- and trade-based subsistence adopted during the Pre-Classic, Classic and Post-Classic periods of their empire. The limited diversity levels observed in the Altaian and Tuvinian regions of Central Asia, the lowest of all populations examined, may be the consequence of bottleneck events fostered by the spatial isolation and low effective population size characteristic of a nomadic lifestyle. Furthermore, our data illustrate how a sociocultural characteristic such as mode of subsistence may be of impact on the genetic structure of populations. We analyzed our genetic data using Multidimensional Scaling Analysis of populations, Principal Component Analysis of individuals, Median-joining networks of M242, M346, L54, and M3 individuals, age estimations based on microsatellite variation utilizing genealogical and evolutionary mutation rates/generation times and estimation of Y- STR average gene diversity indices.

Mitochondrial DNA and Y-chromosomal stratification in Iran : relationship between Iran and the Arabian Peninsula

Modern day Iran is strategically located in the tri-continental corridor uniting Africa, Europe and Asia. Several ethnic groups belonging to distinct religions, speaking different languages and claiming divergent ancestries inhabit the region, generating a potentially diverse genetic reservoir. In addition, past pre-historical and historical events such as the out-of-Africa migrations, the Neolithic expansion from the Fertile Crescent, the Indo–Aryan treks from the Central Asian steppes, the westward Mongol expansions and the Muslim invasions may have chiseled their genetic fingerprints within the genealogical substrata of the Persians. On the other hand, the Iranian perimeter is bounded by the Zagros and Albrez mountain ranges, and the Dasht-e Kavir and Dash-e Lut deserts, which may have restricted gene flow from neighboring regions. By utilizing high-resolution mitochondrial DNA (mtDNA) markers and reanalyzing our previously published Y-chromosomal data, we have found a previously unexplored, genetic connection between Iranian populations and the Arabian Peninsula, likely the result of both ancient and recent gene flow. Furthermore, the regional distribution of mtDNA haplogroups J, I, U2 and U7 also provides evidence of barriers to gene flow posed by the two major Iranian deserts and the Zagros mountain range.

Distribution of the HLA-DQA1 and polymarker alleles in the Basque population of Spain

HLA-DQA1 and polymarker (LDLR, GYPA, HBGG, D7S8, and GC) genotypic and allelic frequencies are determined for a population sample of 102 unrelated Basque individuals using PCR-based methodology. All six loci met Hardy-Weinberg expectations in at least two of the three analyses performed (HLA-DQA1 failed to meet Hardy-Weinberg requirements in the heterozygote deficiency test). Three linkage analysis programs (GDA, GENEPOP and LINKDOS) detected possible linkage disequilibrium between LDLR and HBGG and results from one (GDA) indicated a possible non-random association between HBGG and HLA-DQA1 as well. Allelic data for the six loci are compared to that previously established for other populations (18 for polymarker alone, 16 for polymarker plus HLA-DQA1) to determine homogeneity between the Basque sample and these groups. According to the results of G-tests based on these loci, the Tadjik, a nomadic Caucasian group from western Asia, and the Basque residents are the only sample populations surveyed that are homogenous with the Basque sample. Phylogenetic analysis places the Basque sample correctly within the Caucasian cluster.

Phylogenetic signals from point mutations and polymorphic Alu insertions

Allelic frequency data derived from five polymorphic Alu insertion loci and five point mutation polymorphic loci were compared to determine their ability to infer phylogenetic relationships among human populations. While point mutation polymorphisms inferred a monophyletic Caucasian clade that is corroborated by other studies, these data failed to support the generally accepted monophyly of Orientals with native Americans. In addition, there is less statistical bootstrap support for the maximum-likelihood tree derived from the point mutation polymorphisms as compared to those generated from either the Alu insertion data or the combined Alu insertion + point mutation data. The Alu data and the combined Alu insertion + point mutation data inferred a monophyletic relationship among the Oriental and native American populations. The Alu insertion data and the combined Alu insertion + point mutation data also displayed two separate, well defined, tight clusters of the Caucasian and the Oriental + native American populations which was not inferred from the point mutation data. These findings indicate greater phylogenetic information contained in Alu insertion frequencies than in allelic frequencies derived from point-mutations.

Phylogenetic and forensic studies of the Southeast Florida Hispanic population using the next-generation forensic PowerPlex Y23 STR marker system

The purpose of this study is to examine the robustness and sensitivity of the newly available Y-STR multiplex kit, the PowerPlex® Y23 System, by comparing our data at the 23-loci level to the routinely used 17 loci provided by the AmpFlSTR® Yfiler® PCR Amplification kit. For the first time, allelic and genotypic frequencies for the 23 Y-STR loci included in the PowerPlex® Y23 System are provided for the Southeast Florida Hispanic (SFH) population. In addition, we have characterized the SFH population in terms of intra-population and inter-population parameters. We also compared these indices of forensic and population genetics interest in the SFH population to comparable data of previously published populations to assess their phylogenetic relationships. Our 23-loci data was shown to provide more discriminatory values as compared to the data when using only 17 loci. Also, the RST distance values demonstrate the superior capacity of the PowerPlex® Y23 system to discriminate among populations.

Phylogenetic signals from point mutations and polymorphic Alu

Allelic frequency data derived from five polymorphic Alu insertion loci and five point mutation polymorphic loci were compared to determine their ability to infer phylogenetic relationships among human populations. While point mutation polymorphisms inferred a monophyletic Caucasian clade that is corroborated by other studies, these data failed to support the generally accepted monophyly of Orientals with native Americans. In addition, there is less statistical bootstrap support for the maximum-likelihood tree derived from the point mutation polymorphisms as compared to those generated from either the Alu insertion data or the combined Alu insertion+point mutation data. The Alu data and the combined Alu insertion+point mutation data inferred a monophyletic relationship among the Oriental and native American populations. The Alu insertion data and the combined Alu insertion+point mutation data also displayed two separate, well defined, tight clusters of the Caucasian and the Oriental+native American populations which was not inferred from the point mutation data. These findings indicate greater phylogenetic information contained in Alu insertion frequencies than in allelic frequencies derived from point-mutations.

Taiwanese aborigines: genetic heterogeneity and paternal contribution to Oceania.

In the present study, for the first time, 293 Taiwanese aboriginal males from all nine major tribes (Ami, Atayal, Bunun, Rukai, Paiwan, Saisat, Puyuma, Tsou, Yami) were genotyped with 17 YSTR loci in a attend to reveal migrational patterns connected with the Austronesian expansion. We investigate the paternal genetic relationships of these Taiwanese aborigines to 42 Asia-Pacific reference populations, geographically selected to reflect various locations within the Austronesian domain. The Tsou and Puyuma tribes exhibit the lowest (0.1851) and the highest (0.5453) average total genetic diversity, respectively. Further, the fraction of unique haplotypes is also relatively high in the Puyuma (86.7%) and low in Tsou (33.3%) suggesting different demographic histories. Multidimensional scaling (MDS) and analysis of molecular variance (AMOVA) revealed several notable findings: 1) the Taiwan indigenous populations are highly diverse. In fact, the level of inter-population heterogeneity displayed by the Taiwanese aboriginal populations is close to that exhibited among all 51 Asia-Pacific populations examined; 2) the asymmetrical contribution of the Taiwanese aborigines to the Oceanic groups. Ami, Bunun and Saisiyat tribes exhibit the strongest paternal links to the Solomon and Polynesian island communities, whereas most of the remaining Taiwanese aboriginal groups are more genetically distant to these Oceanic inhabitants; 3) the present YSTR analyses does not reveal a strong paternal affinity of the nine Taiwanese tribes to their continental Asian neighbors. Overall, our current findings suggest that, perhaps, only a few of the tribes were involved in the migration out of Taiwan.