Your search keyword '"Jorde LB"' showing total 15 results

1. Clinical and biochemical function of polymorphic NR0B1 GGAA-microsatellites in Ewing sarcoma: a report from the Children's Oncology Group.

Author

Monument MJ, Johnson KM, McIlvaine E, Abegglen L, Watkins WS, Jorde LB, Womer RB, Beeler N, Monovich L, Lawlor ER, Bridge JA, Schiffman JD, Krailo MD, Randall RL, and Lessnick SL

Subjects

Adolescent, Age Factors, Alleles, Case-Control Studies, Cell Transformation, Neoplastic genetics, Child, Child, Preschool, Female, Gene Expression, Genetic Loci, Genomics, Humans, Linkage Disequilibrium, Male, Models, Biological, Oncogene Proteins, Fusion genetics, Oncogene Proteins, Fusion metabolism, Prognosis, Proto-Oncogene Protein c-fli-1 genetics, Proto-Oncogene Protein c-fli-1 metabolism, RNA-Binding Protein EWS genetics, RNA-Binding Protein EWS metabolism, Sarcoma, Ewing mortality, Young Adult, DAX-1 Orphan Nuclear Receptor genetics, Microsatellite Repeats genetics, Nucleotide Motifs, Polymorphism, Genetic, Sarcoma, Ewing diagnosis, Sarcoma, Ewing genetics

Abstract

Background: The genetics involved in Ewing sarcoma susceptibility and prognosis are poorly understood. EWS/FLI and related EWS/ETS chimeras upregulate numerous gene targets via promoter-based GGAA-microsatellite response elements. These microsatellites are highly polymorphic in humans, and preliminary evidence suggests EWS/FLI-mediated gene expression is highly dependent on the number of GGAA motifs within the microsatellite., Objectives: Here we sought to examine the polymorphic spectrum of a GGAA-microsatellite within the NR0B1 promoter (a critical EWS/FLI target) in primary Ewing sarcoma tumors, and characterize how this polymorphism influences gene expression and clinical outcomes., Results: A complex, bimodal pattern of EWS/FLI-mediated gene expression was observed across a wide range of GGAA motifs, with maximal expression observed in constructs containing 20-26 GGAA motifs. Relative to white European and African controls, the NR0B1 GGAA-microsatellite in tumor cells demonstrated a strong bias for haplotypes containing 21-25 GGAA motifs suggesting a relationship between microsatellite function and disease susceptibility. This selection bias was not a product of microsatellite instability in tumor samples, nor was there a correlation between NR0B1 GGAA-microsatellite polymorphisms and survival outcomes., Conclusions: These data suggest that GGAA-microsatellite polymorphisms observed in human populations modulate EWS/FLI-mediated gene expression and may influence disease susceptibility in Ewing sarcoma.

Published

2014

2. Genetic variation in South Indian castes: evidence from Y-chromosome, mitochondrial, and autosomal polymorphisms.

Author

Watkins WS, Thara R, Mowry BJ, Zhang Y, Witherspoon DJ, Tolpinrud W, Bamshad MJ, Tirupati S, Padmavati R, Smith H, Nancarrow D, Filippich C, and Jorde LB

Subjects

Alleles, Ethnicity genetics, Gene Flow, Genetic Variation, Genetics, Population, Geography, Haplotypes, Humans, India ethnology, Microsatellite Repeats genetics, Chromosomes, Human, Y genetics, DNA, Mitochondrial chemistry, Polymorphism, Genetic, Social Class

Abstract

Background: Major population movements, social structure, and caste endogamy have influenced the genetic structure of Indian populations. An understanding of these influences is increasingly important as gene mapping and case-control studies are initiated in South Indian populations., Results: We report new data on 155 individuals from four Tamil caste populations of South India and perform comparative analyses with caste populations from the neighboring state of Andhra Pradesh. Genetic differentiation among Tamil castes is low (RST = 0.96% for 45 autosomal short tandem repeat (STR) markers), reflecting a largely common origin. Nonetheless, caste- and continent-specific patterns are evident. For 32 lineage-defining Y-chromosome SNPs, Tamil castes show higher affinity to Europeans than to eastern Asians, and genetic distance estimates to the Europeans are ordered by caste rank. For 32 lineage-defining mitochondrial SNPs and hypervariable sequence (HVS) 1, Tamil castes have higher affinity to eastern Asians than to Europeans. For 45 autosomal STRs, upper and middle rank castes show higher affinity to Europeans than do lower rank castes from either Tamil Nadu or Andhra Pradesh. Local between-caste variation (Tamil Nadu RST = 0.96%, Andhra Pradesh RST = 0.77%) exceeds the estimate of variation between these geographically separated groups (RST = 0.12%). Low, but statistically significant, correlations between caste rank distance and genetic distance are demonstrated for Tamil castes using Y-chromosome, mtDNA, and autosomal data., Conclusion: Genetic data from Y-chromosome, mtDNA, and autosomal STRs are in accord with historical accounts of northwest to southeast population movements in India. The influence of ancient and historical population movements and caste social structure can be detected and replicated in South Indian caste populations from two different geographic regions.

Published

2008

3. Association of two functional polymorphisms in the CCR5 gene with juvenile rheumatoid arthritis.

Author

Prahalad S, Bohnsack JF, Jorde LB, Whiting A, Clifford B, Dunn D, Weiss R, Moroldo M, Thompson SD, Glass DN, and Bamshad MJ

Subjects

Base Sequence, Child, Child, Preschool, Cohort Studies, Female, Gene Deletion, Genetic Predisposition to Disease, Genotype, Humans, Male, Polymorphism, Single Nucleotide, Arthritis, Juvenile genetics, Polymorphism, Genetic, Receptors, CCR5 genetics

Abstract

Juvenile rheumatoid arthritis (JRA) is mediated by Th1-immune responses. In children with JRA, synovial T cells express high levels of the Th1-chemokine receptor CC chemokine receptor 5 (CCR5), which has been implicated in susceptibility to rheumatoid arthritis. To test the hypothesis that genetic variation in CCR5 is associated with susceptibility to JRA, we analyzed patterns of variation in the 5'cis-regulatory region of CCR5 in 124 multiplex families from a JRA-affected sibpair registry. After sequencing the upstream region of CCR5, variants were tested for association with JRA by transmission disequilibrium testing. A single nucleotide polymorphism, C-1835T, was significantly undertransmitted to children with early-onset JRA (P<0.01). C-1835T was genotyped in 424 additional simplex and multiplex families. CCR5-1835T allele was undertransmitted in the cohort of all probands with JRA (P<0.02), as well as in those with early-onset (P<0.01) or pauciarticular JRA (P<0.05). Another variant, a 32-bp deletion in the open reading frame of CCR5 (CCR5-Delta32) was also tested in approximately 700 simplex and multiplex families. CCR5-Delta32 was also significantly undertransmitted to probands with early-onset JRA (P<0.05). Both variants are in regions under natural selection, and result in functional consequences. Our results suggest these CCR5 variants are protective against early-onset JRA.

Published

2006

4. Human population genetic structure and diversity inferred from polymorphic L1(LINE-1) and Alu insertions.

Author

Witherspoon DJ, Marchani EE, Watkins WS, Ostler CT, Wooding SP, Anders BA, Fowlkes JD, Boissinot S, Furano AV, Ray DA, Rogers AR, Batzer MA, and Jorde LB

Subjects

Gene Frequency, Genetic Linkage, Genome, Human, Genotype, Humans, Phylogeny, Population Groups ethnology, Alu Elements physiology, Genetic Variation, Genetics, Population, Long Interspersed Nucleotide Elements physiology, Polymorphism, Genetic

Abstract

Background/aims: The L1 retrotransposable element family is the most successful self-replicating genomic parasite of the human genome. L1 elements drive replication of Alu elements, and both have had far-reaching impacts on the human genome. We use L1 and Alu insertion polymorphisms to analyze human population structure., Methods: We genotyped 75 recent, polymorphic L1 insertions in 317 individuals from 21 populations in sub-Saharan Africa, East Asia, Europe and the Indian subcontinent. This is the first sample of L1 loci large enough to support detailed population genetic inference. We analyzed these data in parallel with a set of 100 polymorphic Alu insertion loci previously genotyped in the same individuals., Results and Conclusion: The data sets yield congruent results that support the recent African origin model of human ancestry. A genetic clustering algorithm detects clusters of individuals corresponding to continental regions. The number of loci sampled is critical: with fewer than 50 typical loci, structure cannot be reliably discerned in these populations. The inclusion of geographically intermediate populations (from India) reduces the distinctness of clustering. Our results indicate that human genetic variation is neither perfectly correlated with geographic distance (purely clinal) nor independent of distance (purely clustered), but a combination of both: stepped clinal.

Published

2006

5. Genetics and population history of Caucasus populations.

Author

Bulayeva K, Jorde LB, Ostler C, Watkins S, Bulayev O, and Harpending H

Subjects

Gene Frequency genetics, Humans, Russia, DNA, Mitochondrial analysis, Genetics, Population, Polymorphism, Genetic genetics, White People genetics

Abstract

We describe aspects of genetic diversity in several ethnic populations of the Caucasus Mountains of Daghestan using mitochondrial DNA sequences and a sample of 100 polymorphic Alu insertion loci. The mitochondrial DNA (mtDNA) sequences are like those of Europe. Principal coordinates and nearest neighbor statistics show that there is little detectable structure in the distances among populations computed from mtDNA. The Alu frequencies of the Caucasus populations suggest that they have undergone more genetic drift than most other groups since the dispersal of modern humans. Genetic differences among these populations are not large; instead, they are of the same order as distances among populations of Europe. We compare two methods of inference about the demography of ancient colonizing populations from Africa, one based on conventional FST statistics and one based on mean Alu insertion frequencies. The two approaches agree reasonably well if we assume that there was demographic growth in Africa before the diaspora of ancestors of contemporary regional human groups outside Africa.

Published

2003

6. Recently integrated Alu elements and human genomic diversity.

Author

Salem AH, Kilroy GE, Watkins WS, Jorde LB, and Batzer MA

Subjects

Animals, Base Sequence, Computational Biology, Gene Conversion, Genetic Variation, Humans, Molecular Sequence Data, Mutagenesis, Insertional, Polymerase Chain Reaction, Primates genetics, Sequence Alignment, Sequence Analysis, DNA, Sequence Homology, Nucleic Acid, Alu Elements genetics, Evolution, Molecular, Genome, Human, Mutation, Phylogeny, Polymorphism, Genetic genetics

Abstract

A comprehensive analysis of two Alu Y lineage subfamilies was undertaken to assess Alu-associated genomic diversity and identify new Alu insertion polymorphisms for the study of human population genetics. Recently integrated Alu elements (283) from the Yg6 and Yi6 subfamilies were analyzed by polymerase chain reaction (PCR), and 25 of the loci analyzed were polymorphic for insertion presence/absence within the genomes of a diverse array of human populations. These newly identified Alu insertion polymorphisms will be useful tools for the study of human genomic diversity. Our screening of the Alu insertion loci also resulted in the recovery of several "young" Alu elements that resided at orthologous positions in nonhuman primate genomes. Sequence analysis demonstrated these "young" Alu insertions were the products of gene conversion events of older, preexisting Alu elements or independent parallel forward insertions of older Alu elements in the same short genomic region. The level of gene conversion between Alu elements suggests that it may have an influence on the single nucleotide polymorphism within Alu elements in the genome. We have also identified two genomic deletions associated with the retroposition and insertion of Alu Y lineage elements into the human genome. This type of Alu retroposition-mediated genomic deletion is a novel source of lineage-specific evolution within primate genomes.

Published

2003

7. Genetic variation among world populations: inferences from 100 Alu insertion polymorphisms.

Author

Watkins WS, Rogers AR, Ostler CT, Wooding S, Bamshad MJ, Brassington AM, Carroll ML, Nguyen SV, Walker JA, Prasad BV, Reddy PG, Das PK, Batzer MA, and Jorde LB

Subjects

Africa, Computational Biology, Europe, Asia, Eastern, Genetics, Population methods, Humans, India, Mutagenesis, Insertional, Alu Elements genetics, Genetic Variation genetics, Polymorphism, Genetic genetics

Abstract

We examine the distribution and structure of human genetic diversity for 710 individuals representing 31 populations from Africa, East Asia, Europe, and India using 100 Alu insertion polymorphisms from all 22 autosomes. Alu diversity is highest in Africans (0.349) and lowest in Europeans (0.297). Alu insertion frequency is lowest in Africans (0.463) and higher in Indians (0.544), E. Asians (0.557), and Europeans (0.559). Large genetic distances are observed among African populations and between African and non-African populations. The root of a neighbor-joining network is located closest to the African populations. These findings are consistent with an African origin of modern humans and with a bottleneck effect in the human populations that left Africa to colonize the rest of the world. Genetic distances among all pairs of populations show a significant product-moment correlation with geographic distances (r = 0.69, P < 0.00001). F(ST), the proportion of genetic diversity attributable to population subdivision is 0.141 for Africans/E. Asians/Europeans, 0.047 for E. Asians/Indians/Europeans, and 0.090 for all 31 populations. Resampling analyses show that approximately 50 Alu polymorphisms are sufficient to obtain accurate and reliable genetic distance estimates. These analyses also demonstrate that markers with higher F(ST) values have greater resolving power and produce more consistent genetic distance estimates.

Published

2003

8. Human population genetic structure and inference of group membership.

Author

Bamshad MJ, Wooding S, Watkins WS, Ostler CT, Batzer MA, and Jorde LB

Subjects

Africa South of the Sahara, Alu Elements genetics, Black People genetics, Ethnicity, Genetic Variation, Humans, India ethnology, Models, Genetic, Genetics, Medical, Genetics, Population, Microsatellite Repeats, Polymorphism, Genetic

Abstract

A major goal of biomedical research is to develop the capability to provide highly personalized health care. To do so, it is necessary to understand the distribution of interindividual genetic variation at loci underlying physical characteristics, disease susceptibility, and response to treatment. Variation at these loci commonly exhibits geographic structuring and may contribute to phenotypic differences between groups. Thus, in some situations, it may be important to consider these groups separately. Membership in these groups is commonly inferred by use of a proxy such as place-of-origin or ethnic affiliation. These inferences are frequently weakened, however, by use of surrogates, such as skin color, for these proxies, the distribution of which bears little resemblance to the distribution of neutral genetic variation. Consequently, it has become increasingly controversial whether proxies are sufficient and accurate representations of groups inferred from neutral genetic variation. This raises three questions: how many data are required to identify population structure at a meaningful level of resolution, to what level can population structure be resolved, and do some proxies represent population structure accurately? We assayed 100 Alu insertion polymorphisms in a heterogeneous collection of approximately 565 individuals, approximately 200 of whom were also typed for 60 microsatellites. Stripped of identifying information, correct assignment to the continent of origin (Africa, Asia, or Europe) with a mean accuracy of at least 90% required a minimum of 60 Alu markers or microsatellites and reached 99%-100% when >/=100 loci were used. Less accurate assignment (87%) to the appropriate genetic cluster was possible for a historically admixed sample from southern India. These results set a minimum for the number of markers that must be tested to make strong inferences about detecting population structure among Old World populations under ideal experimental conditions. We note that, whereas some proxies correspond crudely, if at all, to population structure, the heuristic value of others is much higher. This suggests that a more flexible framework is needed for making inferences about population structure and the utility of proxies.

Published

2003

9. Genetic analysis of the Utah population: a comparison of STR and VNTR loci.

Author

Jorde LB, Shortsleeve PA, Henry JW, Vanburen RT, Hutchinson LE, and Rigley TM

Subjects

Evolution, Molecular, Forensic Medicine, Humans, Models, Genetic, Reproducibility of Results, Utah, Minisatellite Repeats, Polymorphism, Genetic genetics, Racial Groups genetics, Tandem Repeat Sequences

Abstract

Genetic data are reported for nine short tandem repeat (STR) loci (D3S1358, vWA, FGA, D8S1179, D21S11, D18S51, D5S818, D13S317, and D7S820) and six variable number of tandem repeat (VNTR) loci (D2S44, D10S28, D4S139, D1S7, D5S110, and D17S79) in samples of Utah African Americans, European Americans, and Hispanics. Little evidence of departures from Hardy-Weinberg equilibrium or gametic equilibrium was found in these populations. Because of their relatively higher mutation rates, the VNTR loci exhibited higher average heterozygosity and lower FST levels than did the STR loci. Genetic distance analysis showed congruence between the two types of systems, and a genetic distance analysis of the STR data showed that the three Utah populations are genetically similar to the same ethnic groups in other parts of the United States. In addition, this analysis showed that the African American population is the most genetically divergent, with greater similarity between the Hispanic and European American populations. This analysis demonstrates a high degree of consistency for population designations commonly used in forensic analysis.

Published

2000

10. Vitamin D receptor polymorphisms and nutritional rickets in Nigerian children.

Author

Fischer PR, Thacher TD, Pettifor JM, Jorde LB, Eccleshall TR, and Feldman D

Subjects

Adult, Calcium deficiency, Case-Control Studies, Child, Deoxyribonucleases, Type II Site-Specific genetics, Genetic Predisposition to Disease, Humans, Nigeria, Polymorphism, Genetic, Receptors, Calcitriol genetics, Rickets genetics

Abstract

Nutritional rickets is common in Nigeria where vitamin D deficiency is rare and dietary insufficiency of calcium is common. It occurs more commonly in siblings of affected children than of unaffected children. Postulating that vitamin D receptor (VDR) polymorphisms might relate to the susceptibility of some Nigerian children to develop rickets in the setting of low calcium intake, we compared the VDR genotypes, as determined by the presence or absence of Bsm I, Apa I, Taq I, and Fok I restriction enzyme cleavage sites, between 105 children with active nutritional rickets and 94 subjects representative of the community from which the rachitic children came. In the rickets group, the ff genotype was less common than in the community group, and the FF genotype was relatively increased (f allele frequency, 17% in rachitic children and 26% in the community group, p = 0.03). Neither individual allele frequencies for the other polymorphisms nor combinations of genotypes at different sites were different between the rachitic and community groups. Although it is not clear why a presumed better-functioning VDR variant (F allele) is associated with an increased risk of developing rickets, this study raises the possibility that VDR alleles might be important in determining an individual's susceptibility to developing rickets when faced with dietary calcium deficiency.

Published

2000

11. High polymorphism at the human melanocortin 1 receptor locus.

Author

Rana BK, Hewett-Emmett D, Jin L, Chang BH, Sambuughin N, Lin M, Watkins S, Bamshad M, Jorde LB, Ramsay M, Jenkins T, and Li WH

Subjects

Alleles, Amino Acid Sequence, Animals, Base Sequence, Black People genetics, Consensus Sequence, DNA genetics, DNA Primers genetics, Evolution, Molecular, Gene Frequency, Genetic Variation, Hair Color genetics, Humans, Molecular Sequence Data, Primates, Receptors, Melanocortin, Sequence Homology, Amino Acid, Skin Pigmentation genetics, Polymorphism, Genetic, Receptors, Corticotropin genetics

Abstract

Variation in human skin/hair pigmentation is due to varied amounts of eumelanin (brown/black melanins) and phaeomelanin (red/yellow melanins) produced by the melanocytes. The melanocortin 1 receptor (MC1R) is a regulator of eu- and phaeomelanin production in the melanocytes, and MC1R mutations causing coat color changes are known in many mammals. We have sequenced the MC1R gene in 121 individuals sampled from world populations with an emphasis on Asian populations. We found variation at five nonsynonymous sites (resulting in the variants Arg67Gln, Asp84Glu, Val92Met, Arg151Cys, and Arg163Gln), but at only one synonymous site (A942G). Interestingly, the human consensus protein sequence is observed in all 25 African individuals studied, but at lower frequencies in the other populations examined, especially in East and Southeast Asians. The Arg163Gln variant is absent in the Africans studied, almost absent in Europeans, and at a low frequency (7%) in Indians, but is at an exceptionally high frequency (70%) in East and Southeast Asians. The MC1R gene in common and pygmy chimpanzees, gorilla, orangutan, and baboon was sequenced to study the evolution of MC1R. The ancestral human MC1R sequence is identical to the human consensus protein sequence, while MC1R varies considerably among higher primates. A comparison of the rates of substitution in genes in the melanocortin receptor family indicates that MC1R has evolved the fastest. In addition, the nucleotide diversity at the MC1R locus is shown to be several times higher than the average nucleotide diversity in human populations, possibly due to diversifying selection.

Published

1999

12. Genotyping of PCR-based polymorphisms and linkage-disequilibrium analysis at the NF1 locus.

Author

Purandare SM, Cawthon R, Nelson LM, Sawada S, Watkins WS, Ward K, Jorde LB, and Viskochil DH

Subjects

Alleles, Base Sequence, Cohort Studies, DNA Primers genetics, DNA, Complementary genetics, Exons, Gene Frequency, Genetic Markers, Genotype, Heterozygote, Humans, Introns, Molecular Sequence Data, Polymerase Chain Reaction, Polymorphism, Restriction Fragment Length, Repetitive Sequences, Nucleic Acid, Genes, Neurofibromatosis 1, Linkage Disequilibrium, Polymorphism, Genetic

Abstract

Six polymorphisms across the NF1 gene have been adapted for genotyping through application of PCR-based assays. Three exon-based polymorphisms--at positions 702, 2034, and 10647 in the NF1 cDNA--were genotyped by mutagenically separated PCR (MS-PCR). A fourth polymorphism, DV1.9, is an L1 insertion element in intron 30, and the other two polymorphisms, GXAlu and EVI-20, are short tandem repeats in intron 27b. All the polymorphisms were evaluated in a cohort of 110 CEPH individuals who previously had been analyzed by use of eight RFLPs at the NF1 locus. Pairwise linkage-disequilibrium analyses with the six PCR-based polymorphisms and their flanking markers demonstrated disequilibrium between all tested loci. Genotypes of the four diallelic polymorphisms (702, 2034, 10647, and DV1.9) were also evaluated in cohorts from the CEPH, African, and Japanese populations. The CEPH and Japanese cohorts showed similar heterozygosities and linkage-disequilibrium coefficients. The African cohort showed a higher degree of heterozygosity and lower linkage-disequilibrium values, compared with the CEPH and Japanese cohorts.

Published

1996

13. Origins and affinities of modern humans: a comparison of mitochondrial and nuclear genetic data.

Author

Jorde LB, Bamshad MJ, Watkins WS, Zenger R, Fraley AE, Krakowiak PA, Carpenter KD, Soodyall H, Jenkins T, and Rogers AR

Subjects

Africa, Asia, Base Sequence, Europe, Genetic Variation, Humans, Molecular Sequence Data, Biological Evolution, DNA, Mitochondrial genetics, Genetics, Population, Polymorphism, Genetic

Abstract

To test hypotheses about the origin of modern humans, we analyzed mtDNA sequences, 30 nuclear restriction-site polymorphisms (RSPs), and 30 tetranucleotide short tandem repeat (STR) polymorphisms in 243 Africans, Asians, and Europeans. An evolutionary tree based on mtDNA displays deep African branches, indicating greater genetic diversity for African populations. This finding, which is consistent with previous mtDNA analyses, has been interpreted as evidence for an African origin of modern humans. Both sets of nuclear polymorphisms, as well as a third set of trinucleotide polymorphisms, are highly consistent with one another but fail to show deep branches for African populations. These results, which represent the first direct comparison of mtDNA and nuclear genetic data in major continental populations, undermine the genetic evidence for an African origin of modern humans.

Published

1995

14. Population genetics of trinucleotide repeat polymorphisms.

Author

Watkins WS, Bamshad M, and Jorde LB

Subjects

Alleles, Base Sequence, DNA Primers, Gene Frequency, Humans, Molecular Sequence Data, Racial Groups genetics, Genetics, Population, Polymorphism, Genetic, Trinucleotide Repeats

Abstract

Trinucleotide repeats at five disease loci (DM, DRPLA, HD, SBMA and SCA1) were surveyed in phenotypically normal individuals from three continental populations. This is the first analysis to examine the population dynamics of these five disease-related trinucleotide repeats in the same individuals from worldwide populations. Roughly half of all alleles observed at each locus are shared between all continental groups. For three loci, disease prevalence in each population corresponds with the number of alleles in the upper tail of the allele-size distribution. The allele-size distributions of African, Asian and Caucasian groups show a high degree of variation, and gene diversity estimates for trinucleotide repeat loci exceed estimates derived from dinucleotide or tetranucleotide repeats. Analyses that compared infinite alleles and stepwise mutation models suggest that normal variation at trinucleotide loci is not generated by stepwise mutation alone. Trees constructed for subpopulations using trinucleotide repeat loci show accurate continental clustering. Interpopulation genetic distance estimates show remarkable similarity to distance estimates produced from tetranucleotide repeats or nuclear restriction site polymorphisms. This finding is especially noteworthy in light of the fact that trinucleotide repeat polymorphisms at these loci can cause disease, while restriction site and tetranucleotide polymorphisms appear to be selectively neutral. In contrast, genetic distance estimates from trinucleotide loci are poorly correlated with genetic distance estimates from mitochondrial sequence data.

Published

1995

15. Genetic evidence on modern human origins.

Author

Rogers AR and Jorde LB

Subjects

Alleles, Humans, Models, Theoretical, DNA, Mitochondrial genetics, Genetic Linkage, Genetics, Population, Polymorphism, Genetic, Racial Groups genetics

Abstract

A review of genetic evidence leads to the following conclusions concerning human population history: (1) Between 33,000 and 150,000 years ago the human population expanded from an initial size of perhaps 10,000 breeding individuals, reaching a size of at least 300,000. (2) Although the initial population was small, it contained at least 1000 breeding individuals. (3) The human races separated several tens of thousands of years before their separate expansions. (4) Before their expansions the separate racial populations were small. These inferences are inconsistent with both the multiregional and the replacement models of modern human origins. They support the "weak Garden of Eden" hypothesis, which holds that the human populations separated some 100,000 years ago but did not expand until tens of thousands of years later.

Published

1995