Your search keyword '"Oefner P"' showing total 10 results

1. Estimation of the Time to the Most Recent Common Ancestor by Tree-Partition

Author

Tang, H., Siegmund, D., Shen, P., Oefner, P., and Feldman, M.

Subjects

Human genetics -- Research, Genetic disorders -- Research, Heredity -- Research, Biological sciences

Published

2001

2. BRCA1 and BRCA2 analysis in 523 Austrian HBOC and HBC families

Author

Kroiss, R., Wagner, T., Muhr, D., Fleischmann, E., Korn, V., Helbich, Th., Zielinski, Ch., Kubista, E., and Oefner, P.

Subjects

Austria -- Health aspects, Breast cancer -- Genetic aspects, Ovarian cancer -- Genetic aspects, Gene mutations -- Research, Biological sciences

Published

2001

3. Mutational analyses of BRCA1 and BRCA2 in Ashkenazi and non-Ashkenazi Jewish women with familial breast and ovarian cancer

Author

Shiri-Sverdlov, R., Oefner, P., Gershoni-Baruch, R., Green, L., Hofstra, RMW., Wagner, T., and Friedman, E.

Subjects

Human genetics -- Research, Gene mutations -- Research, Biological sciences

Published

2000

4. A novel Y-chromosome variant puts an upper limit on the timing of first entry into the Americas.

Author

Seielstad M, Yuldasheva N, Singh N, Underhill P, Oefner P, Shen P, and Wells RS

Subjects

Americas, Chronology as Topic, Gene Frequency, History, Ancient, Humans, Microsatellite Repeats, Mutation, Polymorphism, Genetic, Chromosomes, Human, Y, Emigration and Immigration history, Genetic Variation, Polymorphism, Single Nucleotide

Published

2003

5. Reduced Y-chromosome, but not mitochondrial DNA, diversity in human populations from West New Guinea.

Author

Kayser M, Brauer S, Weiss G, Schiefenhövel W, Underhill P, Shen P, Oefner P, Tommaseo-Ponzetta M, and Stoneking M

Subjects

Gene Frequency, Genetic Markers, Haplotypes, Humans, Indonesia, Male, Pacific Islands, Papua New Guinea, Tandem Repeat Sequences, Chromosomes, Human, Y genetics, DNA, Mitochondrial analysis, Genetic Variation

Abstract

To investigate the paternal population history of New Guinea, 183 individuals from 11 regional populations of West New Guinea (WNG) and 131 individuals from Papua New Guinea (PNG) were analyzed at 26 binary markers and seven short-tandem-repeat loci from the nonrecombining part of the human Y chromosome and were compared with 14 populations of eastern and southeastern Asia, Polynesia, and Australia. Y-chromosomal diversity was low in WNG compared with PNG and with most other populations from Asia/Oceania; a single haplogroup (M-M4) accounts for 75% of WNG Y chromosomes, and many WNG populations have just one Y haplogroup. Four Y-chromosomal lineages (haplogroups M-M4, C-M208, C-M38, and K-M230) account for 94% of WNG Y chromosomes and 78% of all Melanesian Y chromosomes and were identified to have most likely arisen in Melanesia. Haplogroup C-M208, which in WNG is restricted to the Dani and Lani, two linguistically closely related populations from the central and western highlands of WNG, was identified as the major Polynesian Y-chromosome lineage. A network analysis of associated Y-chromosomal short-tandem-repeat haplotypes suggests two distinct population expansions involving C-M208--one in New Guinea and one in Polynesia. The observed low levels of Y-chromosome diversity in WNG contrast with high levels of mtDNA diversity reported for the same populations. This most likely reflects extreme patrilocality and/or biased male reproductive success (polygyny). Our data further provide evidence for primarily female-mediated gene flow within the highlands of New Guinea but primarily male-mediated gene flow between highland and lowland/coastal regions.

Published

2003

6. Premature termination mutations in FBN1: distinct effects on differential allelic expression and on protein and clinical phenotypes.

Author

Schrijver I, Liu W, Odom R, Brenn T, Oefner P, Furthmayr H, and Francke U

Subjects

Adult, Fibrillin-1, Fibrillins, Gene Expression, Genetic Heterogeneity, Genotype, Humans, Microfilament Proteins deficiency, Middle Aged, Phenotype, RNA Splice Sites, RNA, Messenger analysis, Codon, Nonsense, Marfan Syndrome genetics, Microfilament Proteins genetics, Mutation, Missense

Abstract

Marfan syndrome (MFS) and other type 1 fibrillinopathies result from mutations in the FBN1 gene, which encodes the connective-tissue microfibrillar protein fibrillin 1. Attempts at correlating genotype with phenotype have suggested considerable heterogeneity. To define the subtype of fibrillinopathy caused by premature termination codon (PTC) mutations, we integrate genotype information and mRNA expression levels with clinical and biochemical phenotypes. By screening the entire FBN1 gene for mutations, we identified 34 probands with PTC mutations. With the exception of two recurrent mutations, these nonsense and frameshift mutations are unique and span the entire FBN1 gene, from IVS2 to IVS63. Allele-specific reverse-transcriptase polymerase chain reaction analyses revealed differential allelic expression in all studied samples, with variable reduction of the mutant transcript. Fibrillin protein synthesis and deposition into the extracellular matrix were studied by pulse-chase analysis of cultured fibroblasts. In the majority of PTC samples, synthesis of normal-sized fibrillin protein was approximately 50% of control levels, but matrix deposition was disproportionately decreased. Probands and mutation-positive relatives were clinically evaluated by means of a standardized protocol. Only 71% (22/31) of probands and 58% (14/24) of the mutation-positive family members met current clinical diagnostic criteria for MFS. When compared with our previously reported study group of 44 individuals with FBN1 cysteine substitutions, the PTC group showed statistically significant differences in the frequency of individual signs, especially in the ocular manifestations. Whereas large-joint hypermobility was more common, lens dislocation and retinal detachment were distinctly less common in the PTC group. We conclude that PTC mutations have a major impact on the pathogenesis of type 1 fibrillinopathies and convey a distinct biochemical, clinical, and prognostic profile.

Published

2002

7. Origins and divergence of the Roma (gypsies).

Author

Gresham D, Morar B, Underhill PA, Passarino G, Lin AA, Wise C, Angelicheva D, Calafell F, Oefner PJ, Shen P, Tournev I, de Pablo R, Kuĉinskas V, Perez-Lezaun A, Marushiakova E, Popov V, and Kalaydjieva L

Subjects

Emigration and Immigration, Europe, Female, Gene Frequency genetics, Genetic Variation genetics, Humans, India ethnology, Male, Mutation genetics, Phylogeny, Polymorphism, Genetic genetics, Sample Size, DNA, Mitochondrial genetics, Haplotypes genetics, Roma genetics, Y Chromosome genetics

Abstract

The identification of a growing number of novel Mendelian disorders and private mutations in the Roma (Gypsies) points to their unique genetic heritage. Linguistic evidence suggests that they are of diverse Indian origins. Their social structure within Europe resembles that of the jatis of India, where the endogamous group, often defined by profession, is the primary unit. Genetic studies have reported dramatic differences in the frequencies of mutations and neutral polymorphisms in different Romani populations. However, these studies have not resolved ambiguities regarding the origins and relatedness of Romani populations. In this study, we examine the genetic structure of 14 well-defined Romani populations. Y-chromosome and mtDNA markers of different mutability were analyzed in a total of 275 individuals. Asian Y-chromosome haplogroup VI-68, defined by a mutation at the M82 locus, was present in all 14 populations and accounted for 44.8% of Romani Y chromosomes. Asian mtDNA-haplogroup M was also identified in all Romani populations and accounted for 26.5% of female lineages in the sample. Limited diversity within these two haplogroups, measured by the variation at eight short-tandem-repeat loci for the Y chromosome, and sequencing of the HVS1 for the mtDNA are consistent with a small group of founders splitting from a single ethnic population in the Indian subcontinent. Principal-components analysis and analysis of molecular variance indicate that genetic structure in extant endogamous Romani populations has been shaped by genetic drift and differential admixture and correlates with the migrational history of the Roma in Europe. By contrast, social organization and professional group divisions appear to be the product of a more recent restitution of the caste system of India.

Published

2001

8. Global analysis of ATM polymorphism reveals significant functional constraint.

Author

Thorstenson YR, Shen P, Tusher VG, Wayne TL, Davis RW, Chu G, and Oefner PJ

Subjects

Africa ethnology, Animals, Ataxia Telangiectasia genetics, Ataxia Telangiectasia Mutated Proteins, Cell Cycle Proteins, Chromatography, High Pressure Liquid, Chromosomes genetics, DNA Mutational Analysis, DNA-Binding Proteins, Exons genetics, Genetic Variation genetics, Haplotypes genetics, Humans, Introns genetics, Linkage Disequilibrium genetics, Models, Genetic, Molecular Sequence Data, Mutation, Missense genetics, Nucleic Acid Denaturation, Phylogeny, Polymorphism, Single-Stranded Conformational, Protein Serine-Threonine Kinases chemistry, Racial Groups genetics, Selection, Genetic, Temperature, Tumor Suppressor Proteins, Evolution, Molecular, Mutagenesis genetics, Polymorphism, Genetic genetics, Primates genetics, Protein Serine-Threonine Kinases genetics

Abstract

ATM, the gene that is mutated in ataxia-telangiectasia, is associated with cerebellar degeneration, abnormal proliferation of small blood vessels, and cancer. These clinically important manifestations have stimulated interest in defining the sequence variation in the ATM gene. Therefore, we undertook a comprehensive survey of sequence variation in ATM in diverse human populations. The protein-encoding exons of the gene (9,168 bp) and the adjacent intron and untranslated sequences (14,661 bp) were analyzed in 93 individuals from seven major human populations. In addition, the coding sequence was analyzed in one chimpanzee, one gorilla, one orangutan, and one Old World monkey. In human ATM, 88 variant sites were discovered by denaturing high-performance liquid chromatography, which is 96%-100% sensitive for detection of DNA sequence variation. ATM was compared to 14 other autosomal genes for nucleotide diversity. The noncoding regions of ATM had diversity values comparable to other genes, but the coding regions had very low diversity, especially in the last 29% of the protein sequence. A test of the neutral evolution hypothesis, through use of the Hudson/Kreitman/Aguadé statistic, revealed that this region of the human ATM gene was significantly constrained relative to that of the orangutan, the Old World monkey, and the mouse, but not relative to that of the chimpanzee or the gorilla. ATM displayed extensive linkage disequilibrium, consistent with suppression of meiotic recombination at this locus. Seven haplotypes were defined. Two haplotypes accounted for 82% of all chromosomes analyzed in all major populations; two others carrying the same D126E missense polymorphism accounted for 33% of chromosomes in Africa but were never observed outside of Africa. The high frequency of this polymorphism may be due either to a population expansion within Africa or to selective pressure.

Published

2001

9. High-resolution analysis of human Y-chromosome variation shows a sharp discontinuity and limited gene flow between northwestern Africa and the Iberian Peninsula.

Author

Bosch E, Calafell F, Comas D, Oefner PJ, Underhill PA, and Bertranpetit J

Subjects

Africa South of the Sahara, Alleles, Emigration and Immigration, Founder Effect, Gene Pool, Gibraltar, Haplotypes genetics, Humans, Male, Microsatellite Repeats genetics, Morocco, Portugal, Spain, Gene Frequency genetics, Genetic Variation genetics, Phylogeny, Polymorphism, Genetic genetics, Y Chromosome genetics

Abstract

In the present study we have analyzed 44 Y-chromosome biallelic polymorphisms in population samples from northwestern (NW) Africa and the Iberian Peninsula, which allowed us to place each chromosome unequivocally in a phylogenetic tree based on >150 polymorphisms. The most striking results are that contemporary NW African and Iberian populations were found to have originated from distinctly different patrilineages and that the Strait of Gibraltar seems to have acted as a strong (although not complete) barrier to gene flow. In NW African populations, an Upper Paleolithic colonization that probably had its origin in eastern Africa contributed 75% of the current gene pool. In comparison, approximately 78% of contemporary Iberian Y chromosomes originated in an Upper Paleolithic expansion from western Asia, along the northern rim of the Mediterranean basin. Smaller contributions to these gene pools (constituting 13% of Y chromosomes in NW Africa and 10% of Y chromosomes in Iberia) came from the Middle East during the Neolithic and, during subsequent gene flow, from Sub-Saharan to NW Africa. Finally, bidirectional gene flow across the Strait of Gibraltar has been detected: the genetic contribution of European Y chromosomes to the NW African gene pool is estimated at 4%, and NW African populations may have contributed 7% of Iberian Y chromosomes. The Islamic rule of Spain, which began in a.d. 711 and lasted almost 8 centuries, left only a minor contribution to the current Iberian Y-chromosome pool. The high-resolution analysis of the Y chromosome allows us to separate successive migratory components and to precisely quantify each historical layer.

Published

2001

10. Y-Chromosome evidence for a northward migration of modern humans into Eastern Asia during the last Ice Age.

Author

Su B, Xiao J, Underhill P, Deka R, Zhang W, Akey J, Huang W, Shen D, Lu D, Luo J, Chu J, Tan J, Shen P, Davis R, Cavalli-Sforza L, Chakraborty R, Xiong M, Du R, Oefner P, Chen Z, and Jin L

Subjects

Africa, Alleles, Animals, Cold Climate, Ethnicity genetics, Asia, Eastern, Gene Frequency, History, Ancient, Humans, Microsatellite Repeats genetics, Mutation genetics, Siberia, Emigration and Immigration history, Haplotypes genetics, Polymorphism, Genetic genetics, Y Chromosome genetics

Abstract

The timing and nature of the arrival and the subsequent expansion of modern humans into eastern Asia remains controversial. Using Y-chromosome biallelic markers, we investigated the ancient human-migration patterns in eastern Asia. Our data indicate that southern populations in eastern Asia are much more polymorphic than northern populations, which have only a subset of the southern haplotypes. This pattern indicates that the first settlement of modern humans in eastern Asia occurred in mainland Southeast Asia during the last Ice Age, coinciding with the absence of human fossils in eastern Asia, 50,000-100,000 years ago. After the initial peopling, a great northward migration extended into northern China and Siberia.

Published

1999