Your search keyword '"Kayser, M."' showing total 30 results

1. Y-chromosome analysis confirms highly sex-biased dispersal and suggests a low male effective population size in bonobos (Pan paniscus).

Author

Eriksson J, Siedel H, Lukas D, Kayser M, Erler A, Hashimoto C, Hohmann G, Boesch C, and Vigilant L

Subjects

Analysis of Variance, Animals, Congo, DNA, Mitochondrial genetics, Female, Genetic Markers, Genetic Variation, Geography, Haplotypes, Male, Microsatellite Repeats genetics, Population Density, Sex Factors, Sexual Behavior, Animal, Animal Migration, Gene Flow, Pan paniscus genetics, Y Chromosome genetics

Abstract

Dispersal is a rare event that is difficult to observe in slowly maturing, long-lived wild animal species such as the bonobo. In this study we used sex-linked (mitochondrial DNA sequence and Y-chromosome microsatellite) markers from the same set of individuals to estimate the magnitude of difference in effective dispersal between the sexes and to investigate the long-term demographic history of bonobos. We sampled 34 males from four distinct geographical areas across the bonobo distribution range. As predicted for a female-dispersing species, we found much higher levels of differentiation among local bonobo populations based upon Y-chromosomal than mtDNA genetic variation. Specifically, almost all of the Y-chromosomal variation distinguished populations, while nearly all of the mtDNA variation was shared between populations. Furthermore, genetic distance correlated with geographical distance for mtDNA but not for the Y chromosome. Female bonobos have a much higher migration rate and/or effective population size as compared to males, and the estimate for the mitochondrial TMRCA (time to most recent common ancestor) was approximately 10 times greater than the estimate for the Y chromosome (410,000 vs. 40,000-45,000). For humans the difference is merely a factor of two, suggesting a more stable demographic history in bonobos in comparison to humans.

Published

2006

2. Development of Y-chromosomal microsatellite markers for nonhuman primates.

Author

Erler A, Stoneking M, and Kayser M

Subjects

Animals, Base Sequence, Evolution, Molecular, Gene Frequency, Male, Molecular Sequence Data, Sequence Analysis, DNA, Species Specificity, Microsatellite Repeats genetics, Polymorphism, Genetic, Primates genetics, Y Chromosome genetics

Abstract

We have analysed 136 newly identified human Y-chromosomal microsatellites in five (sub)species of nonhuman primates. We identified 83 male-specific loci for central chimpanzees, 82 for western chimpanzees, 67 for gorillas, 45 for orangutans and 19 loci for mandrills. Polymorphism was detected at 56 loci in central chimpanzees, 29 in western chimpanzees, 24 in western gorillas, 17 in orangutans and at three in mandrills. Success in male-specific amplification of human Y-chromosomal microsatellites in nonhuman primates was significantly negatively correlated with divergence time from the human lineage. We observed significantly more Y-chromosomal microsatellite diversity in central chimpanzees than in western chimpanzees. There were significantly more male-specific loci with longer alleles in humans than with longer alleles in the nonhuman primates; however, this significant difference disappeared when only the loci which are polymorphic in nonhuman primates were analysed, suggesting that ascertainment bias is responsible. This study provides primatologists with a large number of polymorphic, male-specific microsatellite markers that will be valuable for investigating relevant questions in behavioural ecology such as male reproductive strategies, kin-based cooperation among males and male-specific dispersal patterns in wild groups of nonhuman primates.

Published

2004

3. Homogeneity and distinctiveness of Polish paternal lineages revealed by Y chromosome microsatellite haplotype analysis.

Author

Ploski R, Wozniak M, Pawlowski R, Monies DM, Branicki W, Kupiec T, Kloosterman A, Dobosz T, Bosch E, Nowak M, Lessig R, Jobling MA, Roewer L, and Kayser M

Subjects

Alleles, Analysis of Variance, Databases, Nucleic Acid, Europe, Genetics, Population, Haplotypes, Humans, Male, Microsatellite Repeats, Paternity, Poland, Y Chromosome genetics

Abstract

Different regional populations from Poland were studied in order to assess the genetic heterogeneity within Poland, investigate the genetic relationships with other European populations and provide a population-specific reference database for anthropological and forensic studies. Nine Y-chromosomal microsatellites were analysed in a total of 919 unrelated males from six regions of Poland and in 1,273 male individuals from nine other European populations. AMOVA revealed that all of the molecular variation in the Polish dataset is due to variation within populations, and no variation was detected among populations of different regions of Poland. However, in the non-Polish European dataset 9.3% ( P<0.0001) of the total variation was due to differences among populations. Consequently, differences in R(ST)-values between all possible pairs of Polish populations were not statistically significant, whereas significant differences were observed in nearly all comparisons of Polish and non-Polish European populations. Phylogenetic analyses demonstrated tight clustering of Polish populations separated from non-Polish groups. Population clustering based on Y-STR haplotypes generally correlates well with the geography and history of the region. Thus, our data are consistent with the assumption of homogeneity of present-day paternal lineages within Poland and their distinctiveness from other parts of Europe, at least in respect to their Y-STR haplotypes. Electronic supplementary material to this paper can be obtained by using the Springer LINK server located at http://dx.doi.org/10.1007/s00439-002-0728-0.

Published

2002

4. Online Y-chromosomal short tandem repeat haplotype reference database (YHRD) for U.S. populations.

Author

Kayser M, Brauer S, Willuweit S, Schädlich H, Batzer MA, Zawacki J, Prinz M, Roewer L, and Stoneking M

Subjects

Black People genetics, DNA chemistry, DNA genetics, Genetic Variation, Hispanic or Latino genetics, Humans, Male, Reference Standards, United States, White People genetics, Y Chromosome chemistry, Black or African American, Databases, Genetic, Haplotypes genetics, Tandem Repeat Sequences, Y Chromosome genetics

Abstract

We describe here an online Y-chromosomal short tandem repeat haplotype reference database (YHRD) for U.S. populations, which represents 9-locus Y-STR haplotypes for 1705 African-Americans, European-Americans and Hispanics as of October 2001. This database is available online (http://www.ystr. org/usa/), free to access and was generated in order to supply the U.S. forensic DNA community with a valuable resource for frequencies of complete or incomplete 9-locus Y-STR haplotypes, as well as information about typing protocols and population genetic analyses. Pairwise R(ST)-statistics derived from the Y-STR haplotypes indicate no significant substructure among African-American populations from different regions of the U.S., nor (usually) among European-American and Hispanic populations. Thus, pooling of Y-STR haplotype data from regional populations within these three major groups is appropriate in order to obtain larger sample sizes. However, pooling of different major populations is generally not recommended due to statistically significant differences between African-American populations and all European-American/Hispanic populations, as well as between some European-American and Hispanic populations.

Published

2002

5. Y-chromosomal evidence for a strong reduction in male population size of Yakuts.

Author

Pakendorf B, Morar B, Tarskaia LA, Kayser M, Soodyall H, Rodewald A, and Stoneking M

Subjects

Alleles, Genetic Markers, Humans, Male, Siberia, Ethnicity genetics, Sex Ratio, Y Chromosome

Published

2002

6. DNA Commission of the International Society of Forensic Genetics: recommendations on forensic analysis using Y-chromosome STRs.

Author

Gill P, Brenner C, Brinkmann B, Budowle B, Carracedo A, Jobling MA, de Knijff P, Kayser M, Krawczak M, Mayr WR, Morling N, Olaisen B, Pascali V, Prinz M, Roewer L, Schneider PM, Sajantila A, and Tyler-Smith C

Subjects

Alleles, Humans, Male, Tandem Repeat Sequences, Terminology as Topic, DNA genetics, Forensic Medicine, Genetics, Population, International Agencies, Polymorphism, Genetic, Y Chromosome genetics

Abstract

During the past few years, the DNA Commission of the International Society of Forensic Genetics has published a series of documents providing guidelines and recommendations concerning the application of DNA polymorphisms to the problems of human identification. This latest report addresses a relatively new area - namely, Y-chromosome polymorphisms, with particular emphasis on short tandem repeats (STRs). This report addresses nomenclature, use of allelic ladders, population genetics and reporting methods.

Published

2001

7. Application of Y-chromosomal STR haplotypes to forensic genetics.

Author

Henke J, Henke L, Chatthopadhyay P, Kayser M, Dülmer M, Cleef S, Pöche H, and Felske-Zech H

Subjects

Female, Genetics, Population, Germany, Humans, India ethnology, Male, Sensitivity and Specificity, Turkey ethnology, Forensic Medicine methods, Haplotypes, Tandem Repeat Sequences, White People genetics, Y Chromosome genetics

Abstract

This paper delivers population genetic data on Y-chromosomal short tandem repeat (STR) polymorphisms along with reports of unusual observations and casework. Population studies were carried out on the Y-specific STR polymorphisms DYS19, DYS385 I+II, DYS389 I+II, DYS390, DYS391, DYS392, and DYS393 in population samples from North India, Turkey, and Germany. In all three populations the vast majority of haplotypes was observed only once, especially in the Turkish group. Highly unusual cases are reported. In a German individual, we observed the variant allele DYS392*11.1, whereas a Turkish haplotype revealed a duplication at locus DYS19. Application of Y-chromosomal STR markers to forensic genetics was demonstrated in two cases: 1) a deficient paternity case, and 2) a father/son pair, where the Amelogenin primers failed to amplify the Y-homolog. In forensic genetics, Y-chromosomal STR polymorphisms are highly welcomed as an additional tool.

Published

2001

8. Online reference database of European Y-chromosomal short tandem repeat (STR) haplotypes.

Author

Roewer L, Krawczak M, Willuweit S, Nagy M, Alves C, Amorim A, Anslinger K, Augustin C, Betz A, Bosch E, Cagliá A, Carracedo A, Corach D, Dekairelle AF, Dobosz T, Dupuy BM, Füredi S, Gehrig C, Gusmaõ L, Henke J, Henke L, Hidding M, Hohoff C, Hoste B, Jobling MA, Kärgel HJ, de Knijff P, Lessig R, Liebeherr E, Lorente M, Martínez-Jarreta B, Nievas P, Nowak M, Parson W, Pascali VL, Penacino G, Ploski R, Rolf B, Sala A, Schmidt U, Schmitt C, Schneider PM, Szibor R, Teifel-Greding J, and Kayser M

Subjects

Europe, Genetics, Population, Humans, Male, Databases, Factual, Haplotypes, Tandem Repeat Sequences genetics, Y Chromosome genetics

Abstract

The reference database of highly informative Y-chromosomal short tandem repeat (STR) haplotypes (YHRD), available online at http://ystr.charite.de, represents the largest collection of male-specific genetic profiles currently available for European populations. By September 2000, YHRD contained 4688 9-locus (so-called "minimal") haplotypes, 40% of which have been extended further to include two additional loci. Establishment of YHRD has been facilitated by the joint efforts of 31 forensic and anthropological institutions. All contributing laboratories have agreed to standardize their Y-STR haplotyping protocols and to participate in a quality assurance exercise prior to the inclusion of any data. In view of its collaborative character, and in order to put YHRD to its intended use, viz. the support of forensic caseworkers in their routine decision-making process, the database has been made publicly available via the Internet in February 2000. Online searches for complete or partial Y-STR haplotypes from evidentiary or non-probative material can be performed on a non-commercial basis, and yield observed haplotype counts as well as extrapolated population frequency estimates. In addition, the YHRD website provides information about the quality control test, genotyping protocols, haplotype formats and informativity, population genetic analysis, literature references, and a list of contact addresses of the contributing laboratories.

Published

2001

9. Mutations at Y-STR loci: implications for paternity testing and forensic analysis.

Author

Kayser M and Sajantila A

Subjects

Autoradiography, Forensic Medicine methods, Humans, Male, Mutation, Paternity, Tandem Repeat Sequences genetics, Y Chromosome genetics

Abstract

Knowledge about mutation rates and the mutational process of Y-chromosomal short-tandem-repeat (STR) or microsatellite loci used in paternity testing and forensic analysis is crucial for the correct interpretation of resulting genetic profiles. Therefore, we recently analysed a total of 4999 male germline transmissions from father/son pairs of confirmed paternity (probability > or = 99.9%) at 15 Y-STR loci which are commonly applied to forensics. We identified 14 mutations. Locus specific mutation rate estimates varied between 0 and 8.58 x 10(-3), and the overall average mutation rate estimate was 2.80 x 10(-3) (95% CIL 1.72 x 10(-3)-4.27 x 10(-3)). In two confirmed father/son pairs mutation at two Y-STRs were observed. The probability of two mutations occurring within the same single germline transmission was estimated to be statistically not unexpected. Additional alleles caused by insertion polymorphisms have been found at a number of Y-STRs and a frequency of 0.12% was estimated for DYS19. The observed mutational features for Y-STRs have important consequences for forensic applications such as the definition of criteria for exclusions in paternity testing and the interpretation of genetic profiles in stain analysis. In order to further enrich our knowledge of Y-STR mutations we suggest the establishment of a Y-STR mutation database and ask the forensic community for data contribution.

Published

2001

10. An extensive analysis of Y-chromosomal microsatellite haplotypes in globally dispersed human populations.

Author

Kayser M, Krawczak M, Excoffier L, Dieltjes P, Corach D, Pascali V, Gehrig C, Bernini LF, Jespersen J, Bakker E, Roewer L, and de Knijff P

Subjects

Africa, Alleles, Asia, Europe, Evolution, Molecular, Gene Frequency genetics, Genetic Testing, Humans, Male, Monte Carlo Method, New Guinea, South America, Genetic Variation genetics, Haplotypes genetics, Microsatellite Repeats genetics, Phylogeny, Y Chromosome genetics

Abstract

The genetic variance at seven Y-chromosomal microsatellite loci (or short tandem repeats [STRs]) was studied among 986 male individuals from 20 globally dispersed human populations. A total of 598 different haplotypes were observed, of which 437 (73.1%) were each found in a single male only. Population-specific haplotype-diversity values were.86-.99. Analyses of haplotype diversity and population-specific haplotypes revealed marked population-structure differences between more-isolated indigenous populations (e.g., Central African Pygmies or Greenland Inuit) and more-admixed populations (e.g., Europeans or Surinamese). Furthermore, male individuals from isolated indigenous populations shared haplotypes mainly with male individuals from their own population. By analysis of molecular variance, we found that 76.8% of the total genetic variance present among these male individuals could be attributed to genetic differences between male individuals who were members of the same population. Haplotype sharing between populations, phi(ST) statistics, and phylogenetic analysis identified close genetic affinities among European populations and among New Guinean populations. Our data illustrate that Y-chromosomal STR haplotypes are an ideal tool for the study of the genetic affinities between groups of male subjects and for detection of population structure.

Published

2001

11. Independent histories of human Y chromosomes from Melanesia and Australia.

Author

Kayser M, Brauer S, Weiss G, Schiefenhövel W, Underhill PA, and Stoneking M

Subjects

Asia, Southeastern, Australia, Base Sequence, DNA, Mitochondrial genetics, Emigration and Immigration, Evolution, Molecular, Gene Frequency genetics, Genetic Variation genetics, Humans, Male, Melanesia, Microsatellite Repeats genetics, Models, Genetic, Polymorphism, Restriction Fragment Length, Polymorphism, Single Nucleotide genetics, Tandem Repeat Sequences genetics, Haplotypes genetics, Phylogeny, Y Chromosome genetics

Abstract

To investigate the origins and relationships of Australian and Melanesian populations, 611 males from 18 populations from Australia, Melanesia, and eastern/southeastern Asia were typed for eight single-nucleotide polymorphism (SNP) loci and seven short tandem-repeat loci on the Y chromosome. A unique haplotype, DYS390.1del/RPS4Y711T, was found at a frequency of 53%-69% in Australian populations, whereas the major haplotypes found in Melanesian populations (M4G/M5T/M9G and DYS390.3del/RPS4Y711T) are absent from the Australian populations. The Y-chromosome data thus indicate independent histories for Australians and Melanesians, a finding that is in agreement with evidence from mtDNA but that contradicts some analyses of autosomal loci, which show a close relationship between Australian and Melanesian (specifically, highland Papua New Guinean) populations. Since the Australian and New Guinean landmasses were connected when first colonized by humans > or =50,000 years ago but separated some 8,000 years ago, a possible way to reconcile all the genetic data is to infer that the Y-chromosome and mtDNA results reflect the past 8,000 years of independent history for Australia and New Guinea, whereas the autosomal loci reflect the long preceding period of common origin and shared history. Two Y-chromosome haplotypes (M119C/M9G and M122C/M9G) that originated in eastern/southeastern Asia are present in coastal and island Melanesia but are rare or absent in both Australia and highland Papua New Guinea. This distribution, along with demographic analyses indicating that population expansions for both haplotypes began approximately 4,000-6,000 years ago, suggests that these haplotypes were brought to Melanesia by the Austronesian expansion. Most of the populations in this study were previously typed for mtDNA SNPs; population differentiation is greater for the Y chromosome than for mtDNA and is significantly correlated with geographic distance, a finding in agreement with results of similar analyses of European populations.

Published

2001

12. Y-chromosomal diversity in Europe is clinal and influenced primarily by geography, rather than by language.

Author

Rosser ZH, Zerjal T, Hurles ME, Adojaan M, Alavantic D, Amorim A, Amos W, Armenteros M, Arroyo E, Barbujani G, Beckman G, Beckman L, Bertranpetit J, Bosch E, Bradley DG, Brede G, Cooper G, Côrte-Real HB, de Knijff P, Decorte R, Dubrova YE, Evgrafov O, Gilissen A, Glisic S, Gölge M, Hill EW, Jeziorowska A, Kalaydjieva L, Kayser M, Kivisild T, Kravchenko SA, Krumina A, Kucinskas V, Lavinha J, Livshits LA, Malaspina P, Maria S, McElreavey K, Meitinger TA, Mikelsaar AV, Mitchell RJ, Nafa K, Nicholson J, Nørby S, Pandya A, Parik J, Patsalis PC, Pereira L, Peterlin B, Pielberg G, Prata MJ, Previderé C, Roewer L, Rootsi S, Rubinsztein DC, Saillard J, Santos FR, Stefanescu G, Sykes BC, Tolun A, Villems R, Tyler-Smith C, and Jobling MA

Subjects

Africa, Northern, Alleles, Emigration and Immigration, Europe, Gene Frequency genetics, Genetic Markers genetics, Haplotypes genetics, Humans, Linguistics, Male, Models, Genetic, Oceans and Seas, Phylogeny, Polymorphism, Genetic genetics, Genetic Variation genetics, Geography, Language, Y Chromosome genetics

Abstract

Clinal patterns of autosomal genetic diversity within Europe have been interpreted in previous studies in terms of a Neolithic demic diffusion model for the spread of agriculture; in contrast, studies using mtDNA have traced many founding lineages to the Paleolithic and have not shown strongly clinal variation. We have used 11 human Y-chromosomal biallelic polymorphisms, defining 10 haplogroups, to analyze a sample of 3,616 Y chromosomes belonging to 47 European and circum-European populations. Patterns of geographic differentiation are highly nonrandom, and, when they are assessed using spatial autocorrelation analysis, they show significant clines for five of six haplogroups analyzed. Clines for two haplogroups, representing 45% of the chromosomes, are continentwide and consistent with the demic diffusion hypothesis. Clines for three other haplogroups each have different foci and are more regionally restricted and are likely to reflect distinct population movements, including one from north of the Black Sea. Principal-components analysis suggests that populations are related primarily on the basis of geography, rather than on the basis of linguistic affinity. This is confirmed in Mantel tests, which show a strong and highly significant partial correlation between genetics and geography but a low, nonsignificant partial correlation between genetics and language. Genetic-barrier analysis also indicates the primacy of geography in the shaping of patterns of variation. These patterns retain a strong signal of expansion from the Near East but also suggest that the demographic history of Europe has been complex and influenced by other major population movements, as well as by linguistic and geographic heterogeneities and the effects of drift.

Published

2000

13. Melanesian origin of Polynesian Y chromosomes.

Author

Kayser M, Brauer S, Weiss G, Underhill PA, Roewer L, Schiefenhövel W, and Stoneking M

Subjects

Asia ethnology, Chromosome Mapping, Geography, Haplotypes, Humans, Indonesia ethnology, Male, Melanesia, Polynesia ethnology, Taiwan ethnology, DNA, Mitochondrial genetics, Racial Groups genetics, Y Chromosome

Abstract

Background: Two competing hypotheses for the origins of Polynesians are the 'express-train' model, which supposes a recent and rapid expansion of Polynesian ancestors from Asia/Taiwan via coastal and island Melanesia, and the 'entangled-bank' model, which supposes a long history of cultural and genetic interactions among Southeast Asians, Melanesians and Polynesians. Most genetic data, especially analyses of mitochondrial DNA (mtDNA) variation, support the express-train model, as does linguistic and archaeological evidence. Here, we used Y-chromosome polymorphisms to investigate the origins of Polynesians., Results: We analysed eight single nucleotide polymorphisms (SNPs) and seven short tandem repeat (STR) loci on the Y chromosome in 28 Cook Islanders from Polynesia and 583 males from 17 Melanesian, Asian and Australian populations. We found that all Polynesians belong to just three Y-chromosome haplotypes, as defined by unique event polymorphisms. The major Y haplotype in Polynesians (82% frequency) was restricted to Melanesia and eastern Indonesia and most probably arose in Melanesia. Coalescence analysis of associated Y-STR haplotypes showed evidence of a population expansion in Polynesians, beginning about 2,200 years ago. The other two Polynesian Y haplotypes were widespread in Asia but were also found in Melanesia., Conclusions: All Polynesian Y chromosomes can be traced back to Melanesia, although some of these Y-chromosome types originated in Asia. Together with other genetic and cultural evidence, we propose a new model of Polynesian origins that we call the 'slow-boat' model: Polynesian ancestors did originate from Asia/Taiwan but did not move rapidly through Melanesia; rather, they interacted with and mixed extensively with Melanesians, leaving behind their genes and incorporating many Melanesian genes before colonising the Pacific.

Published

2000

14. A new method for the evaluation of matches in non-recombining genomes: application to Y-chromosomal short tandem repeat (STR) haplotypes in European males.

Author

Roewer L, Kayser M, de Knijff P, Anslinger K, Betz A, Caglià A, Corach D, Füredi S, Henke L, Hidding M, Kärgel HJ, Lessig R, Nagy M, Pascali VL, Parson W, Rolf B, Schmitt C, Szibor R, Teifel-Greding J, and Krawczak M

Subjects

Alleles, Databases, Factual, Europe, Forensic Medicine methods, Genome, Human, Humans, Male, Regression Analysis, Genetics, Population, Haplotypes, Tandem Repeat Sequences, Y Chromosome genetics

Abstract

A 9-locus microsatellite framework (minimal haplotype), previously developed for forensic purposes so as to facilitate stain analysis, personal identification and kinship testing, has been adopted for the establishment of a large reference database of male European Y-chromosomal haplotypes. The extent of population stratification pertaining to this database, an issue crucial for its practical forensic application, was assessed through analysis of molecular variance (AMOVA) of the 20 regional samples included. Despite the notion of some significant haplotype frequency differences, which were found to correlate with known demographic and historic features of Europeans, AMOVA generally revealed a high level of genetic homogeneity among the populations analyzed. Owing to their high diversity, however, accurate frequency estimation is difficult for Y-STR haplotypes when realistic (i.e. moderately sized) datasets are being used. As expected, strong pair-wise and higher order allelic associations were found to exist between all markers studied, implying that haplotype frequencies cannot be estimated as products of allele frequencies. A new extrapolation method was therefore developed which treats haplotype frequencies as random variables and generates estimates of the underlying distribution functions on the basis of closely related haplotypes. This approach, termed frequency 'surveying', is based upon standard population genetics theory and can in principle be applied to any combination of markers located on the Y-chromosome or in the mitochondrial genome. Application of the method to the quality assured reference Y-STR haplotype database described herein will prove very useful for the evaluation of positive trace-donor matches in forensic casework.

Published

2000

15. Identification of the human Y-chromosomal microsatellite locus DYS19 from degraded DNA.

Author

Szibor R, Kayser M, and Roewer L

Subjects

Alleles, Autopsy methods, Base Sequence, Consensus Sequence, DNA chemistry, DNA metabolism, DNA Primers, Electrophoresis, Polyacrylamide Gel, Forensic Medicine methods, Genetic Markers, Humans, Male, Microsatellite Repeats, Molecular Sequence Data, Polymorphism, Genetic, Templates, Genetic, DNA genetics, Y Chromosome genetics

Abstract

STR DYS19 seems to be one of the most useful markers for population genetic, evolutionary, and forensic applications. However, the authors have noticed that the amplification of the DYS19 polymorphism fails when highly degraded DNA is used as a template. The authors designed a new pair of primers that reduce the DYS19 fragment sizes compared with those of the known protocol. Using these primers, an improved success rate can be achieved, particularly when putrefied samples are under investigation.

Published

2000

16. Characteristics and frequency of germline mutations at microsatellite loci from the human Y chromosome, as revealed by direct observation in father/son pairs.

Author

Kayser M, Roewer L, Hedman M, Henke L, Henke J, Brauer S, Krüger C, Krawczak M, Nagy M, Dobosz T, Szibor R, de Knijff P, Stoneking M, and Sajantila A

Subjects

Adolescent, Adult, Alleles, Base Sequence, Evolution, Molecular, Humans, Kinetics, Male, Meiosis genetics, Models, Genetic, Mutagenesis genetics, Paternal Age, Paternity, Recombination, Genetic genetics, Fathers, Gene Frequency genetics, Germ-Line Mutation genetics, Microsatellite Repeats genetics, Nuclear Family, Y Chromosome genetics

Abstract

A number of applications of analysis of human Y-chromosome microsatellite loci to human evolution and forensic science require reliable estimates of the mutation rate and knowledge of the mutational mechanism. We therefore screened a total of 4,999 meioses from father/son pairs with confirmed paternity (probability >/=99. 9%) at 15 Y-chromosomal microsatellite loci and identified 14 mutations. The locus-specific mutation-rate estimates were 0-8. 58x10-3, and the average mutation rate estimates were 3.17x10-3 (95% confidence interval [CI] 1.89-4.94x10-3) across 8 tetranucleotide microsatellites and 2.80x10-3 (95% CI 1.72-4.27x10-3) across all 15 Y-chromosomal microsatellites studied. Our data show a mutational bias toward length increase, on the basis of observation of more repeat gains than losses (10:4). The data are in almost complete agreement with the stepwise-mutation model, with 13 single-repeat changes and 1 double-repeat change. Sequence analysis revealed that all mutations occurred in uninterrupted homogenous arrays of >/=11 repeats. We conclude that mutation rates and characteristics of human Y-chromosomal microsatellites are consistent with those of autosomal microsatellites. This indicates that the general mutational mechanism of microsatellites is independent of recombination.

Published

2000

17. A polymorphic L1 retroposon insertion in the centromere of the human Y chromosome.

Author

Santos FR, Pandya A, Kayser M, Mitchell RJ, Liu A, Singh L, Destro-Bisol G, Novelletto A, Qamar R, Mehdi SQ, Adhikari R, de Knijff P, and Tyler-Smith C

Subjects

Base Sequence, Cosmids, Electrophoresis, Gel, Pulsed-Field, Genetic Variation, Geography, Humans, Male, Microsatellite Repeats, Molecular Sequence Data, Polymerase Chain Reaction, Restriction Mapping, Centromere genetics, Long Interspersed Nucleotide Elements, Polymorphism, Genetic, Y Chromosome genetics

Abstract

We have identified a novel polymorphic L1 retroposon insertion, designated LY1, in the centromeric alphoid array of the human Y chromosome. The element belongs to the transpositionally active Ta subset and its presence is compatible with normal centromere function. It was found at highest frequency in China, where it accounts for 23% of the Han sample, and was present at low frequencies in the surrounding areas, but was not found at all outside Asia. Chromosomes carrying LY1 show considerable microsatellite diversity, suggesting an ancient origin for the lineage at approximately 10 000 years ago (with wide confidence limits), but only limited subsequent migration.

Published

2000

18. Molecular genetic evidence for the human settlement of the Pacific: analysis of mitochondrial DNA, Y chromosome and HLA markers.

Author

Hagelberg E, Kayser M, Nagy M, Roewer L, Zimdahl H, Krawczak M, Lió P, and Schiefenhövel W

Subjects

Base Sequence, DNA Primers genetics, DNA, Mitochondrial blood, Evolution, Molecular, Female, Genetics, Population, Humans, Language, Male, Microsatellite Repeats, Molecular Biology, Pacific Islands, Phylogeny, DNA, Mitochondrial genetics, HLA Antigens genetics, Y Chromosome genetics

Abstract

Present-day Pacific islanders are thought to be the descendants of Neolithic agriculturalists who expanded from island South-east Asia several thousand years ago. They speak languages belonging to the Austronesian language family, spoken today in an area spanning half of the circumference of the world, from Madagascar to Easter Island, and from Taiwan to New Zealand. To investigate the genetic affinities of the Austronesian-speaking peoples, we analysed mitochondrial DNA, HLA and Y-chromosome polymorphisms in individuals from eight geographical locations in Asia and the Pacific (China, Taiwan, Java, New Guinea highlands, New Guinea coast, Trobriand Islands, New Britain and Western Samoa). Our results show that the demographic expansion of the Austronesians has left a genetic footprint. However, there is no simple correlation between languages and genes in the Pacific.

Published

1999

19. Phylogenetic resolution of complex mutational features at Y-STR DYS390 in aboriginal Australians and Papuans.

Author

Forster P, Kayser M, Meyer E, Roewer L, Pfeiffer H, Benkmann H, and Brinkmann B

Subjects

Alleles, Australia, Geography, Humans, Male, Mutation, New Guinea, Native Hawaiian or Other Pacific Islander genetics, Phylogeny, Repetitive Sequences, Nucleic Acid, Y Chromosome

Abstract

Y-chromosomal short tandem repeats (STRs) are used for the study of male aspects of human evolution as well as for forensic applications and paternity testing. Both applications require an understanding of the underlying mutational mechanisms that create variability. We describe complex mutations at the substructured DYS390 STR locus in 97 natives of the New Guinea/Australian region. Sequencing of short alleles in these populations indicates multirepeat deletions. All samples are further characterized using the five additional Y-STR loci DYS19, DXYS156-Y, DYS391, DYS392, and DYS393. Phylogenetic analysis of the resulting haplotypes yields ethnically specific clusters predating the settlement of Australia and Papua New Guinea (although archaic Homo sapiens or Homo erectus lineages are absent). The phylogeny confirms that DYS390 violates the stepwise mutation model and demonstrates that the DYS390 locus mutates relatively rapidly and retains its variability after structural change.

Published

1998

20. Applications of microsatellite-based Y chromosome haplotyping.

Author

Kayser M, de Knijff P, Dieltjes P, Krawczak M, Nagy M, Zerjal T, Pandya A, Tyler-Smith C, and Roewer L

Subjects

Asia, Europe, Genetics, Population, Humans, Male, Mutation, Polymerase Chain Reaction, Haplotypes, Minisatellite Repeats, Y Chromosome

Abstract

Y-chromosomal microsatellites have been investigated for the purposes of application to male identification, population genetics and population history. With nine markers, every male in a German population sample (n = 70) could be identified by an individual-specific Y microsatellite haplotype. The analysis of 474 unrelated males of nine human populations with seven markers revealed 301 different Y haplotypes. The analysis of molecular variance (AMOVA) approach was used to detect male population characteristics of Y microsatellite haplotypes. With pairwise comparisons of inter-population variance, most of the populations could be distinguished significantly. Sixty individuals from different male populations in Asia and Northern Europe carrying a novel Y-chromosomal T-->C transition show reduced microsatellite variability together with haplotype similarities. Microsatellite data suggest that the mutation occurred recently in Asia, supporting the hypothesis of Asian ancestry of some northern European populations.

Published

1997

21. Genetic relationships of Asians and Northern Europeans, revealed by Y-chromosomal DNA analysis.

Author

Zerjal T, Dashnyam B, Pandya A, Kayser M, Roewer L, Santos FR, Schiefenhövel W, Fretwell N, Jobling MA, Harihara S, Shimizu K, Semjidmaa D, Sajantila A, Salo P, Crawford MH, Ginter EK, Evgrafov OV, and Tyler-Smith C

Subjects

Animals, Asia, Base Sequence, Biological Evolution, Europe, Genetic Markers, Geography, Haplotypes, Humans, Language, Male, Microsatellite Repeats, Molecular Sequence Data, Point Mutation, Asian People genetics, Gene Frequency, Hominidae genetics, White People genetics, Y Chromosome genetics

Abstract

We have identified a new T-->C transition on the human Y chromosome. C-allele chromosomes have been found only in a subset of the populations from Asia and northern Europe and reach their highest frequencies in Yakut, Buryats, and Finns. Examination of the microsatellite haplotypes of the C-allele chromosomes suggests that the mutation occurred recently in Asia. The Y chromosome thus provides both information about population relationships in Asia and evidence for a substantial paternal genetic contribution of Asians to northern European populations such as the Finns.

Published

1997

22. Chromosome Y microsatellites: population genetic and evolutionary aspects.

Author

de Knijff P, Kayser M, Caglià A, Corach D, Fretwell N, Gehrig C, Graziosi G, Heidorn F, Herrmann S, Herzog B, Hidding M, Honda K, Jobling M, Krawczak M, Leim K, Meuser S, Meyer E, Oesterreich W, Pandya A, Parson W, Penacino G, Perez-Lezaun A, Piccinini A, Prinz M, and Roewer L

Subjects

Ethnicity genetics, Gene Frequency genetics, Haplotypes, Humans, Male, Models, Genetic, Phylogeny, Repetitive Sequences, Nucleic Acid genetics, Biological Evolution, Genetics, Population, Microsatellite Repeats genetics, Y Chromosome

Abstract

By means of a multicenter study, a large number of males have been characterized for Y-chromosome specific short tandem repeats (STRs) or microsatellites. A complete summary of the allele frequency distributions for these Y-STRs is presented in the Appendix. This manuscript describes in more detail some of the population genetic and evolutionary aspects for a restricted set of seven chromosome Y STRs in a selected number of population samples. For all the chromosome Y STRs markedly different region-specific allele frequency distributions were observed, also when closely related populations were compared. Haplotype analyses using AMOVA showed that when four different European male groups (Germans, Dutch, Swiss, Italians) were compared, less than 10% of the total genetic variability was due to differences between these populations. Nevertheless, these pairwise comparisons revealed significant differences between most population pairs. Assuming a step-wise mutation model and a mutation frequency of 0.21%, it was estimated that chromosome Y STR-based evolutionary lines of descent can be reliably inferred over a time-span of only 1950 generations (or about 49,000 years). This reduces the reliability of the inference of population affinities to a historical, rather than evolutionary time scale. This is best illustrated by the construction of a human evolutionary tree based on chromosome Y STRs in which most of the branches connect in a markedly different way compared with trees based on classical protein polymorphisms and/or mtDNA sequence variation. Thus, the chromosome Y STRs seem to be very useful in comparing closely related populations which cannot probably be separated by e.g. autosomal STRs. However, in order to be used in an evolutionary context they need to be combined with more stable Y-polymorphisms e.g. base-substitutions.

Published

1997

23. Evaluation of Y-chromosomal STRs: a multicenter study.

Author

Kayser M, Caglià A, Corach D, Fretwell N, Gehrig C, Graziosi G, Heidorn F, Herrmann S, Herzog B, Hidding M, Honda K, Jobling M, Krawczak M, Leim K, Meuser S, Meyer E, Oesterreich W, Pandya A, Parson W, Penacino G, Perez-Lezaun A, Piccinini A, Prinz M, Schmitt C, and Roewer L

Subjects

DNA Mutational Analysis, Gene Frequency genetics, Genetics, Population, Haplotypes, Humans, Male, Paternity, Rape legislation & jurisprudence, Repetitive Sequences, Nucleic Acid genetics, Y Chromosome

Abstract

A multicenter study has been carried out to characterize 13 polymorphic short tandem repeat (STR) systems located on the male specific part of the human Y chromosome (DYS19, DYS288, DYS385, DYS388, DYS389I/II, DYS390, DYS391, DYS392, DYS393, YCAI, YCAII, YCAIII, DXYS156Y). Amplification parameters and electrophoresis protocols including multiplex approaches were compiled. The typing of non-recombining Y loci with uniparental inheritance requires special attention to population substructuring due to prevalent male lineages. To assess the extent of these subheterogeneities up to 3825 unrelated males were typed in up to 48 population samples for the respective loci. A consistent repeat based nomenclature for most of the loci has been introduced. Moreover we have estimated the average mutation rate for DYS19 in 626 confirmed fatherson pairs as 3.2 x 10(-3) (95% confidence interval limits of 0.00041-0.00677), a value which can also be expected for other Y-STR loci with similar repeat structure. Recommendations are given for the forensic application of a basic set of 7 STRs (DYS19, DYS3891, DYS389II, DYS390, DYS391, DYS392, DYS393) for standard Y-haplotyping in forensic and paternity casework. We recommend further the inclusion of the highly polymorphic bilocal Y-STRs DYS385, YCAII, YCAIII for a nearly complete individualisation of almost any given unrelated male individual. Together, these results suggest that Y-STR loci are useful markers to identify males and male lineages in forensic practice.

Published

1997

24. Analysis of molecular variance (AMOVA) of Y-chromosome-specific microsatellites in two closely related human populations.

Author

Roewer L, Kayser M, Dieltjes P, Nagy M, Bakker E, Krawczak M, and de Knijff P

Subjects

DNA genetics, Gene Frequency, Genetic Testing, Germany, Haplotypes, Humans, Male, Netherlands, Polymerase Chain Reaction methods, Polymorphism, Genetic, Analysis of Variance, Microsatellite Repeats genetics, Y Chromosome genetics

Abstract

The analysis of seven Y-chromosome-specific microsatellite loci revealed a high level of polymorphism in two closely related human populations (Dutch, n = 89, and German, n = 70). Four of these loci were found to generate at least 77 different haplotypes, only 15 of which were shared by the two populations. These results demonstrate that highly informative PCR-based DNA typing of the Y chromosome is now feasible. Assuming a stepwise mutation model, a network comprising all minimum spanning evolutionary trees connecting the haplotypes was constructed. Analysis of molecular variance based upon this network indicated that the within-population heterogeneity with respect to haplotype descent was significantly smaller than the between-population heterogeneity, suggesting that males were more closely related to males from their own population as opposed to males from the other population. These findings suggest that Y-chromosomal microsatellites might be very useful not only for forensic purposes but also in association studies of multifactorial traits, allowing the characterization of the level of genetic distinctiveness of supposedly inbred or isolated populations and discrimination even between closely related populations.

Published

1996

25. Molecular Genetic Evidence for the Human Settlement of the Pacific: Analysis of Mitochondrial DNA, Y Chromosome and HLA Markers [and Discussion]

Author

Hagelberg, E., Kayser, M., Nagy, M., Roewer, L., Zimdahl, H., Krawczak, M., Lio, P., Schiefenhovel, W., Bradman, N., and Sykes, B.

Published

1999

26. DNA Commission of the International Society of Forensic Genetics (ISFG): an update of the recommendations on the use of Y-STRs in forensic analysis

Author

Gusmão, L., Butler, J. M., Carracedo, A., Gill, P., Kayser, M., Mayr, W. R., Morling, N., Prinz, M., Roewer, L., Tyler-Smith, C., and Schneider, P. M.

Published

2006

27. The Effective Mutation Rate at Y Chromosome Short Tandem Repeats, with Application to Human Population-Divergence Time

Author

Zhivotovsky, L. A., Underhill, P. A., Cinnioglu, C., Kayser, M., Morar, B., Kivisild, T., Scozzari, Rosaria, Cruciani, Fulvio, DESTRO-BISOL, Giovanni, Giovanni Destro Bisol, Spedini, G., Chambers, G. K., Herrera, R. J., Yong, K. K., Gresham, D., Tournev, I., Feldman, M. W., and Kalaydjieva, L.

Subjects

Male, Mutation rate, Human Y-chromosome DNA haplogroup, Population, Locus (genetics), Biology, Y chromosome, Haplogroup, Polynesia, White People, 03 medical and health sciences, Genetics, Humans, Genetics(clinical), microsateliltes, education, Y-SNP, Genetics (clinical), 030304 developmental biology, 0303 health sciences, education.field_of_study, Chromosomes, Human, Y, Models, Genetic, 030305 genetics & heredity, Chromosome Mapping, Genetic Variation, Articles, Tandem Repeat Sequences, Mutation, y chromosome, Microsatellite, Female, New Zealand

Abstract

We estimate an effective mutation rate at an average Y chromosome short-tandem repeat locus as 6.9×10 −4 per 25 years, with a standard deviation across loci of 5.7×10 −4 , using data on microsatellite variation within Y chromosome haplogroups defined by unique-event polymorphisms in populations with documented short-term histories, as well as comparative data on worldwide populations at both the Y chromosome and various autosomal loci. This value is used to estimate the times of the African Bantu expansion, the divergence of Polynesian populations (the Maoris, Cook Islanders, and Samoans), and the origin of Gypsy populations from Bulgaria.

Published

2004

28. Increasing phylogenetic resolution still informative for Y chromosomal studies on West-European populations.

Author

Larmuseau, M.H.D., Vanderheyden, N., Van Geystelen, A., van Oven, M., Kayser, M., and Decorte, R.

Subjects

PHYLOGENY, POPULATION genetics, Y chromosome, PHYLOGEOGRAPHY, GENEALOGY, DNA data banks

Abstract

Abstract: Many Y-chromosomal lineages which are defined in the latest phylogenetic tree of the human Y chromosome by the Y Chromosome Consortium (YCC) in 2008 are distributed in (Western) Europe due to the fact that a large number of phylogeographic studies focus on this area. Therefore, the question arises whether newly discovered polymorphisms on the Y chromosome will still be interesting to study Western Europeans on a population genetic level. To address this question, the West-European region of Flanders (Belgium) was selected as study area since more than 1000 Y chromosomes from this area have previously been genotyped at the highest resolution of the 2008 YCC-tree and coupled to in-depth genealogical data. Based on these data the temporal changes of the population genetic pattern over the last centuries within Flanders were studied and the effects of several past gene flow events were identified. In the present study a set of recently reported novel Y-SNPs were genotyped to further characterize all those Flemish Y chromosomes that belong to haplogroups G, R-M269 and T. Based on this extended Y-SNP set the discrimination power increased drastically as previous large (sub-)haplogroups are now subdivided in several non-marginal groups. Next, the previously observed population structure within Flanders appeared to be the result of different gradients of independent sub-haplogroups. Moreover, for the first time within Flanders a significant East–West gradient was observed in the frequency of two R-M269 lineages, and this gradient is still present when considering the current residence of the DNA donors. Our results thus suggest that an update of the Y-chromosomal tree based on new polymorphisms is still useful to increase the discrimination power based on Y-SNPs and to study population genetic patterns in more detail, even in an already well-studied region such as Western Europe. [Copyright &y& Elsevier]

Published

2014

29. Additional Y-STRs in Forensics: Why, Which, and When.

Author

Ballantyne, K. N. and Kayser, M.

Subjects

*FORENSIC sciences, *MICROSATELLITE repeats, *Y chromosome, *GENETIC markers, *FORENSIC genetics

Abstract

Male-specific DNA profiling using nonrecombining Y-chromosomal genetic markers is becoming ubiquitous in forensic genetics, with many laboratories and jurisdictions taking advantage of the benefits that Y chromosome short tandem repeat (Y-STR) profiling can bring. The current suite of 9 17 core Y-STRs, available as commercial kits, perform adequately for identifying male lineages in many populations, a feature highly suitable for excluding a male suspect from involvement in crimes such as sexual assaults where autosomal STR profiling is often troubled. However, there is a growing need to achieve higher resolution in paternal-lineage differentiation as adventitious matches between unrelated males are becoming increasingly common with the increasing size of Y-STR haplotype-frequency databases. Furthermore, with the currently used Y-STRs, male relatives (both close and distant) usually cannot be separated, marking a strong limitation in forensic applications as conclusions cannot be drawn on the individual level as desired. Performing Y-chromosome analysis in familial testing, which outperforms autosomal STR profiling in certain deficiency cases, with the current Y-STR sets can be troubled by mutations that complicate relationship-probability estimations. To overcome these limitations, considerable research has been performed over recent years to identify and characterize additional Y-STRs. This review summarizes the forensic performance of current sets of Y-STRs, points out their limitations in the three main areas of forensic Y-STR applications (male-lineage differentiation, male-relative differentiation, and paternity/familial testing), and discusses why and which additional Y-STRs are suitable to improve forensic Y-chromosome analysis in the future. [ABSTRACT FROM AUTHOR]

Published

2012

30. Melanesian and Asian origins of Polynesians: mtDNA and Y chromosome gradients across the Pacific

Author

Kayser, M., Brauer, S., Cordaux, R., Casto, A., Lao, O., Zhivotovsky, L. A., Moyse-Faurie, C., Rutledge, R. B., Schiefenhoevel, W., Gil, D., Lin, A. A., Underhill, P. A., Oefner, Peter J., Trent, R. J., and Stoneking, M.

Subjects

610 Medizin, 10. No inequality, 16. Peace & justice, polynesia, Y chromosome, mtDNA, genetic origins, human population history

Abstract

The human settlement of the Pacific Islands represents one of the most recent major migration events of mankind. Polynesians originated in Asia according to linguistic evidence or in Melanesia according to archaeological evidence. To shed light on the genetic origins of Polynesians, we investigated over 400 Polynesians from 8 island groups, in comparison with over 900 individuals from potential parental populations of Melanesia, Southeast and East Asia, and Australia, by means of Y chromosome (NRY) and mitochondrial DNA (mtDNA) markers. Overall, we classified 94.1% of Polynesian Y chromosomes and 99.8% of Polynesian mtDNAs as of either Melanesian (NRY-DNA: 65.8%, mtDNA: 6%) or Asian (NRY-DNA: 28.3%, mtDNA: 93.8%) origin, suggesting a dual genetic origin of Polynesians in agreement with the "Slow Boat" hypothesis. Our data suggest a pronounced admixture bias in Polynesians toward more Melanesian men than women, perhaps as a result of matrilocal residence in the ancestral Polynesian society. Although dating methods are consistent with somewhat similar entries of NRY/mtDNA haplogroups into Polynesia, haplotype sharing suggests an earlier appearance of Melanesian haplogroups than those from Asia. Surprisingly, we identified gradients in the frequency distribution of some NRY/mtDNA haplogroups across Polynesia and a gradual west-to-east decrease of overall NRY/mtDNA diversity, not only providing evidence for a west-to-east direction of Polynesian settlements but also suggesting that Pacific voyaging was regular rather than haphazard. We also demonstrate that Fiji played a pivotal role in the history of Polynesia: humans probably first migrated to Fiji, and subsequent settlement of Polynesia probably came from Fiji.