Analysis of Y-chromosome Diversity in Lingayat and Vokkaliga Populations of Southern India

Chennakrishnaiah, Shilpa

05 July 2011

Archaeological and genetic evidence have long supported the notion that the Indian subcontinent played an important role in the dispersal of modern humans out of Africa. In the present study, two Dravidian populations, namely Lingayat (N=101) and Vokkaliga (N=102) were examined using high-resolution analyses of Y-chromosome single nucleotide polymorphism (Y-SNP) and their associated seventeen short tandem repeat (STR) loci. The results revealed a prevalence of the major indigenous Indian Y-haplogroups (H, L, F* and R2), which collectively accounted for three-fourths of the Lingayat and Vokkaliga paternal gene pool. In addition, the presence of ancient lineages such as F*-M213, H*-M69 and C*-M216 suggested that modern humans reached India very early after their migration out of Africa. Finally, high haplotype diversity values at 17 Y-STR loci for Lingayat (0.9981) and Vokkaliga (0.9901) populations as well as the absence of shared haplotypes between them emphasized the importance of independent databases for forensic casework.

Lingayat

Vokkaliga

Dravidian language

Y-chromosome

Y-SNP

Y-STR

diversity

phylogenetic analyses

southern India.

Life history and reproductive fitness variation associated with the Y chromosome in Callosobruchus maculatus

Revenikioti, Maria

January 2021

In the seed beetle Callosobruchus maculatus, the female is the larger sex and the male is the smaller sex. However, males that are almost as large as females can also occur, which is due to a specific Y chromosome haplotype. This Y chromosome polymorphism is not expected since the Y chromosome does not recombine and has lost genetic variation as a consequence. Nevertheless, the Y chromosome manages to maintain this polymorphism. Thus, the questions asked are how this occurs and how the large male Y haplotype persists to exist since previous studies have shown how small males have the higher fitness. In this study, large males were from line SL3b Y and small males were from line SL1b Y. To answer the questions, two important measures of fitness were conducted, mating- and lifetime reproductive success, as well as lifetime-history traits of the SL1b Y and SL3b Y males. Males from line SL3b Y turned out to have a faster growth rate and a shorter development time compared to the SL1b Y males. Both the SL3b Y males with a shorter development time and the SL1b Y males with a longer development time had larger body sizes. Large males also showed to have heavier ejaculate weight and produced more offspring compared to the other male Y haplotype. However, neither of the males had higher pre-mating success. In conclusion, the two male Y haplotypes must coexist in nature since their traits are beneficial in different environments and circumstances.

Y chromosome

life-history traits

seed beetle Callosobruchus maculatus

reproductive fitness

Genetics

Genetik

Analysis of multi-generational father-son pairs using a YFiler Plus PCR amplification kit and a ForenSeq DNA signature prep kit

Folwick, Margo

11 November 2021

Y-chromosome testing has become more prevalent in recent years as a means of identifying forensic samples using STRs or identifying biomarkers for disease or determining geographic origins of populations. Additionally, Y-chromosome analysis is especially useful in paternity testing as the Y chromosome is inherited paternally and the male-specific region of the Y chromosome does not undergo any recombination events, allowing the genotypic data of both the father and son to be identical. Though in most cases a father-son pair will have the same Y-allelic data, random mutations like allele insertions and deletions can occur, which can interfere and result in incorrect conclusions in regards to paternity testing, forensic analysis, or genealogy. Though the exact mechanism of Y loci mutability is unknown, postulations of factors that can cause mutations have been studied, as well as attempts to determine mutation rate specific to each locus. A multi-generational pedigree consisting of 9 males was analyzed using two different methodologies: capillary electrophoresis and next-generation sequencing. The samples were amplified using either a ForenSeq™ Signature DNA Prep Kit (Verogen, San Diego, CA) or a YFiler™ Plus PCR Amplification Kit (Thermo Fisher Scientific, Waltham, MA). Between the two methods, five Y-STR loci were identified as being discordant between a father-son pair. Next-generation sequencing identified an allele insertion at DYS385a/b, resulting in a potential tri-allelic locus, but was disproved after comparison with the capillary electrophoresis data of the sample. The capillary electrophoresis data identified four discordances between father-son pairs, one of which was an allele mutation with a gain of a repeat at DYS458. At DYS 389II, an allele insertion was identified, but was contradicted after comparison with the next-generation sequencing data. There was a potential null allele at DYS518 and either an OL variant allele or a 2 base pair deletion at DYS481. Following peak height ratio, stutter, and comparative analysis between the genotypic data of the two analysis methods, two of these discordances were proven to be errors, one was a definitive mutational event, and the other two could neither be confirmed nor denied due to differences in loci tested in each kit.

Molecular biology

Capillary electrophoresis

DNA analysis

Forensic science

MiSeq FGX

Next generation sequencing

Y chromosome analysis

Population Genetics of Antarctic Seals

Curtis, Caitlin

17 July 2009

I developed and tested a protocol for determining the sex of individual pinnipeds using the sex-chromosome specific genes ZFX and ZFY. I screened a total of 368 seals (168 crabeater, Lobodon carcinophagus; 159 Weddell, Leptonychotes weddellii; and 41 Ross, Ommatophoca rossii) of known or unknown sex and compared the molecular sex to the sex assigned at the time of collection in the Ross and Amundsen seas, Antarctica. Discrepancies ranged from 0.0% - 6.7% among species. It is unclear, however, if mis-assignment of sex occurred in situ or in the laboratory. It also is possible, however, that the assigned morphological and molecular sex both are correct, owing perhaps to developmental effects of environmental pollution. I sequenced a portion (ca 475 bp) of the mitochondrial control region of Weddell seals (N = 181); crabeater seals (N = 143); and Ross seals (N = 41). I resolved 251 haplotypes with a haplotype diversity of 0.98 to 0.99. Bayesian estimates of Θ from the program LAMARC ranged from 0.075 for Weddell seals to 0.576 for crabeater seals. I used the values of theta to estimate female effective population sizes (NEF), which were 40,700 to 63,000 for Weddell seals, 44,400 to 97,800 for Ross seals, and 358,500 to 531,900 for crabeater seals. Weddell seals and crabeater seals had significant, unimodal mean pairwise difference mismatch distributions (p = 0.56 and 0.36, respectively), suggesting that their populations expanded suddenly around 731,000 years ago (Weddell seals) and around 1.6 million years ago (crabeater seals). Both of these expansions occurred during times of intensified glaciations and may have been fostered by expanding pack ice habitat. Autosomal microsatellite based NEs were 147,850 for L. Weddellii, 344,950 for O. rossii, and 939,600 for L. carcinophagus. I screened one X-linked microsatellite (Lw18), which yielded a larger NE estimate for O. rossii than the other two species. Microsatellite NE estimates are compared with previously published mitochondrial NE estimates and this comparison indicates that the Ross seal may have a serially monogamous system of mating. I find no sign of a recent, sustained genetic bottleneck in any of the three species.

ZFX

ZFY

Leptonychotes weddellii

mitochondrial DNA

microsatellites

Y chromosome

American Studies

Arts and Humanities

Analysis of unusual mutation patterns within father-son pairs using a ForenSeq DNA Signature Prep Kit and a YFiler Plus PCR Amplification Kit

McDermott, Tyler L.

10 October 2019

The application of Y-chromosome analysis is expanding in fields such as forensic science and genealogy. By researching the potential polymorphisms this chromosome can present, we can further our ability to assess DNA profiles for these disciplines to avoid erroneous exclusions of paternal linkage, wrongful convictions based on forensic evidence, and other misinformed genetic conclusions. The conservation of Y-haplotypes during transmission occurs due to a relative lack of genetic recombination events in the inheritance of the Y-chromosome [1]. However, random mutation events can occur in a paternal line resulting in haplotype changes. These changes can include allele duplications and deletions that occur at the STR and SNP loci used in forensic DNA analysis. This can become important in cases of sexual assault where male-female mixture samples have low amounts of male DNA such that the male signal is not amplified in currently used STR multiplexes [7]. In this study, we analyzed a father and his eleven sons using two different methodologies for genetic analysis; next generation sequencing and capillary electrophoresis. The samples were obtained from the Coriell Institute for Medical Research located in Hamden, NJ, in the form of frozen DNA extracts isolated from a blood-sourced lymphocyte cell culture [22]. DNA from these samples was tested with the ForenSeqTM DNA Signature Prep Kit [14] (Verogen, San Diego, CA) primer set A and the YFilerTM Plus PCR Amplification Kit [24] (Thermo Fisher Scientific, Waltham, MA). Using these two platforms, three Y-STR loci were identified as discordant between the father and all of his eleven sons. In all three instances, the father possessed the same allele as the sons as well as one additional allele. At two of these loci (DYS449 and DYS635), the additional allele was one repeat (4bp) longer than that of the shared allele. At the other locus (DYS458), the additional allele was three repeats (12bp) longer than that of the shared allele. Following read count and peak height analysis, it was concluded that these double allele loci are not the product of stutter and are potentially the product of a non-inheritable mutation. With the knowledge that the DNA was extracted from a blood lymphocyte cell culture, it is believed that a somatic mutation may be present in the cell line. We are not able to determine whether the mutations exist in the blood of the father (true somatic mutations) or occurred as a result of the cell culture process. Throughout the study, details concerning the position of these loci on the Y-chromosome, the repeat motifs of the alleles, and the potential for duplication and/or stutter as the originating event are discussed in an effort to further understand this phenomenon. Potential locus duplications were compared to those reported on the National Institute of Standards and Technology STRBase [21] list of allele variations and also to information found in literature. The observed DYS635 locus had an allele designation of 21,22 which is reported on STRBase. The DYS449 and DYS458 loci showed potential allele-specific locus duplications that were not found on STRBase. The implications of potentially undocumented non-inheritable allele patterns in the Y-chromosome, such as this, are significant when considering comparisons between DNA obtained from germline cells (sperm) versus a known casework sample which is usually obtained from blood or saliva [7].

Molecular biology

Locus duplication

Mutation

Next generation sequencing

Paternity

Y-chromosome

Y-STR

Sex Chromosome-Wide Association Analysis Suggested Male-Specific Risk Genes for Alcohol Dependence

Zuo, Lingjun, Wang, Kesheng, Zhang, Xiangyang, Pan, Xinghua, Wang, Guilin, Krystal, John H., Zhang, Heping, Luo, Xingguang

01 December 2013

BACKGROUND: Alcohol dependence is more common among men than among women. Potential explanations for this include the role of genes in sex chromosomes (X and Y). In the present study, we scanned the entire Y chromosome and its homologs on the X chromosome in men to identify male-specific risk genes for alcohol dependence. METHODS: Two thousand nine hundred and twenty-seven individuals in two independent cohorts were analyzed. The European-American male cohort (883 cases with alcohol dependence and 445 controls) served as the discovery cohort and the European-American female cohort (526 cases and 1073 controls) served as a contrast group. All individuals were genotyped on the Illumina Human 1M beadchip. Two thousand two hundred and twenty-four single nucleotide polymorphisms (SNPs) on the Y chromosome or in the homologs on the X chromosome were analyzed. The allele frequencies were compared between cases and controls within each cohort using logistic regression analysis. RESULTS: We found that, after experiment-wide correction, two SNPs on the X chromosome were associated significantly with alcohol dependence in European-American men (P=1.0×10 for rs5916144 and P=5.5×10 for rs5961794 at 3′ UTR of NLGN4X), but not in the women. A total of 26 SNPs at 3′UTR of or within NLGN4X were nominally associated with alcohol dependence in men (5.5×10≤P≤0.05), all of which were not statistically significant in women. CONCLUSION: We conclude that NLGN4X was a significant male-specific risk gene for alcohol dependence in European-Americans. NLGN4X might harbor a causal variant(s) for alcohol dependence. A defect of synaptogenesis in neuronal circuitry caused by NLGN4X mutations is believed to play a role in alcohol dependence.

alcohol dependence

homolog

male specificity

NLGN4X

synaptogenesis

Y chromosome

Biostatistics and Epidemiology

Skeletal Muscle Stem Cells

Kao, Grace W., Lamb, Elizabeth K., Kao, Race L.

18 July 2013

Skeletal muscle satellite cells (myoblasts) are the primary stem cells of skeletal muscle which contribute to growth, maintenance, and repair of the muscles. Satellite cells are the first stem cells used for cellular cardiomyoplasty more than 20 years ago. The isolation, culture, labeling, and identification of satellite cells are described in detail here. The implantation and outcomes of cellular cardiomyoplasty using satellite cells have been summarized in the previous chapter (Chapter 1).

cell culture

cell isolation

cell transfection

GFP

satellite cell

skeletal muscle

stem cell

Y chromosome FISH

Sex Chromosome-Wide Association Analysis Suggested Male-Specific Risk Genes for Alcohol Dependence

Zuo, Lingjun, Wang, Kesheng, Zhang, Xiangyang, Pan, Xinghua, Wang, Guilin, Krystal, John H., Zhang, Heping, Luo, Xingguang

01 December 2013

BACKGROUND: Alcohol dependence is more common among men than among women. Potential explanations for this include the role of genes in sex chromosomes (X and Y). In the present study, we scanned the entire Y chromosome and its homologs on the X chromosome in men to identify male-specific risk genes for alcohol dependence. METHODS: Two thousand nine hundred and twenty-seven individuals in two independent cohorts were analyzed. The European-American male cohort (883 cases with alcohol dependence and 445 controls) served as the discovery cohort and the European-American female cohort (526 cases and 1073 controls) served as a contrast group. All individuals were genotyped on the Illumina Human 1M beadchip. Two thousand two hundred and twenty-four single nucleotide polymorphisms (SNPs) on the Y chromosome or in the homologs on the X chromosome were analyzed. The allele frequencies were compared between cases and controls within each cohort using logistic regression analysis. RESULTS: We found that, after experiment-wide correction, two SNPs on the X chromosome were associated significantly with alcohol dependence in European-American men (P=1.0×10 for rs5916144 and P=5.5×10 for rs5961794 at 3′ UTR of NLGN4X), but not in the women. A total of 26 SNPs at 3′UTR of or within NLGN4X were nominally associated with alcohol dependence in men (5.5×10≤P≤0.05), all of which were not statistically significant in women. CONCLUSION: We conclude that NLGN4X was a significant male-specific risk gene for alcohol dependence in European-Americans. NLGN4X might harbor a causal variant(s) for alcohol dependence. A defect of synaptogenesis in neuronal circuitry caused by NLGN4X mutations is believed to play a role in alcohol dependence.

alcohol dependence

homolog

male specificity

NLGN4X

synaptogenesis

Y chromosome

Biostatistics and Epidemiology

Skeletal Muscle Stem Cells

Kao, Grace W., Lamb, Elizabeth K., Kao, Race L.

18 July 2013

Skeletal muscle satellite cells (myoblasts) are the primary stem cells of skeletal muscle which contribute to growth, maintenance, and repair of the muscles. Satellite cells are the first stem cells used for cellular cardiomyoplasty more than 20 years ago. The isolation, culture, labeling, and identification of satellite cells are described in detail here. The implantation and outcomes of cellular cardiomyoplasty using satellite cells have been summarized in the previous chapter (Chapter 1).

cell culture

cell isolation

cell transfection

GFP

satellite cell

skeletal muscle

stem cell

Y chromosome FISH

A Population Genetic Study of Middle Eastern Populations Using DYS 458 Microvariants and Cohen Modal Haplotypes

Tinah, Enass Nabeel

05 December 2008

A comprehensive population study in the Middle East was conducted using different genetic markers in order to establish a wider genetic profile of the Middle Eastern populations. The main goal of this study was to analyze DNA from samples collected from different locations, and produce genetic motifs and patterns that could be used to identify and distinguish the target populations. This information will allow us to analyze the ancestry of these populations, their interactions through time and space, and the effects these interactions have on the populations' structure. We have collected around 1300 individual samples from different populations in the Middle East ranging from Oman in southern Arabia, to the West Bank and Gaza in Palestine. Our samples can be divided into two primary groups: 320 samples come from Oman; this region is important because of its geographical proximity to Yemen which is perceived as the historical area where the Arabs originated and 800 samples came from Palestine, a central region in the Middle East that connects Asia and Africa and was a passageway between the two continents through history. The samples collected from Oman have genealogy charts that were provided by the participants, while the samples from Gaza lack the genealogy charts. DNA was extracted from the samples, amplified using PCR technology, sequenced and genotyped using non-recombining genetic markers. Short Tandem Repeats(STR) were screened in the samples.A specific STR marker, DYS458, exhibited an alternative allele at repeat number 18 which was a 2 base pair shift identified as microvariant 18.2. The samples showed an unusually high frequency of microvariant 18.2.When microvariant 18.2 haplotype was combined with Modal Cohen Haplotype (MCH) motifs, we were able to infer some genetic characteristics about our samples. The Cohen Modal haplotype was used in combination with the results of the 18.2 DYS458 analyses to construct a snapshot of the Middle East, using NETWORK software to analyze the relationship within and between the samples from Oman, which is located in Southern Arabia, and the areas North of Arabia (Jordan, Syria, and Palestine), which is also known as the Levant.

Middle East

Y chromosome

population genetics

DYS458

microvariants

Cohen modal haplotype

Microbiology