Your search keyword '"Low-frequency variants"' showing total 92 results

1. Circulating anti-Müllerian hormone levels in pre-menopausal women: novel genetic insights from a genome-wide association meta-analysis.

Author

Pujol-Gualdo, Natàlia, Karjalainen, Minna K, Võsa, Urmo, Arffman, Riikka K, Mägi, Reedik, Ronkainen, Justiina, Laisk, Triin, and Piltonen, Terhi T

Subjects

*ANTI-Mullerian hormone, *OVARIAN reserve, *GENETIC correlations, *GENOME-wide association studies, *GENETIC variation, *REGIONAL development, *OVARIAN follicle

Abstract

STUDY QUESTION Can a genome-wide association study (GWAS) meta-analysis, including a large sample of young premenopausal women from a founder population from Northern Finland, identify novel genetic variants for circulating anti-Müllerian hormone (AMH) levels and provide insights into single-nucleotide polymorphism enrichment in different biological pathways and tissues involved in AMH regulation? SUMMARY ANSWER The meta-analysis identified a total of six loci associated with AMH levels at P  <   5 × 10−8, three of which were novel in or near CHEK2 , BMP4 , and EIF4EBP1 , as well as highlighted significant enrichment in renal system vasculature morphogenesis, and the pituitary gland as the top associated tissue in tissue enrichment analysis. WHAT IS KNOWN ALREADY AMH is expressed by preantral and small antral stage ovarian follicles in women, and variation in age-specific circulating AMH levels has been associated with several health conditions. However, the biological mechanisms underlying the association between health conditions and AMH levels are not yet fully understood. Previous GWAS have identified loci associated with AMH levels in pre-menopausal women, in or near MCM8 , AMH , TEX41 , and CDCA7. STUDY DESIGN, SIZE, DURATION We performed a GWAS meta-analysis for circulating AMH level measurements in 9668 pre-menopausal women. PARTICIPANTS/MATERIALS, SETTING, METHODS We performed a GWAS meta-analysis in which we combined 2619 AMH measurements (at age 31 years) from a prospective founder population cohort (Northern Finland Birth Cohort 1966, NFBC1966) with a previous GWAS meta-analysis that included 7049 pre-menopausal women (age range 15–48 years) (N = 9668). NFBC1966 AMH measurements were quantified using an automated assay. We annotated the genetic variants, combined different data layers to prioritize potential candidate genes, described significant pathways and tissues enriched by the GWAS signals, identified plausible regulatory roles using colocalization analysis, and leveraged publicly available summary statistics to assess genetic and phenotypic correlations with multiple traits. MAIN RESULTS AND THE ROLE OF CHANCE Three novel genome-wide significant loci were identified. One of these is in complete linkage disequilibrium with c.1100delC in CHEK2 , which is found to be 4-fold enriched in the Finnish population compared to other European populations. We propose a plausible regulatory effect of some of the GWAS variants linked to AMH, as they colocalize with GWAS signals associated with gene expression levels of BMP4 , TEX41 , and EIFBP41. Gene set analysis highlighted significant enrichment in renal system vasculature morphogenesis, and tissue enrichment analysis ranked the pituitary gland as the top association. LARGE SCALE DATA The GWAS meta-analysis summary statistics are available for download from the GWAS Catalogue with accession number GCST90428625. LIMITATIONS, REASONS FOR CAUTION This study only included women of European ancestry and the lack of sufficiently sized relevant tissue data in gene expression datasets hinders the assessment of potential regulatory effects in reproductive tissues. WIDER IMPLICATIONS OF THE FINDINGS Our results highlight the increased power of founder populations and larger sample sizes to boost the discovery of novel trait-associated variants underlying variation in AMH levels, which aided the characterization of GWAS signals enrichment in different biological pathways and plausible genetic regulatory effects linked with AMH level variation for the first time. STUDY FUNDING/COMPETING INTEREST(S) This work has received funding from the European Union's Horizon 2020 Research and Innovation Programme under the MATER Marie Sklodowska-Curie Grant Agreement No. 813707 and Oulu University Scholarship Foundation and Paulon Säätiö Foundation. (N.P.-G.), Academy of Finland, Sigrid Jusélius Foundation, Novo Nordisk, University of Oulu, Roche Diagnostics (T.T.P.). This work was supported by the Estonian Research Council Grant 1911 (R.M.). J.R. was supported by the European Union's Horizon 2020 Research and Innovation Program under Grant Agreements No. 874739 (LongITools), 824989 (EUCAN-Connect), 848158 (EarlyCause), and 733206 (LifeCycle). U.V. was supported by the Estonian Research Council grant PRG (PRG1291). The NFBC1966 received financial support from University of Oulu Grant No. 24000692, Oulu University Hospital Grant No. 24301140, and ERDF European Regional Development Fund Grant No. 539/2010 A31592. T.T.P. has received grants from Roche, Perkin Elmer, and honoraria for scientific presentations from Gedeon Richter, Exeltis, Astellas, Roche, Stragen, Astra Zeneca, Merck, MSD, Ferring, Duodecim, and Ajaton Terveys. For all other authors, there are no competing interests. [ABSTRACT FROM AUTHOR]

Published

2024

2. Detection of rare variants among nuclei populating the arbuscular mycorrhizal fungal model species Rhizophagus irregularis DAOM197198.

Author

Manyara, David, Sánchez-García, Marisol, Montoliu-Nerin, Merce, and Rosling, Anna

Subjects

*SINGLE nucleotide polymorphisms, *VESICULAR-arbuscular mycorrhizas, *WHOLE genome sequencing, *GENETIC variation, *GENE frequency, *FUNGAL metabolites, *FUNGAL spores

Abstract

Identifying genuine polymorphic variants is a significant challenge in sequence data analysis, although detecting low-frequency variants in sequence data is essential for estimating demographic parameters and investigating genetic processes, such as selection, within populations. Arbuscular mycorrhizal (AM) fungi are multinucleate organisms, in which individual nuclei collectively operate as a population, and the extent of genetic variation across nuclei has long been an area of scientific interest. In this study, we investigated the patterns of polymorphism discovery and the alternate allele frequency distribution by comparing polymorphism discovery in 2 distinct genomic sequence datasets of the AM fungus model species, Rhizophagus irregularis strain DAOM197198. The 2 datasets used in this study are publicly available and were generated either from pooled spores and hyphae or amplified single nuclei from a single spore. We also estimated the intraorganismal variation within the DAOM197198 strain. Our results showed that the 2 datasets exhibited different frequency patterns for discovered variants. The whole-organism dataset showed a distribution spanning low-, intermediate-, and high-frequency variants, whereas the single-nucleus dataset predominantly featured low-frequency variants with smaller proportions in intermediate and high frequencies. Furthermore, single nucleotide polymorphism density estimates within both the whole organism and individual nuclei confirmed the low intraorganismal variation of the DAOM197198 strain and that most variants are rare. Our study highlights the methodological challenges associated with detecting low-frequency variants in AM fungal whole-genome sequence data and demonstrates that alternate alleles can be reliably identified in single nuclei of AM fungi. [ABSTRACT FROM AUTHOR]

Published

2024

3. Diallel panel reveals a significant impact of low-frequency genetic variants on gene expression variation in yeast.

Author

Tsouris, Andreas, Brach, Gauthier, Friedrich, Anne, Hou, Jing, and Schacherer, Joseph

Subjects

*GENETIC variation, *GENE expression, *SINGLE nucleotide polymorphisms, *GENOME-wide association studies, *YEAST, *SACCHAROMYCES

Abstract

Unraveling the genetic sources of gene expression variation is essential to better understand the origins of phenotypic diversity in natural populations. Genome-wide association studies identified thousands of variants involved in gene expression variation, however, variants detected only explain part of the heritability. In fact, variants such as low-frequency and structural variants (SVs) are poorly captured in association studies. To assess the impact of these variants on gene expression variation, we explored a half-diallel panel composed of 323 hybrids originated from pairwise crosses of 26 natural Saccharomyces cerevisiae isolates. Using short- and long-read sequencing strategies, we established an exhaustive catalog of single nucleotide polymorphisms (SNPs) and SVs for this panel. Combining this dataset with the transcriptomes of all hybrids, we comprehensively mapped SNPs and SVs associated with gene expression variation. While SVs impact gene expression variation, SNPs exhibit a higher effect size with an overrepresentation of low-frequency variants compared to common ones. These results reinforce the importance of dissecting the heritability of complex traits with a comprehensive catalog of genetic variants at the population level. Synopsis: A diallel hybrid panel from diverse parental natural yeast isolates is used to investigate the effects of low- frequency single nucleotide polymorphisms (SNPs) and structural variants (SVs) on gene expression variation in a population. The impact of low-frequency and structural variants is assessed using a diallel panel. Diallel SVs are fully cataloged using long-read sequencing and combined parental types. SVs contribute less than SNPs to expression variation and exhibit lower effect size. Low-frequency variants are overrepresented in associations compared to common ones. A diallel hybrid panel from diverse parental natural yeast isolates is used to investigate the effects of low- frequency single nucleotide polymorphisms (SNPs) and structural variants (SVs) on gene expression variation in a population. [ABSTRACT FROM AUTHOR]

Published

2024

4. Diallel panel reveals a significant impact of low-frequency genetic variants on gene expression variation in yeast

Author

Andreas Tsouris, Gauthier Brach, Anne Friedrich, Jing Hou, and Joseph Schacherer

Subjects

eQTL, Diallel, Low-frequency Variants, Structural Variants, Yeast, Biology (General), QH301-705.5, Medicine (General), R5-920

Abstract

Abstract Unraveling the genetic sources of gene expression variation is essential to better understand the origins of phenotypic diversity in natural populations. Genome-wide association studies identified thousands of variants involved in gene expression variation, however, variants detected only explain part of the heritability. In fact, variants such as low-frequency and structural variants (SVs) are poorly captured in association studies. To assess the impact of these variants on gene expression variation, we explored a half-diallel panel composed of 323 hybrids originated from pairwise crosses of 26 natural Saccharomyces cerevisiae isolates. Using short- and long-read sequencing strategies, we established an exhaustive catalog of single nucleotide polymorphisms (SNPs) and SVs for this panel. Combining this dataset with the transcriptomes of all hybrids, we comprehensively mapped SNPs and SVs associated with gene expression variation. While SVs impact gene expression variation, SNPs exhibit a higher effect size with an overrepresentation of low-frequency variants compared to common ones. These results reinforce the importance of dissecting the heritability of complex traits with a comprehensive catalog of genetic variants at the population level.

Published

2024

5. HIV-1 Low-Frequency Variants Identified in Antiretroviral-Naïve Subjects with Virologic Failure after 12 Months of Follow-Up in Panama

Author

Ambar Moreno, Claudia González, Jessica Góndola, Oris Chavarría, Alma Ortiz, Jorge Castillo, Juan Castillo Mewa, Juan Miguel Pascale, and Alexander Augusto Martínez

Subjects

HIV-1, low-frequency variants, virologic failure, next-generation sequencing, drug resistance, Panama, Other systems of medicine, RZ201-999

Abstract

Low-frequency mutations associated with drug resistance have been related to virologic failure in subjects with no history of pre-treatment and recent HIV diagnosis. In total, 78 antiretroviral treatment (ART)-naïve subjects with a recent HIV diagnosis were selected and followed by CD4+ T lymphocytes and viral load tests to detect virologic failure. We sequenced the basal samples retrospectively using next-generation sequencing (NGS), looking for low-frequency mutations that had not been detected before using the Sanger sequencing method (SSM) and describing the response to ART. Twenty-two subjects developed virologic failure (VF), and thirteen of them had at least one drug-resistance mutation associated with Reverse Transcriptase Inhibitors (RTI) and Protease Inhibitors (PIs) at frequency levels ≤ 1%, not detected previously in their basal genotyping test. No resistance mutations were observed to Integrase Strand Transfer Inhibitors (INSTIs). We identified a possible cause of VF in ART-naïve subjects with low-frequency mutations detected. To our knowledge, this is the first evaluation of pre-existing drug resistance for HIV-1 minority variants carried out on ART-naïve people living with HIV/AIDS (PLWHA) by analyzing the HIV-1 pol gene using NGS in the country.

Published

2023

6. Whole-Exome Sequencing in a Family with an Unexplained Tendency for Venous Thromboembolism: Multicomponent Prediction of Low-Frequency Variant Deleteriousness and of Individual Protein Interaction.

Author

Lunghi, Barbara, Ziliotto, Nicole, Balestra, Dario, Rossi, Lucrezia, Della Valle, Patrizia, Pignatelli, Pasquale, Pinotti, Mirko, D'Angelo, Armando, Marchetti, Giovanna, and Bernardi, Francesco

Subjects

*THROMBOEMBOLISM, *MISSENSE mutation, *DISEASE susceptibility, *GENETIC variation, *C-reactive protein, *PROTEIN-protein interactions

Abstract

Whole-exome sequencing (WES) in families with an unexplained tendency for venous thromboembolism (VTE) may favor detection of low-frequency variants in genes with known contribution to hemostasis or associated with VTE-related phenotypes. WES analysis in six family members, three of whom affected by documented VTE, filtered for MAF < 0.04 in 192 candidate genes, revealed 22 heterozygous (16 missense and six synonymous) variants in patients. Functional prediction by multi-component bioinformatics tools, implemented by a database/literature search, including ClinVar annotation and QTL analysis, prioritized 12 missense variants, three of which (CRP Leu61Pro, F2 Asn514Lys and NQO1 Arg139Trp) were present in all patients, and the frequent functional variants FGB Arg478Lys and IL1A Ala114Ser. Combinations of prioritized variants in each patient were used to infer functional protein interactions. Different interaction patterns, supported by high-quality evidence, included eight proteins intertwined in the "acute phase" (CRP, F2, SERPINA1 and IL1A) and/or in the "fibrinogen complex" (CRP, F2, PLAT, THBS1, VWF and FGB) significantly enriched terms. In a wide group of candidate genes, this approach highlighted six low-frequency variants (CRP Leu61Pro, F2 Asn514Lys, SERPINA1 Arg63Cys, THBS1 Asp901Glu, VWF Arg1399His and PLAT Arg164Trp), five of which were top ranked for predicted deleteriousness, which in different combinations may contribute to disease susceptibility in members of this family. [ABSTRACT FROM AUTHOR]

Published

2023

7. HIV-1 Low-Frequency Variants Identified in Antiretroviral-Naïve Subjects with Virologic Failure after 12 Months of Follow-Up in Panama.

Author

Moreno, Ambar, González, Claudia, Góndola, Jessica, Chavarría, Oris, Ortiz, Alma, Castillo, Jorge, Castillo Mewa, Juan, Pascale, Juan Miguel, and Martínez, Alexander Augusto

Subjects

*HIV, *REVERSE transcriptase inhibitors, *VIRAL load, *T cells

Abstract

Low-frequency mutations associated with drug resistance have been related to virologic failure in subjects with no history of pre-treatment and recent HIV diagnosis. In total, 78 antiretroviral treatment (ART)-naïve subjects with a recent HIV diagnosis were selected and followed by CD4+ T lymphocytes and viral load tests to detect virologic failure. We sequenced the basal samples retrospectively using next-generation sequencing (NGS), looking for low-frequency mutations that had not been detected before using the Sanger sequencing method (SSM) and describing the response to ART. Twenty-two subjects developed virologic failure (VF), and thirteen of them had at least one drug-resistance mutation associated with Reverse Transcriptase Inhibitors (RTI) and Protease Inhibitors (PIs) at frequency levels ≤ 1%, not detected previously in their basal genotyping test. No resistance mutations were observed to Integrase Strand Transfer Inhibitors (INSTIs). We identified a possible cause of VF in ART-naïve subjects with low-frequency mutations detected. To our knowledge, this is the first evaluation of pre-existing drug resistance for HIV-1 minority variants carried out on ART-naïve people living with HIV/AIDS (PLWHA) by analyzing the HIV-1 pol gene using NGS in the country. [ABSTRACT FROM AUTHOR]

Published

2023

8. Somatic and Germline Variant Calling from Next-Generation Sequencing Data

Author

Chang, Ti-Cheng, Xu, Ke, Cheng, Zhongshan, Wu, Gang, Crusio, Wim E., Series Editor, Dong, Haidong, Series Editor, Radeke, Heinfried H., Series Editor, Rezaei, Nima, Series Editor, Steinlein, Ortrud, Series Editor, Xiao, Junjie, Series Editor, and Laganà, Alessandro, editor

Published

2022

9. Whole-Exome Sequencing in a Family with an Unexplained Tendency for Venous Thromboembolism: Multicomponent Prediction of Low-Frequency Variant Deleteriousness and of Individual Protein Interaction

Author

Barbara Lunghi, Nicole Ziliotto, Dario Balestra, Lucrezia Rossi, Patrizia Della Valle, Pasquale Pignatelli, Mirko Pinotti, Armando D’Angelo, Giovanna Marchetti, and Francesco Bernardi

Subjects

venous thromboembolism, WES analysis, family studies, low-frequency variants, protein interaction pattern, CRP, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Whole-exome sequencing (WES) in families with an unexplained tendency for venous thromboembolism (VTE) may favor detection of low-frequency variants in genes with known contribution to hemostasis or associated with VTE-related phenotypes. WES analysis in six family members, three of whom affected by documented VTE, filtered for MAF < 0.04 in 192 candidate genes, revealed 22 heterozygous (16 missense and six synonymous) variants in patients. Functional prediction by multi-component bioinformatics tools, implemented by a database/literature search, including ClinVar annotation and QTL analysis, prioritized 12 missense variants, three of which (CRP Leu61Pro, F2 Asn514Lys and NQO1 Arg139Trp) were present in all patients, and the frequent functional variants FGB Arg478Lys and IL1A Ala114Ser. Combinations of prioritized variants in each patient were used to infer functional protein interactions. Different interaction patterns, supported by high-quality evidence, included eight proteins intertwined in the “acute phase” (CRP, F2, SERPINA1 and IL1A) and/or in the “fibrinogen complex” (CRP, F2, PLAT, THBS1, VWF and FGB) significantly enriched terms. In a wide group of candidate genes, this approach highlighted six low-frequency variants (CRP Leu61Pro, F2 Asn514Lys, SERPINA1 Arg63Cys, THBS1 Asp901Glu, VWF Arg1399His and PLAT Arg164Trp), five of which were top ranked for predicted deleteriousness, which in different combinations may contribute to disease susceptibility in members of this family.

Published

2023

10. Homozygosity Haplotype and Whole-Exome Sequencing Analysis to Identify Potentially Functional Rare Variants Involved in Multiple Sclerosis among Sardinian Families

Author

Teresa Fazia, Daria Marzanati, Anna Laura Carotenuto, Ashley Beecham, Athena Hadjixenofontos, Jacob L. McCauley, Valeria Saddi, Marialuisa Piras, Luisa Bernardinelli, and Davide Gentilini

Subjects

multiplex families, Sardinian population, WES data, rare variants, low-frequency variants, Homozygosity Haplotype analysis, Biology (General), QH301-705.5

Abstract

Multiple Sclerosis (MS) is a complex multifactorial autoimmune disease, whose sex- and age-adjusted prevalence in Sardinia (Italy) is among the highest worldwide. To date, 233 loci were associated with MS and almost 20% of risk heritability is attributable to common genetic variants, but many low-frequency and rare variants remain to be discovered. Here, we aimed to contribute to the understanding of the genetic basis of MS by investigating potentially functional rare variants. To this end, we analyzed thirteen multiplex Sardinian families with Immunochip genotyping data. For five families, Whole Exome Sequencing (WES) data were also available. Firstly, we performed a non-parametric Homozygosity Haplotype analysis for identifying the Region from Common Ancestor (RCA). Then, on these potential disease-linked RCA, we searched for the presence of rare variants shared by the affected individuals by analyzing WES data. We found: (i) a variant (43181034 T > G) in the splicing region on exon 27 of CUL9; (ii) a variant (50245517 A > C) in the splicing region on exon 16 of ATP9A; (iii) a non-synonymous variant (43223539 A > C), on exon 9 of TTBK1; (iv) a non-synonymous variant (42976917 A > C) on exon 9 of PPP2R5D; and v) a variant (109859349-109859354) in 3′UTR of MYO16.

Published

2021

11. An Empirical Comparison of Joint and Stratified Frameworks for Studying G × E Interactions: Systolic Blood Pressure and Smoking in the CHARGE Gene‐Lifestyle Interactions Working Group

Author

Sung, Yun Ju, Winkler, Thomas W, Manning, Alisa K, Aschard, Hugues, Gudnason, Vilmundur, Harris, Tamara B, Smith, Albert V, Boerwinkle, Eric, Brown, Michael R, Morrison, Alanna C, Fornage, Myriam, Lin, Li-An, Richard, Melissa, Bartz, Traci M, Psaty, Bruce M, Hayward, Caroline, Polasek, Ozren, Marten, Jonathan, Rudan, Igor, Feitosa, Mary F, Kraja, Aldi T, Province, Michael A, Deng, Xuan, Fisher, Virginia A, Zhou, Yanhua, Bielak, Lawrence F, Smith, Jennifer, Huffman, Jennifer E, Padmanabhan, Sandosh, Smith, Blair H, Ding, Jingzhong, Liu, Yongmei, Lohman, Kurt, Bouchard, Claude, Rankinen, Tuomo, Rice, Treva K, Arnett, Donna, Schwander, Karen, Guo, Xiuqing, Palmas, Walter, Rotter, Jerome I, Alfred, Tamuno, Bottinger, Erwin P, Loos, Ruth JF, Amin, Najaf, Franco, Oscar H, van Duijn, Cornelia M, Vojinovic, Dina, Chasman, Daniel I, Ridker, Paul M, Rose, Lynda M, Kardia, Sharon, Zhu, Xiaofeng, Rice, Kenneth, Borecki, Ingrid B, Rao, Dabeeru C, Gauderman, W James, and Cupples, L Adrienne

Subjects

Epidemiology, Biological Sciences, Health Sciences, Genetics, Clinical Research, Human Genome, Blood Pressure, Cohort Studies, Databases, Factual, Family, Gene Frequency, Gene-Environment Interaction, Genome-Wide Association Study, Genotype, Humans, Phenotype, Smoking, gene-environment interaction, meta-analysis, low-frequency variants, Public Health and Health Services

Abstract

Studying gene-environment (G × E) interactions is important, as they extend our knowledge of the genetic architecture of complex traits and may help to identify novel variants not detected via analysis of main effects alone. The main statistical framework for studying G × E interactions uses a single regression model that includes both the genetic main and G × E interaction effects (the "joint" framework). The alternative "stratified" framework combines results from genetic main-effect analyses carried out separately within the exposed and unexposed groups. Although there have been several investigations using theory and simulation, an empirical comparison of the two frameworks is lacking. Here, we compare the two frameworks using results from genome-wide association studies of systolic blood pressure for 3.2 million low frequency and 6.5 million common variants across 20 cohorts of European ancestry, comprising 79,731 individuals. Our cohorts have sample sizes ranging from 456 to 22,983 and include both family-based and population-based samples. In cohort-specific analyses, the two frameworks provided similar inference for population-based cohorts. The agreement was reduced for family-based cohorts. In meta-analyses, agreement between the two frameworks was less than that observed in cohort-specific analyses, despite the increased sample size. In meta-analyses, agreement depended on (1) the minor allele frequency, (2) inclusion of family-based cohorts in meta-analysis, and (3) filtering scheme. The stratified framework appears to approximate the joint framework well only for common variants in population-based cohorts. We conclude that the joint framework is the preferred approach and should be used to control false positives when dealing with low-frequency variants and/or family-based cohorts.

Published

2016

12. 潜在类别模型在 ARIDIA 基因低频变异 与原发性肝癌遗传关联中的应用.

Author

皮路程, 林欣琪, 刘晴, 刘桂炎, 刘丽, and 郜艳晖

Abstract

Objective To analyze the association between low-frequency variants of ARIDIA gene and primary liver cancer using latent category model. Methods The low-frequency variants of ARIDIA gene was combined according to different functional areas, and the combined variables were analyzed by using the latest class model to obtain the latent variables. Then the logistic regression was used to analyze the association between low-frequency variants of ARIDIA gene and primary liver cancer. Results The low frequency variants of AIDIA gene were divided into three categories by the latent class model. The class I mainly unmutated population, the proportion was 94.29 (2 454/2 603). The class 2 was mainly transcriptional regulatory domain mutation, take 4.8% (124/2 603). The class 3 was dominantly eson mutation, about 1.0% (27/2 603), Using class I as a reference, it was found that mutations in the transcriptional regulatory domain could reduce the risk of liver cancer (OR-0.601, 95% CI-0.364-0.992. P=0.046). Conclusion The latent class model can identify low-frequency variants of gene associated with liver cancer and can be extended to more genetic association studies of hoe repay variants related to complex diseases. [ABSTRACT FROM AUTHOR]

Published

2021

13. Loss of Znt8 function in diabetes mellitus: risk or benefit?

Author

Barragán-Álvarez, Carla P., Padilla-Camberos, Eduardo, Díaz, Nestor F., Cota-Coronado, Agustín, Hernández-Jiménez, Claudia, Bravo-Reyna, Carlos C., and Díaz-Martínez, Nestor E.

Abstract

The zinc transporter 8 (ZnT8) plays an essential role in zinc homeostasis inside pancreatic β cells, its function is related to the stabilization of insulin hexameric form. Genome-wide association studies (GWAS) have established a positive and negative relationship of ZnT8 variants with type 2 diabetes mellitus (T2DM), exposing a dual and controversial role. The first hypotheses about its role in T2DM indicated a higher risk of developing T2DM for loss of function; nevertheless, recent GWAS of ZnT8 loss-of-function mutations in humans have shown protection against T2DM. With regard to the ZnT8 role in T2DM, most studies have focused on rodent models and common high-risk variants; however, considerable differences between human and rodent models have been found and the new approaches have included lower-frequency variants as a tool to clarify gene functions, allowing a better understanding of the disease and offering possible therapeutic targets. Therefore, this review will discuss the physiological effects of the ZnT8 variants associated with a major and lower risk of T2DM, emphasizing the low- and rare-frequency variants. [ABSTRACT FROM AUTHOR]

Published

2021

14. Benchmarking the performance of Pool‐seq SNP callers using simulated and real sequencing data.

Author

Guirao‐Rico, Sara and González, Josefa

Subjects

*GENOMICS, *SINGLE nucleotide polymorphisms, *GENE frequency, *COST analysis, *LIFE sciences

Abstract

Population genomics is a fast‐developing discipline with promising applications in a growing number of life sciences fields. Advances in sequencing technologies and bioinformatics tools allow population genomics to exploit genome‐wide information to identify the molecular variants underlying traits of interest and the evolutionary forces that modulate these variants through space and time. However, the cost of genomic analyses of multiple populations is still too high to address them through individual genome sequencing. Pooling individuals for sequencing can be a more effective strategy in Single Nucleotide Polymorphism (SNP) detection and allele frequency estimation because of a higher total coverage. However, compared to individual sequencing, SNP calling from pools has the additional difficulty of distinguishing rare variants from sequencing errors, which is often avoided by establishing a minimum threshold allele frequency for the analysis. Finding an optimal balance between minimizing information loss and reducing sequencing costs is essential to ensure the success of population genomics studies. Here, we have benchmarked the performance of SNP callers for Pool‐seq data, based on different approaches, under different conditions, and using computer simulations and real data. We found that SNP callers performance varied for allele frequencies up to 0.35. We also found that SNP callers based on Bayesian (SNAPE‐pooled) or maximum likelihood (MAPGD) approaches outperform the two heuristic callers tested (VarScan and PoolSNP), in terms of the balance between sensitivity and FDR both in simulated and sequencing data. Our results will help inform the selection of the most appropriate SNP caller not only for large‐scale population studies but also in cases where the Pool‐seq strategy is the only option, such as in metagenomic or polyploid studies. [ABSTRACT FROM AUTHOR]

Published

2021

15. Searching for solutions to the missing heritability problem

Author

Luisa F Pallares

Subjects

genetic architecture, GWAS, low-frequency variants, complex traits, rare variants, QTL, Medicine, Science, Biology (General), QH301-705.5

Abstract

Rare genetic variants in yeast explain a large amount of phenotypic variation in a complex trait like growth.

Published

2019

16. Extensive impact of low-frequency variants on the phenotypic landscape at population-scale

Author

Téo Fournier, Omar Abou Saada, Jing Hou, Jackson Peter, Elodie Caudal, and Joseph Schacherer

Subjects

genetic architecture, GWAS, low-frequency variants, Medicine, Science, Biology (General), QH301-705.5

Abstract

Genome-wide association studies (GWAS) allow to dissect complex traits and map genetic variants, which often explain relatively little of the heritability. One potential reason is the preponderance of undetected low-frequency variants. To increase their allele frequency and assess their phenotypic impact in a population, we generated a diallel panel of 3025 yeast hybrids, derived from pairwise crosses between natural isolates and examined a large number of traits. Parental versus hybrid regression analysis showed that while most phenotypic variance is explained by additivity, a third is governed by non-additive effects, with complete dominance having a key role. By performing GWAS on the diallel panel, we found that associated variants with low frequency in the initial population are overrepresented and explain a fraction of the phenotypic variance as well as an effect size similar to common variants. Overall, we highlighted the relevance of low-frequency variants on the phenotypic variation.

Published

2019

17. C6orf10 Low-Frequency and Rare Variants in Italian Multiple Sclerosis Patients

Author

Nicole Ziliotto, Giovanna Marchetti, Chiara Scapoli, Matteo Bovolenta, Silvia Meneghetti, Andrea Benazzo, Barbara Lunghi, Dario Balestra, Lorenza Anna Laino, Nicolò Bozzini, Irene Guidi, Fabrizio Salvi, Sofia Straudi, Donato Gemmati, Erica Menegatti, Paolo Zamboni, and Francesco Bernardi

Subjects

multiple sclerosis, whole exome sequencing, low-frequency variants, rare variants, C6orf10, Genetics, QH426-470

Abstract

In light of the complex nature of multiple sclerosis (MS) and the recently estimated contribution of low-frequency variants into disease, decoding its genetic risk components requires novel variant prioritization strategies. We selected, by reviewing MS Genome Wide Association Studies (GWAS), 107 candidate loci marked by intragenic single nucleotide polymorphisms (SNPs) with a remarkable association (p-value ≤ 5 × 10-6). A whole exome sequencing (WES)-based pilot study of SNPs with minor allele frequency (MAF) ≤ 0.04, conducted in three Italian families, revealed 15 exonic low-frequency SNPs with affected parent-child transmission. These variants were detected in 65/120 Italian unrelated MS patients, also in combination (22 patients). Compared with databases (controls gnomAD, dbSNP150, ExAC, Tuscany-1000 Genome), the allelic frequencies of C6orf10 rs16870005 and IL2RA rs12722600 were significantly higher (i.e., controls gnomAD, p = 9.89 × 10-7 and p < 1 × 10-20). TET2 rs61744960 and TRAF3 rs138943371 frequencies were also significantly higher, except in Tuscany-1000 Genome. Interestingly, the association of C6orf10 rs16870005 (Ala431Thr) with MS did not depend on its linkage disequilibrium with the HLA-DRB1 locus. Sequencing in the MS cohort of the C6orf10 3′ region revealed 14 rare mutations (10 not previously reported). Four variants were null, and significantly more frequent than in the databases. Further, the C6orf10 rare variants were observed in combinations, both intra-locus and with other low-frequency SNPs. The C6orf10 Ser389Xfr was found homozygous in a patient with early onset of the MS. Taking into account the potentially functional impact of the identified exonic variants, their expression in combination at the protein level could provide functional insights in the heterogeneous pathogenetic mechanisms contributing to MS.

Published

2019

18. C6orf10 Low-Frequency and Rare Variants in Italian Multiple Sclerosis Patients.

Author

Ziliotto, Nicole, Marchetti, Giovanna, Scapoli, Chiara, Bovolenta, Matteo, Meneghetti, Silvia, Benazzo, Andrea, Lunghi, Barbara, Balestra, Dario, Laino, Lorenza Anna, Bozzini, Nicolò, Guidi, Irene, Salvi, Fabrizio, Straudi, Sofia, Gemmati, Donato, Menegatti, Erica, Zamboni, Paolo, and Bernardi, Francesco

Subjects

NATALIZUMAB, MULTIPLE sclerosis, SINGLE nucleotide polymorphisms, LINKAGE disequilibrium, GENE frequency, PROTEIN expression

Abstract

In light of the complex nature of multiple sclerosis (MS) and the recently estimated contribution of low-frequency variants into disease, decoding its genetic risk components requires novel variant prioritization strategies. We selected, by reviewing MS Genome Wide Association Studies (GWAS), 107 candidate loci marked by intragenic single nucleotide polymorphisms (SNPs) with a remarkable association (p -value ≤ 5 × 10-6). A whole exome sequencing (WES)-based pilot study of SNPs with minor allele frequency (MAF) ≤ 0.04, conducted in three Italian families, revealed 15 exonic low-frequency SNPs with affected parent-child transmission. These variants were detected in 65/120 Italian unrelated MS patients, also in combination (22 patients). Compared with databases (controls gnomAD, dbSNP150, ExAC, Tuscany-1000 Genome), the allelic frequencies of C6orf10 rs16870005 and IL2RA rs12722600 were significantly higher (i.e., controls gnomAD, p = 9.89 × 10-7 and p < 1 × 10-20). TET2 rs61744960 and TRAF3 rs138943371 frequencies were also significantly higher, except in Tuscany-1000 Genome. Interestingly, the association of C6orf10 rs16870005 (Ala431Thr) with MS did not depend on its linkage disequilibrium with the HLA-DRB1 locus. Sequencing in the MS cohort of the C6orf10 3′ region revealed 14 rare mutations (10 not previously reported). Four variants were null, and significantly more frequent than in the databases. Further, the C6orf10 rare variants were observed in combinations, both intra-locus and with other low-frequency SNPs. The C6orf10 Ser389Xfr was found homozygous in a patient with early onset of the MS. Taking into account the potentially functional impact of the identified exonic variants, their expression in combination at the protein level could provide functional insights in the heterogeneous pathogenetic mechanisms contributing to MS. [ABSTRACT FROM AUTHOR]

Published

2019

19. A general approach to identify low-frequency variants within influenza samples collected during routine surveillance

Author

Laura A. E. Van Poelvoorde, Thomas Delcourt, Marnik Vuylsteke, Sigrid C. J. De Keersmaecker, Isabelle Thomas, Steven Van Gucht, Xavier Saelens, Nancy Roosens, and Kevin Vanneste

Subjects

TRANSMISSION, SARS-CoV-2, Influenza A Virus, H3N2 Subtype, Biology and Life Sciences, COVID-19, General Medicine, Genome, Viral, Influenza, PCR, INFECTION, Influenza, Human, Medicine and Health Sciences, surveillance, VIRUS, OSELTAMIVIR, Humans, next-generation sequencing, ANTIVIRAL RESISTANCE, patient data, MUTATION, low-frequency variants

Abstract

Influenza viruses exhibit considerable diversity between hosts. Additionally, different quasispecies can be found within the same host. High-throughput sequencing technologies can be used to sequence a patient-derived virus population at sufficient depths to identify low-frequency variants (LFV) present in a quasispecies, but many challenges remain for reliable LFV detection because of experimental errors introduced during sample preparation and sequencing. High genomic copy numbers and extensive sequencing depths are required to differentiate false positive from real LFV, especially at low allelic frequencies (AFs). This study proposes a general approach for identifying LFV in patient-derived samples obtained during routine surveillance. Firstly, validated thresholds were determined for LFV detection, whilst balancing both the cost and feasibility of reliable LFV detection in clinical samples. Using a genetically well-defined population of influenza A viruses, thresholds of at least 104 genomes per microlitre and AF of ≥5 % were established as detection limits. Secondly, a subset of 59 retained influenza A (H3N2) samples from the 2016–2017 Belgian influenza season was composed. Thirdly, as a proof of concept for the added value of LFV for routine influenza monitoring, potential associations between patient data and whole genome sequencing data were investigated. A significant association was found between a high prevalence of LFV and disease severity. This study provides a general methodology for influenza LFV detection, which can also be adopted by other national influenza reference centres and for other viruses such as SARS-CoV-2. Additionally, this study suggests that the current relevance of LFV for routine influenza surveillance programmes might be undervalued.

Published

2022

20. Exome array analysis identifies <italic>ETFB</italic> as a novel susceptibility gene for anthracycline-induced cardiotoxicity in cancer patients.

Author

Ruiz-Pinto, Sara, Pita, Guillermo, Martín, Miguel, Alonso-Gordoa, Teresa, Barnes, Daniel R., Alonso, María R., Herraez, Belén, García-Miguel, Purificación, Alonso, Javier, Pérez-Martínez, Antonio, Cartón, Antonio J., Gutiérrez-Larraya, Federico, García-Sáenz, José A., Benítez, Javier, Easton, Douglas. F., Patiño-García, Ana, and González-Neira, Anna

Abstract

Purpose: Anthracyclines are widely used chemotherapeutic drugs that can cause progressive and irreversible cardiac damage and fatal heart failure. Several genetic variants associated with anthracycline-induced cardiotoxicity (AIC) have been identified, but they explain only a small proportion of the interindividual differences in AIC susceptibility.Methods: In this study, we evaluated the association of low-frequency variants with risk of chronic AIC using the Illumina HumanExome BeadChip array in a discovery cohort of 61 anthracycline-treated breast cancer patients with replication in a second independent cohort of 83 anthracycline-treated pediatric cancer patients, using gene-based tests (SKAT-O).Results: The most significant associated gene in the discovery cohort was ETFB (electron transfer flavoprotein beta subunit) involved in mitochondrial β-oxidation and ATP production (P = 4.16 × 10−4) and this association was replicated in an independent set of anthracycline-treated cancer patients (P = 2.81 × 10−3). Within ETFB, we found that the missense variant rs79338777 (p.Pro52Leu; c.155C > T) made the greatest contribution to the observed gene association and it was associated with increased risk of chronic AIC in the two cohorts separately and when combined (OR 9.00, P = 1.95 × 10−4, 95% CI 2.83–28.6).Conclusions: We identified and replicated a novel gene, ETFB, strongly associated with chronic AIC independently of age at tumor onset and related to anthracycline-mediated mitochondrial dysfunction. Although experimental verification and further studies in larger patient cohorts are required to confirm our finding, we demonstrated that exome array data analysis represents a valuable strategy to identify novel genes contributing to the susceptibility to chronic AIC. [ABSTRACT FROM AUTHOR]

Published

2018

21. Clinical impact of detecting low-frequency variants in cell-free DNA on treatment of castration-resistant prostate cancer

Author

Mizuno, Kei and Mizuno, Kei

Published

2022

22. 血中遊離DNAにおける低頻度変異検出が去勢抵抗性前立腺癌の治療に与える影響

Author

Mizuno, Kei, 村川, 泰裕, 松田, 文彦, and 篠原, 隆司

Subjects

cell-free DNA, circulating cell-free tumor DNA, clonal hematopoiesis of indeterminate potential, prostate cancer, low-frequency variants

Published

2022

23. Deep sequencing for HIV-1 clinical management.

Author

Casadellà, Maria and Paredes, Roger

Subjects

*HIV infections, *THERAPEUTICS, *EPIDEMICS, *DRUG resistance in microorganisms, *HIV prevention, *COST effectiveness

Abstract

The emerging HIV-1 resistance epidemic is threatening the impressive global advances in HIV-1 infection treatment and prevention achieved in the last decade. Next-generation sequencing is improving our ability to understand, diagnose and prevent HIV-1 resistance, being increasingly cost-effective and more accessible. However, NGS still faces a number of limitations that need to be addressed to enable its widespread use. Here, we will review the main NGS platforms available for HIV-1 diagnosis, the factors affecting the clinical utility of NGS testing and the evidence supporting −or not- ultrasensitive genotyping over Sanger sequencing for routine HIV-1 diagnosis. Now that global HIV-1 eradication might be within our reach, making NGS accessible also to LMICs has become a priority. Reductions in sequencing costs, particularly in library preparation, and accessibility to low-cost, robust but simplified automated bioinformatic analyses of NGS data will remain essential to end the HIV-1 pandemic. [ABSTRACT FROM AUTHOR]

Published

2017

24. IL10 low-frequency variants in Behçet's disease patients.

Author

Matos, Mafalda, Xavier, Joana M., Abrantes, Patrícia, Sousa, Inês, Rei, Nádia, Davatchi, Fereydoun, Shahram, Farhad, Jesus, Gorete, Barcelos, Filipe, Vedes, Joana, Salgado, Manuel, Abdollahi, Bahar Sadeghi, Nadji, Abdolhadi, Moraes ‐ Fontes, Maria Francisca, Shafiee, Niloofar Mojarad, Ghaderibarmi, Fahmida, Vaz Patto, José, Crespo, Jorge, and Oliveira, Sofia A.

Subjects

*HERITABILITY, *INTERLEUKIN-10, *GENOMES, *NUCLEOTIDES, *DISEASE susceptibility

Abstract

Aim To explain the missing heritability after the genome-wide association studies era, sequencing studies allow the identification of low-frequency variants with a stronger effect on disease risk. Common variants in the interleukin 10 gene ( IL10) have been consistently associated with Behçet's disease ( BD) and the goal of this study is to investigate the role of low-frequency IL10 variants in BD susceptibility. Methods To identify IL10 low-frequency variants, a discovery group of 50 Portuguese BD patients were Sanger-sequenced in a 7.7 kb genomic region encompassing the complete IL10 gene, 0.9 kb upstream and 2 kb downstream, and two conserved regions in the putative promoter. To assess if the novel variants are BD- and/or Portuguese-specific, they were assayed in an additional group of BD patients (26 Portuguese and 964 Iranian) and controls (104 Portuguese and 823 Iranian). Results Rare IL10 coding variants were not detected in BD patients, but we identified 28 known single nucleotide polymorphisms with minor allele frequencies ranging from 0.010 to 0.390, and five novel non-coding variants in five heterozygous cases. ss836185595, located in the IL10 3′ untranslated region, was also detected in one Iranian control individual and therefore is not specific to BD. The remaining novel IL10 variants (ss836185596 and ss836185602 in intron 3, ss836185598 and ss836185604 in the putative promoter region) were not found in the replication dataset. Conclusion This study highlights the importance of screening the whole gene and regulatory regions when searching for novel variants associated with complex diseases, and the need to develop bioinformatics tools to predict the functional impact of non-coding variants and statistical tests which incorporate these predictions. [ABSTRACT FROM AUTHOR]

Published

2017

25. Diallel panel reveals a significant impact of low-frequency genetic variants on gene expression variation in yeast.

Author

Tsouris A, Brach G, Friedrich A, Hou J, and Schacherer J

Abstract

Unraveling the genetic sources of gene expression variation is essential to better understand the origins of phenotypic diversity in natural populations. Genome-wide association studies identified thousands of variants involved in gene expression variation, however, variants detected only explain part of the heritability. In fact, variants such as low-frequency and structural variants (SVs) are poorly captured in association studies. To assess the impact of these variants on gene expression variation, we explored a half-diallel panel composed of 323 hybrids originated from pairwise crosses of 26 natural Saccharomyces cerevisiae isolates. Using short- and long-read sequencing strategies, we established an exhaustive catalog of single nucleotide polymorphisms (SNPs) and SVs for this panel. Combining this dataset with the transcriptomes of all hybrids, we comprehensively mapped SNPs and SVs associated with gene expression variation. While SVs impact gene expression variation, SNPs exhibit a higher effect size with an overrepresentation of low-frequency variants compared to common ones. These results reinforce the importance of dissecting the heritability of complex traits with a comprehensive catalog of genetic variants at the population level.

Published

2023

26. Homozygosity Haplotype and Whole-Exome Sequencing Analysis to Identify Potentially Functional Rare Variants Involved in Multiple Sclerosis among Sardinian Families

Author

Ashley Beecham, Daria Marzanati, Athena Hadjixenofontos, Anna Laura Carotenuto, Luisa Bernardinelli, Valeria Saddi, Jacob L. McCauley, Teresa Fazia, Davide Gentilini, and Marialuisa Piras

Subjects

Male, Microbiology (medical), QH301-705.5, Region form Common Ancestor (RCA), Biology, multiple sclerosis, Polymorphism, Single Nucleotide, Microbiology, Exon, multiplex families, Exome Sequencing, medicine, Humans, Genetic Predisposition to Disease, Multiplex, Sardinian population, Biology (General), Molecular Biology, Genotyping, Alleles, Exome sequencing, Genetics, Multiple sclerosis, Homozygote, Haplotype, Genetic Variation, rare variants, General Medicine, Heritability, medicine.disease, Pedigree, Haplotypes, Italy, RNA splicing, WES data, Female, Homozygosity Haplotype analysis, low-frequency variants, Genome-Wide Association Study

Abstract

Multiple Sclerosis (MS) is a complex multifactorial autoimmune disease, whose sex- and age-adjusted prevalence in Sardinia (Italy) is among the highest worldwide. To date, 233 loci were associated with MS and almost 20% of risk heritability is attributable to common genetic variants, but many low-frequency and rare variants remain to be discovered. Here, we aimed to contribute to the understanding of the genetic basis of MS by investigating potentially functional rare variants. To this end, we analyzed thirteen multiplex Sardinian families with Immunochip genotyping data. For five families, Whole Exome Sequencing (WES) data were also available. Firstly, we performed a non-parametric Homozygosity Haplotype analysis for identifying the Region from Common Ancestor (RCA). Then, on these potential disease-linked RCA, we searched for the presence of rare variants shared by the affected individuals by analyzing WES data. We found: (i) a variant (43181034 T &gt, G) in the splicing region on exon 27 of CUL9, (ii) a variant (50245517 A &gt, C) in the splicing region on exon 16 of ATP9A, (iii) a non-synonymous variant (43223539 A &gt, C), on exon 9 of TTBK1, (iv) a non-synonymous variant (42976917 A &gt, C) on exon 9 of PPP2R5D, and v) a variant (109859349-109859354) in 3′UTR of MYO16.

Published

2021

27. Insights into metabolic disease from studying genetics in isolated populations: stories from Greece to Greenland.

Author

Zeggini, Eleftheria, Gloyn, Anna, and Hansen, Torben

Abstract

Over the last 10 years substantial progress has been made in our understanding of the genetic basis for type 2 diabetes and related traits. These developments have been facilitated by technological advancements that have allowed comprehensive genome-wide assessments of the impact of common genetic variation on disease risk. Current efforts are now focused on extending this to genetic variants in the rare and low-frequency spectrum by capitalising on next-generation sequencing technologies. This review discusses the important contributions that studies in isolated populations are making to this effort for diabetes and metabolic disease, drawing on specific examples from populations in Greece and Greenland. This review summarises a presentation given at the 'Exciting news in genetics of diabetes' symposium at the 2015 annual meeting of the EASD, with topics presented by Eleftheria Zeggini and Torben Hansen, and an overview by the Session Chair, Anna Gloyn. [ABSTRACT FROM AUTHOR]

Published

2016

28. Benchmarking the performance of Pool-seq SNP callers using simulated and real sequencing data

Author

European Research Council, Guirao-Rico, Sara, González Pérez, Josefa, European Research Council, Guirao-Rico, Sara, and González Pérez, Josefa

Abstract

Population genomics is a fast-developing discipline with promising applications in a growing number of life sciences fields. Advances in sequencing technologies and bioinformatics tools allow population genomics to exploit genome-wide information to identify the molecular variants underlying traits of interest and the evolutionary forces that modulate these variants through space and time. However, the cost of genomic analyses of multiple populations is still too high to address them through individual genome sequencing. Pooling individuals for sequencing can be a more effective strategy in Single Nucleotide Polymorphism (SNP) detection and allele frequency estimation because of a higher total coverage. However, compared to individual sequencing, SNP calling from pools has the additional difficulty of distinguishing rare variants from sequencing errors, which is often avoided by establishing a minimum threshold allele frequency for the analysis. Finding an optimal balance between minimizing information loss and reducing sequencing costs is essential to ensure the success of population genomics studies. Here, we have benchmarked the performance of SNP callers for Pool-seq data, based on different approaches, under different conditions, and using computer simulations and real data. We found that SNP callers performance varied for allele frequencies up to 0.35. We also found that SNP callers based on Bayesian (SNAPE-pooled) or maximum likelihood (MAPGD) approaches outperform the two heuristic callers tested (VarScan and PoolSNP), in terms of the balance between sensitivity and FDR both in simulated and sequencing data. Our results will help inform the selection of the most appropriate SNP caller not only for large-scale population studies but also in cases where the Pool-seq strategy is the only option, such as in metagenomic or polyploid studies.

Published

2021

29. Rare variants and autoimmune disease.

Author

Massey, Jonathan and Eyre, Steve

Subjects

*AUTOIMMUNE diseases, *AUTOIMMUNITY, *MONOGENIC & polygenic inheritance (Genetics), *SYSTEMIC lupus erythematosus, *HUMAN genetic variation

Abstract

The study of rare variants in monogenic forms of autoimmune disease has offered insight into the aetiology of more complex pathologies. Research in complex autoimmune disease initially focused on sequencing candidate genes, with some early successes, notably in uncovering low-frequency variation associated with Type 1 diabetes mellitus. However, other early examples have proved difficult to replicate, and a recent study across six autoimmune diseases, re-sequencing 25 autoimmune disease-associated genes in large sample sizes, failed to find any associated rare variants. The study of rare and low-frequency variation in autoimmune diseases has been made accessible by the inclusion of such variants on custom genotyping arrays (e.g. Immunochip and Exome arrays). Whole-exome sequencing approaches are now also being utilised to uncover the contribution of rare coding variants to disease susceptibility, severity and treatment response. Other sequencing strategies are starting to uncover the role of regulatory rare variation. [ABSTRACT FROM AUTHOR]

Published

2014

30. Deep Sequencing of HIV: Clinical and Research Applications.

Author

Chabria, Striven B., Gupta, Shaili, and Kozal, Michael J.

Subjects

*HIV, *GENOMICS, *GENOMES, *HUMAN genetic variation, *GENETIC mutation, *ANTIRETROVIRAL agents

Abstract

Human immunodeficiency virus (HIV) exhibits remarkable diversity in its genomic makeup and exists in any given individual as a complex distribution of closely related but nonidentical genomes called a viral quasispecies, which is subject to genetic variation, competition, and selection. This viral diversity clinically manifests as a selection of mutant variants based on viral fitness in treatment-naive individuals and based on drug-selective pressure in those on antiretroviral therapy (ART). The current standard-of-care ART consists of a combination of antiretroviral agents, which ensures maximal viral suppression while preventing the emergence of drug-resistant HIV variants. Unfortunately, transmission of drug-resistant HIV does occur, affecting 5% to >20% of newly infected individuals. To optimize therapy, clinicians rely on viral genotypic information obtained from conventional population sequencing-based assays, which cannot reliably detect viral variants that constitute <20% of the circulating viral quasispecies. These low- frequency variants can be detected by highly sensitive genotyping methods collectively grouped under the moniker of deep sequencing. Low-frequency variants have been correlated to treatment failures and HIV transmission, and detection of these variants is helping to inform strategies for vaccine development. Here, we discuss the molecular virology of HIV, viral hetero-geneity, drug-resistance mutations, and the application of deep sequencing technologies in research and the clinical care of HIV-infected individuals. [ABSTRACT FROM AUTHOR]

Published

2014

31. A general approach to identify low-frequency variants within influenza samples collected during routine surveillance.

Author

Van Poelvoorde LAE, Delcourt T, Vuylsteke M, De Keersmaecker SCJ, Thomas I, Van Gucht S, Saelens X, Roosens N, and Vanneste K

Subjects

Genome, Viral, Humans, Influenza A Virus, H3N2 Subtype genetics, SARS-CoV-2, COVID-19, Influenza, Human epidemiology

Abstract

Influenza viruses exhibit considerable diversity between hosts. Additionally, different quasispecies can be found within the same host. High-throughput sequencing technologies can be used to sequence a patient-derived virus population at sufficient depths to identify low-frequency variants (LFV) present in a quasispecies, but many challenges remain for reliable LFV detection because of experimental errors introduced during sample preparation and sequencing. High genomic copy numbers and extensive sequencing depths are required to differentiate false positive from real LFV, especially at low allelic frequencies (AFs). This study proposes a general approach for identifying LFV in patient-derived samples obtained during routine surveillance. Firstly, validated thresholds were determined for LFV detection, whilst balancing both the cost and feasibility of reliable LFV detection in clinical samples. Using a genetically well-defined population of influenza A viruses, thresholds of at least 10 4 genomes per microlitre and AF of ≥5 % were established as detection limits. Secondly, a subset of 59 retained influenza A (H3N2) samples from the 2016-2017 Belgian influenza season was composed. Thirdly, as a proof of concept for the added value of LFV for routine influenza monitoring, potential associations between patient data and whole genome sequencing data were investigated. A significant association was found between a high prevalence of LFV and disease severity. This study provides a general methodology for influenza LFV detection, which can also be adopted by other national influenza reference centres and for other viruses such as SARS-CoV-2. Additionally, this study suggests that the current relevance of LFV for routine influenza surveillance programmes might be undervalued.

Published

2022

32. A low-frequency GLIS3 variant associated with resistance to Japanese type 1 diabetes.

Author

Awata, Takuya, Yamashita, Hisakuni, Kurihara, Susumu, Morita-Ohkubo, Tomoko, Miyashita, Yumi, Katayama, Shigehiro, Kawasaki, Eiji, Tanaka, Shoichiro, Ikegami, Hiroshi, Maruyama, Taro, Shimada, Akira, Takahashi, Kazuma, Kawabata, Yumiko, Kobayashi, Tetsuro, Nishida, Nao, and Mawatari, Yoriko

Subjects

*TYPE 1 diabetes, *PHYSIOLOGICAL effects of proteins, *AUTOIMMUNITY, *PROTEIN research, *GENE expression

Abstract

Highlights: [•] We analyzed protein-changing and low-frequency variants of the type 1 diabetes candidate genes in Japanese. [•] The A908V variant in the GLIS3 gene was discovered to be strongly protective against type 1 diabetes. [•] The A908V variant may affect autoimmunity to the GLIS3 protein itself. [ABSTRACT FROM AUTHOR]

Published

2013

33. A role for coding functional variants in HNF4A in type 2 diabetes susceptibility.

Author

Jafar-Mohammadi, B., Groves, C., Gjesing, A., Herrera, B., Winckler, W., Stringham, H., Morris, A., Lauritzen, T., Doney, A., Weedon, M., Swift, A., Kuusisto, J., Laakso, M., Altshuler, D., Hattersley, A., Collins, F., Boehnke, M., Hansen, T., Pedersen, O., and Palmer, C.

Abstract

ims/hypothesis: Rare mutations in the gene HNF4A, encoding the transcription factor hepatocyte nuclear factor 4α (HNF-4A), account for ~5% of cases of MODY and more frequent variants in this gene may be involved in multifactorial forms of diabetes. Two low-frequency, non-synonymous variants in HNF4A (V255M, minor allele frequency [MAF] ~0.1%; T130I, MAF ~3.0%)-known to influence downstream HNF-4A target gene expression-are of interest, but previous type 2 diabetes association reports were inconclusive. We aimed to evaluate the contribution of these variants to type 2 diabetes susceptibility through large-scale association analysis. Methods: We genotyped both variants in at least 5,745 cases and 14,756 population controls from the UK and Denmark. We also undertook an expanded association analysis that included previously reported and novel genotype data obtained in Danish, Finnish, Canadian and Swedish samples. A meta-analysis incorporating all published association studies of the T130I variant was subsequently carried out in a maximum sample size of 14,279 cases and 26,835 controls. Results: We found no association between V255M and type 2 diabetes in either the initial ( p = 0.28) or the expanded analysis ( p = 0.44). However, T130I demonstrated a modest association with type 2 diabetes in the UK and Danish samples (additive per allele OR 1.17 [95% CI 1.08-1.28]; p = 1.5 × 10), which was strengthened in the meta-analysis (OR 1.20 [95% CI 1.10-1.30]; p = 2.1 × 10). Conclusions/interpretation: Our data are consistent with T130I as a low-frequency variant influencing type 2 diabetes risk, but are not conclusive when judged against stringent standards for genome-wide significance. This study exemplifies the difficulties encountered in association testing of low-frequency variants. [ABSTRACT FROM AUTHOR]

Published

2011

34. Exome array analysis identifies ETFB as a novel susceptibility gene for anthracycline-induced cardiotoxicity in cancer patients

Author

Ruiz-Pinto, Sara, Pita, Guillermo, Martín, Miguel, Alonso-Gordoa, Teresa, Barnes, Daniel R., Alonso, María R., Herraez, Belén, García-Miguel, Purificación, Alonso, Javier, Pérez-Martínez, Antonio, Cartón, Antonio J., Gutiérrez-Larraya, Federico, García-Sáenz, José A., Benítez, Javier, Easton, Douglas. F., Patiño-García, Ana, and González-Neira, Anna

Published

2017

35. Exome array analysis identifies ETFB as a novel susceptibility gene for anthracycline-induced cardiotoxicity in cancer patients

Author

María R Alonso, Guillermo Pita, Javier Benitez, Anna González-Neira, Antonio Pérez-Martínez, Sara Ruiz-Pinto, Purificación García-Miguel, Daniel R. Barnes, Federico Gutiérrez-Larraya, Miguel Martin, Antonio J. Cartón, José A. García-Sáenz, Javier Alonso, Teresa Alonso-Gordoa, Ana Patiño-García, Douglas F. Easton, Belen Herraez, González-Neira, Anna [0000-0002-5421-2020], and Apollo - University of Cambridge Repository

Subjects

Adult, 0301 basic medicine, Oncology, Cancer Research, medicine.medical_specialty, Electron-Transferring Flavoproteins, ETFB, Low-frequency variants, Breast Neoplasms, Long-term cancer survivors, 03 medical and health sciences, Breast cancer, Cancer Survivors, Internal medicine, medicine, Humans, Missense mutation, Anthracyclines, Exome, Genetic Predisposition to Disease, Gene, Genetic Association Studies, Aged, Heart Failure, Genetics, Cardiotoxicity, business.industry, Cancer, Chronic cardiotoxicity, Middle Aged, medicine.disease, Pediatric cancer, Mitochondria, Gene Expression Regulation, Neoplastic, 030104 developmental biology, Cohort, Female, business

Abstract

PURPOSE: Anthracyclines are widely used chemotherapeutic drugs that can cause progressive and irreversible cardiac damage and fatal heart failure. Several genetic variants associated with anthracycline-induced cardiotoxicity (AIC) have been identified, but they explain only a small proportion of the interindividual differences in AIC susceptibility. METHODS: In this study, we evaluated the association of low-frequency variants with risk of chronic AIC using the Illumina HumanExome BeadChip array in a discovery cohort of 61 anthracycline-treated breast cancer patients with replication in a second independent cohort of 83 anthracycline-treated pediatric cancer patients, using gene-based tests (SKAT-O). RESULTS: The most significant associated gene in the discovery cohort was ETFB (electron transfer flavoprotein beta subunit) involved in mitochondrial β-oxidation and ATP production (P = 4.16 × 10-4) and this association was replicated in an independent set of anthracycline-treated cancer patients (P = 2.81 × 10-3). Within ETFB, we found that the missense variant rs79338777 (p.Pro52Leu; c.155C > T) made the greatest contribution to the observed gene association and it was associated with increased risk of chronic AIC in the two cohorts separately and when combined (OR 9.00, P = 1.95 × 10-4, 95% CI 2.83-28.6). CONCLUSIONS: We identified and replicated a novel gene, ETFB, strongly associated with chronic AIC independently of age at tumor onset and related to anthracycline-mediated mitochondrial dysfunction. Although experimental verification and further studies in larger patient cohorts are required to confirm our finding, we demonstrated that exome array data analysis represents a valuable strategy to identify novel genes contributing to the susceptibility to chronic AIC.

Published

2017

36. Extensive impact of low-frequency variants on the phenotypic landscape at population-scale

Author

Jackson Peter, Téo Fournier, Elodie Caudal, Joseph Schacherer, Jing Hou, and O. Abou Saada

Subjects

Multifactorial Inheritance, QH301-705.5, Science, Quantitative Trait Loci, Population, S. cerevisiae, Genome-wide association study, Biology, Diallel cross, 03 medical and health sciences, 0302 clinical medicine, GWAS, Biology (General), education, Allele frequency, 030304 developmental biology, Hybrid, Dominance (genetics), Genetic association, Genetics, 0303 health sciences, education.field_of_study, Genetics and Genomics, genetic architecture, Trait, Medicine, low-frequency variants, 030217 neurology & neurosurgery, Research Article, Genome-Wide Association Study

Abstract

Genome-wide association studies (GWAS) allows to dissect the genetic basis of complex traits at the population level1. However, despite the extensive number of trait-associated loci found, they often fail to explain a large part of the observed phenotypic variance2–4. One potential source of this discrepancy could be the preponderance of undetected low-frequency genetic variants in natural populations5,6. To increase the allele frequency of those variants and assess their phenotypic effects at the population level, we generated a diallel panel consisting of 3,025 hybrids, derived from pairwise crosses between a subset of natural isolates from a completely sequenced 1,011 Saccharomyces cerevisiae population. We examined each hybrid across a large number of growth traits, resulting in a total of 148,225 cross/trait combinations. Parental versus hybrid regression analysis showed that while most phenotypic variance is explained by additivity, a significant proportion (29%) is governed by non-additive effects. This is confirmed by the fact that a majority of complete dominance is observed in 25% of the traits. By performing GWAS on the diallel panel, we detected 1,723 significantly associated genetic variants, with 16.3% of them being low-frequency variants in the initial population. These variants, which would not be detected using classical GWAS, explain 21% of the phenotypic variance on average. Altogether, our results demonstrate that low-frequency variants should be accounted for as they contribute to a large part of the phenotypic variation observed in a population.

Published

2019

37. Rare variants contribute disproportionately to quantitative trait variation in yeast

Author

Meru J. Sadhu, Sebastian Treusch, Joshua S. Bloom, Holly Oates-Barker, James Boocock, Leonid Kruglyak, and Laura Day

Subjects

QTL, S. cerevisiae, Genome-wide association study, Negative selection, 0302 clinical medicine, GWAS, 2.1 Biological and endogenous factors, Biology (General), Aetiology, Phylogeny, 0303 health sciences, Genome, General Neuroscience, 030305 genetics & heredity, Chromosome Mapping, High-Throughput Nucleotide Sequencing, General Medicine, Biological Evolution, Variation (linguistics), Phenotype, Fungal, Trait, Medicine, Genome, Fungal, Insight, Research Article, Biotechnology, QH301-705.5, Science, Quantitative Trait Loci, Genomics, Saccharomyces cerevisiae, Crosses, Biology, Quantitative trait locus, General Biochemistry, Genetics and Molecular Biology, complex traits, Quantitative Trait, 03 medical and health sciences, Quantitative Trait, Heritable, Genetic, genomics, Genetics, Selection, Genetic, Heritable, Selection, Allele frequency, Gene, Crosses, Genetic, 030304 developmental biology, Genetic association, General Immunology and Microbiology, Human Genome, Genetic Variation, rare variants, Genetics and Genomics, Heritability, genetic architecture, Yeast, Genetic architecture, Evolutionary biology, Biochemistry and Cell Biology, 030217 neurology & neurosurgery, low-frequency variants

Abstract

A detailed understanding of the sources of heritable variation is a central goal of modern genetics. Genome-wide association studies (GWAS) in humans1 have implicated tens of thousands of DNA sequence variants in disease risk and quantitative trait variation, but these variants fail to account for the entire heritability of diseases and traits. GWAS have by design focused on common DNA sequence variants; however, recent studies underscore the likely importance of the contribution of rare variants to heritable variation2. Further, finding the genes that underlie the GWAS signals remains a major challenge. Here, we use a unique model system to disentangle the contributions of common and rare variants to a large number of quantitative traits. We generated large crosses among 16 diverse yeast strains and identified thousands of quantitative trait loci (QTLs) that explain most of the heritable variation in 38 traits. We combined our results with sequencing data for 1,011 yeast isolates3 to decouple variant effect size estimation from allele frequency and showed that rare variants make a disproportionate contribution to trait variation as a consequence of their larger effect sizes. Evolutionary analyses revealed that this contribution is driven by rare variants that arose recently, that such variants are more likely to decrease fitness, and that negative selection has shaped the relationship between variant frequency and effect size. Finally, we leveraged the structure of the crosses to resolve hundreds of QTLs to single genes. These results refine our understanding of trait variation at the population level and suggest that studies of rare variants are a fertile ground for discovery of genetic effects.

Published

2019

38. SiNPle: Fast and Sensitive Variant Calling for Deep Sequencing Data

Author

Luca Ferretti, Chandana Tennakoon, Adrian Silesian, Graham Freimanis, and Paolo Ribeca

Subjects

0301 basic medicine, Source code, lcsh:QH426-470, Genotyping Techniques, Computer science, media_common.quotation_subject, Posterior probability, Bayesian probability, Bayesian inference, Polymorphism, Single Nucleotide, Sensitivity and Specificity, DNA sequencing, Deep sequencing, Article, 03 medical and health sciences, 0302 clinical medicine, heterogeneous populations, Bayesian modelling, Prior probability, Genetics, Genetics (clinical), media_common, next generation sequencing, business.industry, High-Throughput Nucleotide Sequencing, Pattern recognition, Filter (signal processing), Sequence Analysis, DNA, lcsh:Genetics, 030104 developmental biology, 030220 oncology & carcinogenesis, DNA, Viral, Artificial intelligence, business, Bayesian modelling, Software, low-frequency variants, heterogeneous populations

Abstract

Current high-throughput sequencing technologies can generate sequence data and provide information on the genetic composition of samples at very high coverage. Deep sequencing approaches enable the detection of rare variants in heterogeneous samples, such as viral quasi-species, but also have the undesired effect of amplifying sequencing errors and artefacts. Distinguishing real variants from such noise is not straightforward. Variant callers that can handle pooled samples can be in trouble at extremely high read depths, while at lower depths sensitivity is often sacrificed to specificity. In this paper, we propose SiNPle (Simplified Inference of Novel Polymorphisms from Large coveragE), a fast and effective software for variant calling. SiNPle is based on a simplified Bayesian approach to compute the posterior probability that a variant is not generated by sequencing errors or PCR artefacts. The Bayesian model takes into consideration individual base qualities as well as their distribution, the baseline error rates during both the sequencing and the PCR stage, the prior distribution of variant frequencies and their strandedness. Our approach leads to an approximate but extremely fast computation of posterior probabilities even for very high coverage data, since the expression for the posterior distribution is a simple analytical formula in terms of summary statistics for the variants appearing at each site in the genome. These statistics can be used to filter out putative SNPs and indels according to the required level of sensitivity. We tested SiNPle on several simulated and real-life viral datasets to show that it is faster and more sensitive than existing methods. The source code for SiNPle is freely available to download and compile, or as a Conda/Bioconda package.

Published

2019

39. Homozygosity Haplotype and Whole-Exome Sequencing Analysis to Identify Potentially Functional Rare Variants Involved in Multiple Sclerosis among Sardinian Families.

Author

Fazia T, Marzanati D, Carotenuto AL, Beecham A, Hadjixenofontos A, McCauley JL, Saddi V, Piras M, Bernardinelli L, and Gentilini D

Subjects

Alleles, Female, Genome-Wide Association Study, Humans, Italy, Male, Pedigree, Polymorphism, Single Nucleotide, Genetic Predisposition to Disease, Genetic Variation, Haplotypes, Homozygote, Multiple Sclerosis diagnosis, Multiple Sclerosis genetics, Exome Sequencing

Abstract

Multiple Sclerosis (MS) is a complex multifactorial autoimmune disease, whose sex- and age-adjusted prevalence in Sardinia (Italy) is among the highest worldwide. To date, 233 loci were associated with MS and almost 20% of risk heritability is attributable to common genetic variants, but many low-frequency and rare variants remain to be discovered. Here, we aimed to contribute to the understanding of the genetic basis of MS by investigating potentially functional rare variants. To this end, we analyzed thirteen multiplex Sardinian families with Immunochip genotyping data. For five families, Whole Exome Sequencing (WES) data were also available. Firstly, we performed a non-parametric Homozygosity Haplotype analysis for identifying the Region from Common Ancestor (RCA). Then, on these potential disease-linked RCA, we searched for the presence of rare variants shared by the affected individuals by analyzing WES data. We found: ( i ) a variant (43181034 T > G) in the splicing region on exon 27 of CUL9 ; ( ii ) a variant (50245517 A > C) in the splicing region on exon 16 of ATP9A ; ( iii ) a non-synonymous variant (43223539 A > C), on exon 9 of TTBK1 ; ( iv ) a non-synonymous variant (42976917 A > C) on exon 9 of PPP2R5D ; and v ) a variant (109859349-109859354) in 3'UTR of MYO16.

Published

2021

40. [Application of latent class model in genetic association between ARID1A low-frequency variants and primary liver cancer].

Author

Pi LC, Lin XQ, Liu Q, Liu GY, Liu L, and Gao YH

Subjects

DNA-Binding Proteins, Humans, Latent Class Analysis, Mutation, Transcription Factors genetics, Liver Neoplasms genetics, Nuclear Proteins genetics

Abstract

Objective: To analyze the association between low-frequency variants of ARID1A gene and primary liver cancer using latent category model. Methods: The low-frequency variants of ARID1A gene was combined according to different functional areas, and the combined variables were analyzed by using the latent class model to obtain the latent variables. Then the logistic regression was used to analyze the association between low-frequency variants of ARID1A gene and primary liver cancer. Results: The low-frequency variants of ARID1A gene were divided into three categories by the latent class model. The class 1 was mainly unmutated population, the proportion was 94.2% (2 454/2 603). The class 2 was mainly transcriptional regulatory domain mutation, take 4.8% (124/2 603). The class 3 was dominantly exon mutation, about 1.0% (27/2 603). Using class 1 as a reference, it was found that mutations in the transcriptional regulatory domain could reduce the risk of liver cancer ( OR =0.601, 95% CI =0.364-0.992, P =0.046). Conclusion: The latent class model can identify low-frequency variants of gene associated with liver cancer and can be extended to more genetic association studies of low-frequency variants related to complex diseases.

Published

2021

41. A Comparison of the Likelihood Ratio Test and the Variance-Stabilising Transformation-Based Tests for Detecting Association of Rare Variants.

Author

Xing, Guan, Ku, Hung‐Chih, and Xing, Chao

Subjects

*LIKELIHOOD ratio tests, *ANALYSIS of variance, *COMPARATIVE studies, *CASE-control method, *PROBLEM solving

Abstract

In a recent paper in this journal, the use of variance-stabilising transformation techniques was proposed to overcome the problem of inadequacy in normality approximation when testing association for a low-frequency variant in a case-control study. It was shown that tests based on the variance-stabilising transformations are more powerful than Fisher's exact test while controlling for type I error rate. Earlier in the journal, another study had shown that the likelihood ratio test (LRT) is superior to Fisher's exact test, Wald's test, and Pearson's χ² test in testing association for low-frequency variants. Thus, it is of interest to make a direct comparison between the LRT and the tests based on the variance-stabilising transformations. In this commentary, we show that the LRT and the variance-stabilising transformation-based tests have comparable power greater than Fisher's exact test, Wald's test, and Pearson's χ² test. [ABSTRACT FROM AUTHOR]

Published

2013

42. Insights into metabolic disease from studying genetics in isolated populations:stories from Greece to Greenland

Author

Eleftheria Zeggini, Torben Hansen, and Anna L. Gloyn

Subjects

0301 basic medicine, Genetic variants, Endocrinology, Diabetes and Metabolism, Next-generation sequencing technology, Greenland, Low-frequency variants, Genome-wide association study, Review, Biology, Genome-wide association studies, 03 medical and health sciences, 0302 clinical medicine, Internal Medicine, Humans, Genetic Predisposition to Disease, Metabolic disease, Genetics, Greece, Genetic Predisposition to Disease/genetics, High-Throughput Nucleotide Sequencing, Type 2 diabetes, Human physiology, Isolated populations, 030104 developmental biology, Diabetes Mellitus, Type 2, Disease risk, Diabetes Mellitus, Type 2/genetics, 030217 neurology & neurosurgery, Genome-Wide Association Study

Abstract

Over the last 10 years substantial progress has been made in our understanding of the genetic basis for type 2 diabetes and related traits. These developments have been facilitated by technological advancements that have allowed comprehensive genome-wide assessments of the impact of common genetic variation on disease risk. Current efforts are now focused on extending this to genetic variants in the rare and low-frequency spectrum by capitalising on next-generation sequencing technologies. This review discusses the important contributions that studies in isolated populations are making to this effort for diabetes and metabolic disease, drawing on specific examples from populations in Greece and Greenland. This review summarises a presentation given at the ‘Exciting news in genetics of diabetes’ symposium at the 2015 annual meeting of the EASD, with topics presented by Eleftheria Zeggini and Torben Hansen, and an overview by the Session Chair, Anna Gloyn.

Published

2016

43. An Empirical Comparison of Joint and Stratified Frameworks for Studying G × E Interactions: Systolic Blood Pressure and Smoking in the CHARGE Gene-Lifestyle Interactions Working Group

Author

Sung, Y.J. (Yun Ju), Winkler, T.W. (Thomas W.), Manning, A.K. (Alisa), Aschard, H. (Hugues), Gudnason, V. (Vilmundur), Harris, T.B. (Tamara), Smith, A.V. (Albert Vernon), Boerwinkle, E.A. (Eric), Brown, M.R., Morrison, A.C. (Alanna), Fornage, M. (Myriam), Lin, L.-A. (Li-An), Richard, M. (Melissa), Bartz, T.M. (Traci M.), Psaty, B.M. (Bruce), Hayward, C. (Caroline), Polasek, O. (Ozren), Marten, J. (Jonathan), Rudan, I. (Igor), Feitosa, M.F. (Mary Furlan), Kraja, A. (Aldi), Province, M.A. (Mike), Deng, X. (Xuan), Fisher, V.A. (Virginia A.), Zhou, Y. (Yanhua), Bielak, L.F. (Lawrence F.), Smith, J.A. (Jennifer A), Huffman, J.E. (Jennifer), Padmanabhan, S. (Sandosh), Smith, B.H. (Blair), Ding, J. (Jingzhong), Liu, Y. (YongMei), Lohman, K. (Kurt), Bouchard, C. (Claude), Rankinen, T. (Tuomo), Rice, T.K. (Treva K.), Arnett, D.K. (Donna), Schwander, K., Guo, X. (Xiuqing), Palmas, W. (Walter), Rotter, J.I. (Jerome I.), Alfred, T. (Tamuno), Bottinger, E.P. (Erwin), Loos, R.J.F. (Ruth), Amin, N. (Najaf), Franco, O.H. (Oscar), Duijn, C.M. (Cornelia) van, Vojinović, D. (Dina), Chasman, D.I. (Daniel), Ridker, P.M. (Paul), Rose, L.M. (Lynda), Kardia, S.L.R. (Sharon), Zhu, X. (Xiaofeng), Rice, K.M. (Kenneth), Borecki, I.B. (Ingrid), Rao, D.C. (Dabeeru C.), Gauderman, W.J. (W. James), Cupples, L.A. (Adrienne), Sung, Y.J. (Yun Ju), Winkler, T.W. (Thomas W.), Manning, A.K. (Alisa), Aschard, H. (Hugues), Gudnason, V. (Vilmundur), Harris, T.B. (Tamara), Smith, A.V. (Albert Vernon), Boerwinkle, E.A. (Eric), Brown, M.R., Morrison, A.C. (Alanna), Fornage, M. (Myriam), Lin, L.-A. (Li-An), Richard, M. (Melissa), Bartz, T.M. (Traci M.), Psaty, B.M. (Bruce), Hayward, C. (Caroline), Polasek, O. (Ozren), Marten, J. (Jonathan), Rudan, I. (Igor), Feitosa, M.F. (Mary Furlan), Kraja, A. (Aldi), Province, M.A. (Mike), Deng, X. (Xuan), Fisher, V.A. (Virginia A.), Zhou, Y. (Yanhua), Bielak, L.F. (Lawrence F.), Smith, J.A. (Jennifer A), Huffman, J.E. (Jennifer), Padmanabhan, S. (Sandosh), Smith, B.H. (Blair), Ding, J. (Jingzhong), Liu, Y. (YongMei), Lohman, K. (Kurt), Bouchard, C. (Claude), Rankinen, T. (Tuomo), Rice, T.K. (Treva K.), Arnett, D.K. (Donna), Schwander, K., Guo, X. (Xiuqing), Palmas, W. (Walter), Rotter, J.I. (Jerome I.), Alfred, T. (Tamuno), Bottinger, E.P. (Erwin), Loos, R.J.F. (Ruth), Amin, N. (Najaf), Franco, O.H. (Oscar), Duijn, C.M. (Cornelia) van, Vojinović, D. (Dina), Chasman, D.I. (Daniel), Ridker, P.M. (Paul), Rose, L.M. (Lynda), Kardia, S.L.R. (Sharon), Zhu, X. (Xiaofeng), Rice, K.M. (Kenneth), Borecki, I.B. (Ingrid), Rao, D.C. (Dabeeru C.), Gauderman, W.J. (W. James), and Cupples, L.A. (Adrienne)

Abstract

Studying gene-environment (G × E) interactions is important, as they extend our knowledge of the genetic architecture of complex traits and may help to identify novel variants not detected via analysis of main effects alone. The main statistical framework for studying G × E interactions uses a single regression model that includes both the genetic main and G × E interaction effects (the “joint” framework). The alternative “stratified” framework combines results from genetic main-effect analyses carried out separately within the exposed and unexposed groups. Although there have been several investigations using theory and simulation, an empirical comparison of the two frameworks is lacking. Here, we compare the two frameworks using results from genome-wide association studies of systolic blood pressure for 3.2 million low frequency and 6.5 million common variants across 20 cohorts of European ancestry, comprising 79,731 individuals. Our cohorts have sample sizes ranging from 456 to 22,983 and include both family-based and population-based samples. In cohort-specific analyses, the two frameworks provided similar inference for population-based cohorts. The agreement was reduced for family-based cohorts. In meta-analyses, agreement between the two frameworks was less than that observed in cohort-specific analyses, despite the increased sample size. In meta-analyses, agreement depended on (1) the minor allele frequency, (2) inclusion of family-based cohorts in meta-analysis, and (3) filtering scheme. The stratified framework appears to approximate the joint framework well only for common variants in population-based cohorts. We conclude that the joint framework is the preferred approach and should be used to control false positives when dealing with low-frequency variants and/or family-based cohorts.

Published

2016

44. Searching for solutions to the missing heritability problem.

Author

Pallares LF

Subjects

Multifactorial Inheritance, Genome-Wide Association Study, Quantitative Trait Loci

Abstract

Rare genetic variants in yeast explain a large amount of phenotypic variation in a complex trait like growth., Competing Interests: LP No competing interests declared, (© 2019, Pallares.)

Published

2019

45. SiNPle: Fast and Sensitive Variant Calling for Deep Sequencing Data.

Author

Ferretti, Luca, Tennakoon, Chandana, Silesian, Adrian, Freimanis, Graham, and Ribeca, Paolo

Subjects

*SOURCE code, *ERROR rates, *DISTRIBUTION (Probability theory)

Abstract

Current high-throughput sequencing technologies can generate sequence data and provide information on the genetic composition of samples at very high coverage. Deep sequencing approaches enable the detection of rare variants in heterogeneous samples, such as viral quasi-species, but also have the undesired effect of amplifying sequencing errors and artefacts. Distinguishing real variants from such noise is not straightforward. Variant callers that can handle pooled samples can be in trouble at extremely high read depths, while at lower depths sensitivity is often sacrificed to specificity. In this paper, we propose SiNPle (Simplified Inference of Novel Polymorphisms from Large coveragE), a fast and effective software for variant calling. SiNPle is based on a simplified Bayesian approach to compute the posterior probability that a variant is not generated by sequencing errors or PCR artefacts. The Bayesian model takes into consideration individual base qualities as well as their distribution, the baseline error rates during both the sequencing and the PCR stage, the prior distribution of variant frequencies and their strandedness. Our approach leads to an approximate but extremely fast computation of posterior probabilities even for very high coverage data, since the expression for the posterior distribution is a simple analytical formula in terms of summary statistics for the variants appearing at each site in the genome. These statistics can be used to filter out putative SNPs and indels according to the required level of sensitivity. We tested SiNPle on several simulated and real-life viral datasets to show that it is faster and more sensitive than existing methods. The source code for SiNPle is freely available to download and compile, or as a Conda/Bioconda package. [ABSTRACT FROM AUTHOR]

Published

2019

46. A novel haplotype of low-frequency variants in the aldosterone synthase gene among northern Han Chinese with essential hypertension

Author

Changchun Qiu, Li Zhou, Xueyan Li, Mingyu Cong, Keyong Zhang, Qi Zhang, Jingping Li, Ningning Wang, Nan Wu, Hao Zhang, and Ming Jin

Subjects

Male, 0301 basic medicine, Aldosterone synthase, China, haplotype, Observational Study, Single-nucleotide polymorphism, 030204 cardiovascular system & hematology, Essential hypertension, Polymorphism, Single Nucleotide, Renin-Angiotensin System, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Gene Frequency, Cytochrome P-450 CYP11B2, Humans, Medicine, Genetic Predisposition to Disease, genetics, Allele frequency, Genetics, Aldosterone, biology, business.industry, Haplotype, essential hypertension, Case-control study, General Medicine, Middle Aged, medicine.disease, Genotype frequency, CYP11B2, 030104 developmental biology, Haplotypes, chemistry, Case-Control Studies, Hypertension, biology.protein, Female, business, low-frequency variants, Research Article

Abstract

Low-frequency variants showed that there is more power to detect risk variants than to detect protective variants in complex diseases. Aldosterone plays an important role in the renin–angiotensin–aldosterone system, and aldosterone synthase catalyzes the speed-controlled steps of aldosterone biosynthesis. Polymorphisms of the aldosterone synthase gene (CYP11B2) have been reported to be associated with essential hypertension (EH). CYP11B2 polymorphisms such as –344T/C, have been extensively reported, but others are less well known. This study aimed to assess the association between human CYP11B2 and EH using a haplotype-based case–control study. A total of 1024 EH patients and 956 normotensive controls, which consist of north Han population peasants, were enrolled. Seven single nucleotide polymorphisms (SNPs) (rs28659182, rs10087214, rs73715282, rs542092383, rs4543, rs28491316, and rs7463212) covering the entire human CYP11B2 gene were genotyped as markers using the MassARRAY system. The major allele G frequency of rs542092383 was found to be risk against hypertension [odds ratio (OR) 3.478, 95% confidence interval (95% CI) 1.407–8.597, P = .004]. The AG genotype frequency of SNP rs542092383 was significantly associated with an increased risk of hypertension (OR 4.513, 95% CI 1.426–14.287, P = .010). In the haplotype-based case–control analysis, the frequency of the T-G-T haplotype was higher for EH patients than for controls (OR 5.729, 95% CI 1.889–17.371, P = .000495). All |D′| values of the seven SNPs were >0.9, and r2 values for rs28659182- rs10087214-rs28491316-rs7463212 SNPs were >0.8 and showed strong linkage intensity. Haplotype T-G-T may therefore be a useful genetic marker for EH.

Published

2017

47. IL10 low-frequency variants in Behçet's disease patients

Author

Manuel Salgado, Filipe Barcelos, Nádia Rei, Fereydoun Davatchi, Gorete Jesus, José Vaz Patto, Maria Francisca Moraes-Fontes, Farhad Shahram, Fahmida Ghaderibarmi, Jorge Crespo, Abdolhadi Nadji, Joana Vedes, Sofia A. Oliveira, Patrícia Abrantes, Niloofar Mojarad Shafiee, Joana M. Xavier, Inês Sousa, Bahar Sadeghi Abdollahi, Mafalda Matos, and Repositório da Universidade de Lisboa

Subjects

0301 basic medicine, Untranslated region, Adult, Genetic Markers, Male, HCC DAUTOIM, DNA Mutational Analysis, Low-frequency variants, Single-nucleotide polymorphism, Biology, Iran, Polymerase Chain Reaction, Polymorphism, Single Nucleotide, 03 medical and health sciences, Young Adult, Rheumatology, Gene Frequency, Mutation Rate, Missing heritability problem, Risk Factors, Sequencing, Humans, Genetic Predisposition to Disease, Gene, Genetic Association Studies, Genetic association, Genetics, Behçet's disease, Portugal, Behcet Syndrome, Intron, Middle Aged, 3. Good health, Interleukin-10, Minor allele frequency, 030104 developmental biology, Phenotype, Susceptibility, Case-Control Studies, Mutation, Female, Common disease-common variant, IL10

Abstract

© 2014 Asia Pacific League of Associations for Rheumatology and Wiley Publishing Asia Pty Ltd., Aim: To explain the missing heritability after the genome-wide association studies era, sequencing studies allow the identification of low-frequency variants with a stronger effect on disease risk. Common variants in the interleukin 10 gene (IL10) have been consistently associated with Behçet's disease (BD) and the goal of this study is to investigate the role of low-frequency IL10 variants in BD susceptibility. Methods: To identify IL10 low-frequency variants, a discovery group of 50 Portuguese BD patients were Sanger-sequenced in a 7.7 kb genomic region encompassing the complete IL10 gene, 0.9 kb upstream and 2 kb downstream, and two conserved regions in the putative promoter. To assess if the novel variants are BD- and/or Portuguese-specific, they were assayed in an additional group of BD patients (26 Portuguese and 964 Iranian) and controls (104 Portuguese and 823 Iranian). Results: Rare IL10 coding variants were not detected in BD patients, but we identified 28 known single nucleotide polymorphisms with minor allele frequencies ranging from 0.010 to 0.390, and five novel non-coding variants in five heterozygous cases. ss836185595, located in the IL10 3' untranslated region, was also detected in one Iranian control individual and therefore is not specific to BD. The remaining novel IL10 variants (ss836185596 and ss836185602 in intron 3, ss836185598 and ss836185604 in the putative promoter region) were not found in the replication dataset. Conclusion: This study highlights the importance of screening the whole gene and regulatory regions when searching for novel variants associated with complex diseases, and the need to develop bioinformatics tools to predict the functional impact of non-coding variants and statistical tests which incorporate these predictions., This work was supported by the Portuguese Fundação para a Ciência e a Tecnologia (grant PTDC/SAU-GMG/098937/2008, fellowships SFRH/BD/43895/2008 to JMX, SFRH/BPD/35737/2007 to PA, SFRH/BPD/70008/2010 to IS, a Ciência and an Investigator-FCT contract to SAO) and the Research Committee of the Tehran University of Medical Sciences (grant 132/714).

Published

2014

48. Extensive impact of low-frequency variants on the phenotypic landscape at population-scale.

Author

Fournier T, Abou Saada O, Hou J, Peter J, Caudal E, and Schacherer J

Subjects

Alleles, Biological Evolution, Chimera, Chromosome Mapping, Crosses, Genetic, Phenotype, Saccharomyces cerevisiae metabolism, Selection, Genetic, Genetic Variation, Genome, Fungal, Quantitative Trait Loci, Quantitative Trait, Heritable, Saccharomyces cerevisiae genetics

Abstract

Genome-wide association studies (GWAS) allow to dissect complex traits and map genetic variants, which often explain relatively little of the heritability. One potential reason is the preponderance of undetected low-frequency variants. To increase their allele frequency and assess their phenotypic impact in a population, we generated a diallel panel of 3025 yeast hybrids, derived from pairwise crosses between natural isolates and examined a large number of traits. Parental versus hybrid regression analysis showed that while most phenotypic variance is explained by additivity, a third is governed by non-additive effects, with complete dominance having a key role. By performing GWAS on the diallel panel, we found that associated variants with low frequency in the initial population are overrepresented and explain a fraction of the phenotypic variance as well as an effect size similar to common variants. Overall, we highlighted the relevance of low-frequency variants on the phenotypic variation., Competing Interests: TF, OA, JH, JP, EC, JS No competing interests declared, (© 2019, Fournier et al.)

Published

2019

49. Exome array analysis identifies ETFB as a novel susceptibility gene for anthracycline-induced cardiotoxicity in cancer patients.

Author

Ruiz-Pinto S, Pita G, Martín M, Alonso-Gordoa T, Barnes DR, Alonso MR, Herraez B, García-Miguel P, Alonso J, Pérez-Martínez A, Cartón AJ, Gutiérrez-Larraya F, García-Sáenz JA, Benítez J, Easton DF, Patiño-García A, and González-Neira A

Subjects

Adult, Aged, Breast Neoplasms complications, Breast Neoplasms drug therapy, Breast Neoplasms pathology, Cancer Survivors, Cardiotoxicity physiopathology, Exome genetics, Female, Gene Expression Regulation, Neoplastic, Genetic Association Studies, Genetic Predisposition to Disease, Heart Failure chemically induced, Heart Failure genetics, Heart Failure pathology, Humans, Middle Aged, Mitochondria drug effects, Mitochondria pathology, Anthracyclines adverse effects, Breast Neoplasms genetics, Cardiotoxicity genetics, Electron-Transferring Flavoproteins genetics

Abstract

Purpose: Anthracyclines are widely used chemotherapeutic drugs that can cause progressive and irreversible cardiac damage and fatal heart failure. Several genetic variants associated with anthracycline-induced cardiotoxicity (AIC) have been identified, but they explain only a small proportion of the interindividual differences in AIC susceptibility., Methods: In this study, we evaluated the association of low-frequency variants with risk of chronic AIC using the Illumina HumanExome BeadChip array in a discovery cohort of 61 anthracycline-treated breast cancer patients with replication in a second independent cohort of 83 anthracycline-treated pediatric cancer patients, using gene-based tests (SKAT-O)., Results: The most significant associated gene in the discovery cohort was ETFB (electron transfer flavoprotein beta subunit) involved in mitochondrial β-oxidation and ATP production (P = 4.16 × 10 -4 ) and this association was replicated in an independent set of anthracycline-treated cancer patients (P = 2.81 × 10 -3 ). Within ETFB, we found that the missense variant rs79338777 (p.Pro52Leu; c.155C > T) made the greatest contribution to the observed gene association and it was associated with increased risk of chronic AIC in the two cohorts separately and when combined (OR 9.00, P = 1.95 × 10 -4 , 95% CI 2.83-28.6)., Conclusions: We identified and replicated a novel gene, ETFB, strongly associated with chronic AIC independently of age at tumor onset and related to anthracycline-mediated mitochondrial dysfunction. Although experimental verification and further studies in larger patient cohorts are required to confirm our finding, we demonstrated that exome array data analysis represents a valuable strategy to identify novel genes contributing to the susceptibility to chronic AIC.

Published

2018

50. Low-frequency nonsynonymous variants in FKBPL and ARPC1B genes are associated with breast cancer risk in Chinese women.

Author

Zhou W, Jiang Y, Zhu M, Hang D, Chen J, Zhou J, Dai J, Ma H, Hu Z, Jin G, Sha J, and Shen H

Subjects

Adult, Asian People genetics, Breast pathology, Breast Neoplasms diagnosis, Breast Neoplasms epidemiology, Case-Control Studies, China epidemiology, Female, Gene Frequency, Genetic Predisposition to Disease, Genome-Wide Association Study, Genotype, Humans, Middle Aged, Tacrolimus Binding Proteins, Actin-Related Protein 2-3 Complex genetics, Breast Neoplasms genetics, Immunophilins genetics, Polymorphism, Genetic

Abstract

Genome-wide association studies have reported more than 100 independent common loci associated with breast cancer risk. The contribution of low-frequency or rare variants to breast cancer susceptibility has not been well explored. Thus, we applied exome chip to genotype >200 000 low-frequency and rare variants in 1064 breast cancer cases and 1125 cancer-free controls and subsequently validated promising associations in another 1040 breast cancer cases and 1240 controls. We identified two low-frequency nonsynonymous variants at FKBPL (rs200847762, OR = 0.34, 95% CI = 0.20-0.57, P = 4.31 × 10 -5 ) and ARPC1B (rs1045012, OR = 0.56, 95% CI = 0.43-0.74, P = 4.30 × 10 -5 ) associated with breast cancer risk. In stratification analyses, we found that the protective effect of rs200847762 was stronger in ER-positive breast cancer (OR = 0.18, 95% CI = 0.06-0.42) than that in ER-negative one (OR = 0.59, 95% CI = 0.31-1.05). Our findings indicate that low-frequency variants may also contribute to breast cancer susceptibility and genetic variants in 6p21.33 and 7q22.1 are important in breast carcinogenesis. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published

2017