Your search keyword '"Banerjee, Nilanjana"' showing total 4 results

1. Exome sequencing and analysis of 454,787 UK Biobank participants

Author

Backman, Joshua D., Li, Alexander H., Marcketta, Anthony, Sun, Dylan, Mbatchou, Joelle, Kessler, Michael D., Benner, Christian, Liu, Daren, Locke, Adam E., Balasubramanian, Suganthi, Yadav, Ashish, Banerjee, Nilanjana, Gillies, Christopher E., Damask, Amy, Liu, Simon, Bai, Xiaodong, and Hawes, Alicia

Subjects

Exome sequencing -- Methods, Genetic variation -- Identification and classification, Gene banks -- Usage, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

A major goal in human genetics is to use natural variation to understand the phenotypic consequences of altering each protein-coding gene in the genome. Here we used exome sequencing.sup.1 to explore protein-altering variants and their consequences in 454,787 participants in the UK Biobank study.sup.2. We identified 12 million coding variants, including around 1 million loss-of-function and around 1.8 million deleterious missense variants. When these were tested for association with 3,994 health-related traits, we found 564 genes with trait associations at P [less than or equal to] 2.18 × 10.sup.-11. Rare variant associations were enriched in loci from genome-wide association studies (GWAS), but most (91%) were independent of common variant signals. We discovered several risk-increasing associations with traits related to liver disease, eye disease and cancer, among others, as well as risk-lowering associations for hypertension (SLC9A3R2), diabetes (MAP3K15, FAM234A) and asthma (SLC27A3). Six genes were associated with brain imaging phenotypes, including two involved in neural development (GBE1, PLD1). Of the signals available and powered for replication in an independent cohort, 81% were confirmed; furthermore, association signals were generally consistent across individuals of European, Asian and African ancestry. We illustrate the ability of exome sequencing to identify gene-trait associations, elucidate gene function and pinpoint effector genes that underlie GWAS signals at scale. Whole-exome sequencing analysis of 454,787 individuals in the UK Biobank is used to examine the association of protein-coding variants with nearly 4,000 health-related traits, identifying 564 distinct genes with significant trait associations., Author(s): Joshua D. Backman [sup.1] , Alexander H. Li [sup.1] , Anthony Marcketta [sup.1] , Dylan Sun [sup.1] , Joelle Mbatchou [sup.1] , Michael D. Kessler [sup.1] , Christian Benner [...]

Published

2021

2. Author Correction: Common and rare variant associations with clonal haematopoiesis phenotypes

Author

Kessler, Michael D., Damask, Amy, O’Keeffe, Sean, Banerjee, Nilanjana, Li, Dadong, Watanabe, Kyoko, Marketta, Anthony, Van Meter, Michael, Semrau, Stefan, Horowitz, Julie, Tang, Jing, Kosmicki, Jack A., Rajagopal, Veera M., Zou, Yuxin, Houvras, Yariv, Ghosh, Arkopravo, Gillies, Christopher, Mbatchou, Joelle, White, Ryan R., Verweij, Niek, Bovijn, Jonas, Parikshak, Neelroop N., LeBlanc, Michelle G., Jones, Marcus, Glass, David J., Lotta, Luca A., Cantor, Michael N., Atwal, Gurinder S., Locke, Adam E., Ferreira, Manuel A. R., Deering, Raquel, Paulding, Charles, Shuldiner, Alan R., Thurston, Gavin, Ferrando, Adolfo A., Salerno, Will, Reid, Jeffrey G., Overton, John D., Marchini, Jonathan, Kang, Hyun M., Baras, Aris, Abecasis, Gonçalo R., and Jorgenson, Eric

Subjects

Multidisciplinary, Author Correction

Published

2023

3. Common and rare variant associations with clonal haematopoiesis phenotypes.

Author

Kessler, Michael D., Damask, Amy, O’Keeffe, Sean, Banerjee, Nilanjana, Li, Dadong, Watanabe, Kyoko, Marketta, Anthony, Van Meter, Michael, Semrau, Stefan, Horowitz, Julie, Tang, Jing, Kosmicki, Jack A., Rajagopal, Veera M., Zou, Yuxin, Houvras, Yariv, Ghosh, Arkopravo, Gillies, Christopher, Mbatchou, Joelle, White, Ryan R., and Verweij, Niek

Abstract

Clonal haematopoiesis involves the expansion of certain blood cell lineages and has been associated with ageing and adverse health outcomes1–5. Here we use exome sequence data on 628,388 individuals to identify 40,208 carriers of clonal haematopoiesis of indeterminate potential (CHIP). Using genome-wide and exome-wide association analyses, we identify 24 loci (21 of which are novel) where germline genetic variation influences predisposition to CHIP, including missense variants in the lymphocytic antigen coding gene LY75, which are associated with reduced incidence of CHIP. We also identify novel rare variant associations with clonal haematopoiesis and telomere length. Analysis of 5,041 health traits from the UK Biobank (UKB) found relationships between CHIP and severe COVID-19 outcomes, cardiovascular disease, haematologic traits, malignancy, smoking, obesity, infection and all-cause mortality. Longitudinal and Mendelian randomization analyses revealed that CHIP is associated with solid cancers, including non-melanoma skin cancer and lung cancer, and that CHIP linked to DNMT3A is associated with the subsequent development of myeloid but not lymphoid leukaemias. Additionally, contrary to previous findings from the initial 50,000 UKB exomes6, our results in the full sample do not support a role for IL-6 inhibition in reducing the risk of cardiovascular disease among CHIP carriers. Our findings demonstrate that CHIP represents a complex set of heterogeneous phenotypes with shared and unique germline genetic causes and varied clinical implications.Exome sequence data from 628,388 individuals was used to identify 24 risk loci in 40,208 carriers of clonal haematopoiesis of indeterminate potential and link them to other conditions including COVID-19, cardiovascular disease and cancer. [ABSTRACT FROM AUTHOR]

Published

2022

4. Exome sequencing and characterization of 49,960 individuals in the UK Biobank.

Author

Van Hout, Cristopher V., Tachmazidou, Ioanna, Backman, Joshua D., Hoffman, Joshua D., Liu, Daren, Pandey, Ashutosh K., Gonzaga-Jauregui, Claudia, Khalid, Shareef, Ye, Bin, Banerjee, Nilanjana, Li, Alexander H., O'Dushlaine, Colm, Marcketta, Anthony, Staples, Jeffrey, Schurmann, Claudia, Hawes, Alicia, Maxwell, Evan, Barnard, Leland, Lopez, Alexander, and Penn, John

Abstract

The UK Biobank is a prospective study of 502,543 individuals, combining extensive phenotypic and genotypic data with streamlined access for researchers around the world1. Here we describe the release of exome-sequence data for the first 49,960 study participants, revealing approximately 4 million coding variants (of which around 98.6% have a frequency of less than 1%). The data include 198,269 autosomal predicted loss-of-function (LOF) variants, a more than 14-fold increase compared to the imputed sequence. Nearly all genes (more than 97%) had at least one carrier with a LOF variant, and most genes (more than 69%) had at least ten carriers with a LOF variant. We illustrate the power of characterizing LOF variants in this population through association analyses across 1,730 phenotypes. In addition to replicating established associations, we found novel LOF variants with large effects on disease traits, including PIEZO1 on varicose veins, COL6A1 on corneal resistance, MEPE on bone density, and IQGAP2 and GMPR on blood cell traits. We further demonstrate the value of exome sequencing by surveying the prevalence of pathogenic variants of clinical importance, and show that 2% of this population has a medically actionable variant. Furthermore, we characterize the penetrance of cancer in carriers of pathogenic BRCA1 and BRCA2 variants. Exome sequences from the first 49,960 participants highlight the promise of genome sequencing in large population-based studies and are now accessible to the scientific community. Exome sequences from the first 49,960 participants in the UK Biobank highlight the promise of genome sequencing in large population-based studies and are now accessible to the scientific community. [ABSTRACT FROM AUTHOR]

Published

2020