Abstract

As one of the NHGRI Centers for Common Disease Genomics, NYGC plans to sequence at least 2500 whole human genomes this year, focused on families with simplex autism. As outlined in our original proposal, we plan to apply multiple methods to call single nucleotide variants (SNVs), copy number variants (CNVs), and other structural variants (SVs) in these genomes. Our goal over the span of the project is to develop a comprehensive view of the genomic architecture of autism (and other disease projects taken on over the course of the project). However, while our data analysis pipeline is already well suited to this application, as we believe those of other CCDGs are well suited to their studies, these pipelines do not currently produce functionally identical results. We believe, as laid out in the GSP Data Working Group proposal ?Accelerated Genome Aggregation and Joint Variant Calling Effort?, that generating functionally identical primary processing and uniform variant call sets across all the CCDG sequencing efforts will provide significant value to the CCDGs, the CCDG analysis centers, and the broader genomic research community. These efforts are completely consistent with the original proposal, as the standardized pipeline results and uniform call sets will be directly applicable our downstream analysis of autism samples. Further, this will add greater value to the entire data set by allowing use of common controls across multiple disease working groups. Finally, we propose to work with the other sequencing centers and the coordinating center to build a common cloud data repository for data exchange, long term storage, and potentially cloud-based analysis.

Public Health Relevance

As one of the NHGRI Centers for Common Disease Genomics, NYGC plans to sequence at least 2500 whole human genomes this year, focused on families with simplex autism. As outlined in our original proposal, we plan to apply multiple methods to call single nucleotide variants (SNVs), copy number variants (CNVs), and other structural variants (SVs) in these genomes. Our goal over the span of the project is to develop a comprehensive view of the genomic architecture of autism (and other disease projects taken on over the course of the project).

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Human Genome Research Institute (NHGRI)
Type
Research Project with Complex Structure Cooperative Agreement (UM1)
Project #
3UM1HG008901-03S1
Application #
9696084
Study Section
Program Officer
Felsenfeld, Adam
Project Start
2018-08-14
Project End
2018-11-30
Budget Start
2018-08-14
Budget End
2018-11-30
Support Year
3
Fiscal Year
2018
Total Cost
Indirect Cost

  Institution

Name
New York Genome Center
Department
Type
DUNS #
078473711
City
New York
State
NY
Country
United States
Zip Code
10013

  Publications

Castel, Stephane E; Cervera, Alejandra; Mohammadi, Pejman et al. (2018) Modified penetrance of coding variants by cis-regulatory variation contributes to disease risk. Nat Genet 50:1327-1334
Jereb, Saša; Hwang, Hun-Way; Van Otterloo, Eric et al. (2018) Differential 3' Processing of Specific Transcripts Expands Regulatory and Protein Diversity Across Neuronal Cell Types. Elife 7:
Regier, Allison A; Farjoun, Yossi; Larson, David E et al. (2018) Functional equivalence of genome sequencing analysis pipelines enables harmonized variant calling across human genetics projects. Nat Commun 9:4038
Yuan, Yuan; Xie, Shirley; Darnell, Jennifer C et al. (2018) Cell type-specific CLIP reveals that NOVA regulates cytoskeleton interactions in motoneurons. Genome Biol 19:117
Mak, Angel C Y; White, Marquitta J; Eckalbar, Walter L et al. (2018) Whole-Genome Sequencing of Pharmacogenetic Drug Response in Racially Diverse Children with Asthma. Am J Respir Crit Care Med 197:1552-1564
Willems, Thomas; Zielinski, Dina; Yuan, Jie et al. (2017) Genome-wide profiling of heritable and de novo STR variations. Nat Methods 14:590-592
Huang, Yi-Fei; Gulko, Brad; Siepel, Adam (2017) Fast, scalable prediction of deleterious noncoding variants from functional and population genomic data. Nat Genet 49:618-624
Turner, Tychele N; Coe, Bradley P; Dickel, Diane E et al. (2017) Genomic Patterns of De Novo Mutation in Simplex Autism. Cell 171:710-722.e12
Kim-Hellmuth, Sarah; Bechheim, Matthias; Pütz, Benno et al. (2017) Genetic regulatory effects modified by immune activation contribute to autoimmune disease associations. Nat Commun 8:266
Mohammadi, Pejman; Castel, Stephane E; Brown, Andrew A et al. (2017) Quantifying the regulatory effect size of cis-acting genetic variation using allelic fold change. Genome Res 27:1872-1884

Showing the most recent 10 out of 14 publications