Abstract

OF CORE UNIT 1. Overview The role for this core is to support all the projects in their requirements for genome-wide expression analysis, single nucleotide polymorphism (SNP)^ analysis, gene mapping and sequencing. Support will be provided by several means with emphasis placed on: 1) Expression analysis by micro-array, 2) high volume scoring of SNP and, in some cases, microsatellite polymorphisms in humans and mice;and 3) the processing and analysis of dideoxy-terminated sequencing reactions produced by the individual projects. In addition, the core will aid the projects in the preparation of expression, genotype and sequence data in formats most useful for further analysis. These data will be formatted for forwarding to the Biostatistics Core (Core C). For followup investigation of individual genes, the core will assist the projects in qPCR and analysis by R-QTL. State-of-the-art genotyping and expression analysis, with its reliance specialized equipment and partial automation, is most efficiently carried out in a core laboratory that is staffed by experienced personnel and that is specifically organized for this work. The centralization of genotyping in Core B will both increase efficiency and decrease supply costs for the Program Project by allowing high throughput technologies and allowing bulk purchases of reagents.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Program Projects (P01)
Project #
5P01HL028481-28
Application #
8378153
Study Section
Heart, Lung, and Blood Initial Review Group (HLBP)
Project Start
Project End
Budget Start
2012-07-01
Budget End
2013-06-30
Support Year
28
Fiscal Year
2012
Total Cost
$277,411
Indirect Cost
$97,274

  Institution

Name
University of California Los Angeles
Department
Type
DUNS #
092530369
City
Los Angeles
State
CA
Country
United States
Zip Code
90095

  Publications

Miao, Zong; Alvarez, Marcus; Pajukanta, Päivi et al. (2018) ASElux: an ultra-fast and accurate allelic reads counter. Bioinformatics 34:1313-1320
Kurt, Zeyneb; Barrere-Cain, Rio; LaGuardia, Jonnby et al. (2018) Tissue-specific pathways and networks underlying sexual dimorphism in non-alcoholic fatty liver disease. Biol Sex Differ 9:46
Orozco, Luz D; Farrell, Colin; Hale, Christopher et al. (2018) Epigenome-wide association in adipose tissue from the METSIM cohort. Hum Mol Genet 27:1830-1846
Chella Krishnan, Karthickeyan; Kurt, Zeyneb; Barrere-Cain, Rio et al. (2018) Integration of Multi-omics Data from Mouse Diversity Panel Highlights Mitochondrial Dysfunction in Non-alcoholic Fatty Liver Disease. Cell Syst 6:103-115.e7
Freund, Malika Kumar; Burch, Kathryn S; Shi, Huwenbo et al. (2018) Phenotype-Specific Enrichment of Mendelian Disorder Genes near GWAS Regions across 62 Complex Traits. Am J Hum Genet 103:535-552
Pan, David Z; Garske, Kristina M; Alvarez, Marcus et al. (2018) Integration of human adipocyte chromosomal interactions with adipose gene expression prioritizes obesity-related genes from GWAS. Nat Commun 9:1512
Small, Kerrin S; Todor?evi?, Marijana; Civelek, Mete et al. (2018) Regulatory variants at KLF14 influence type 2 diabetes risk via a female-specific effect on adipocyte size and body composition. Nat Genet 50:572-580
Mangul, Serghei; Yang, Harry Taegyun; Strauli, Nicolas et al. (2018) ROP: dumpster diving in RNA-sequencing to find the source of 1 trillion reads across diverse adult human tissues. Genome Biol 19:36
Cantor, Rita; Navarro, Linda; Pan, Calvin (2018) Identifying fenofibrate responsive CpG sites. BMC Proc 12:43
Rahmani, Elior; Schweiger, Regev; Shenhav, Liat et al. (2018) BayesCCE: a Bayesian framework for estimating cell-type composition from DNA methylation without the need for methylation reference. Genome Biol 19:141

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