ABSTRACT: Identification and functional impact of genomic copy number variants in zebrafish, an important human disease model (Zebrafish Strain CNVs) (CGH ZV81M)
Project description:This SuperSeries is composed of the following subset Series: GSE28239: Identification and functional impact of genomic copy number variants in zebrafish, an important human disease model (Zebrafish Strain CNVs) (expression array) GSE28276: Identification and functional impact of genomic copy number variants in zebrafish, an important human disease model (Zebrafish Strain CNVs) (CGH ZV81M) GSE28278: Identification and functional impact of genomic copy number variants in zebrafish, an important human disease model (Zebrafish Strain CNVs) (CGH ZV81M 2) GSE33962: Extensive genetic diversity and substructuring among zebrafish strains revealed through copy number variant analysis (CGH) Refer to individual Series
Project description:Identification and functional impact of genomic copy number variants in zebrafish, an important human disease model (Zebrafish Strain CNVs) (CGH ZV81M 2)
Project description:Identification and functional impact of genomic copy number variants in zebrafish, an important human disease model (Zebrafish Strain CNVs) (expression array)
Project description:Copy number variants (CNVs) represent a substantial source of genomic variation in vertebrates, but the zebrafish reference genome has no annotated CNV information. We further analyzed zebrafish CNVs using pooled samples of 10 zebrafish each from three laboratory strains (AB, Tubingen, and WIK) to identify strain specific CNVs between groups.
Project description:Copy number variants (CNVs) represent a substantial source of genomic variation in vertebrates, but the zebrafish reference genome has no annotated CNV information. We further analyzed zebrafish CNVs using pooled samples of 10 zebrafish each from three laboratory strains (AB, Tubingen, and WIK) to identify strain specific CNVs between groups. 10 zebrafish from 3 laboratory strains were pooled and run against the other pooled samples resulting in three array combinations.
Project description:To determine the involvement of Copy Number Variants (CNVs) in the origin of male infertility, patients with idiopathic severe oligozoospermia, Sertoli-cell-only syndrome and controls with normozoospermia were analysed by array CGH using the 244A/400K array sets (Agilent Technologies).
