Genome-wide association study and a post replication analysis revealed a promising genomic region and candidate genes for chicken eggshell blueness
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Xuemei Deng | Chang-xin Wu | Yuanyuan Zhang | Junying Li | Jianfei Chen | S. B. Dalirsefat | Xianggui Dong | Guoying Hua | Hesham Y. A. Darwish | Jianxiong Li | Jiansheng Xu
[1] E. Stelzer,et al. Endogenous AJAP1 associates with the cytoskeleton and attenuates angiogenesis in endothelial cells , 2017, Biology Open.
[2] N. Yang,et al. Genome-wide association study revealed a promising region and candidate genes for eggshell quality in an F2 resource population , 2015, BMC Genomics.
[3] B. Fee,et al. Adherens junctional associated protein-1: a novel 1p36 tumor suppressor candidate in gliomas (Review). , 2014, International journal of oncology.
[4] J. Rosenbaum,et al. Centrosomal protein CEP104 (Chlamydomonas FAP256) moves to the ciliary tip during ciliary assembly , 2013, Journal of Cell Science.
[5] O. Hanotte,et al. Endogenous Retrovirus EAV-HP Linked to Blue Egg Phenotype in Mapuche Fowl , 2013, PloS one.
[6] Xiao-Tong Wang,et al. An EAV-HP Insertion in 5′ Flanking Region of SLCO1B3 Causes Blue Eggshell in the Chicken , 2013, PLoS genetics.
[7] R. McLendon,et al. Deletion or Epigenetic Silencing of AJAP1 on 1p36 in Glioblastoma , 2012, Molecular Cancer Research.
[8] Ning Yang,et al. A Genome-Wide SNP Scan Reveals Novel Loci for Egg Production and Quality Traits in White Leghorn and Brown-Egg Dwarf Layers , 2011, PloS one.
[9] N. Sparks. Eggshell Pigments–from Formation to Deposition , 2011 .
[10] M. Goddard,et al. Genome-wide association studies for feedlot and growth traits in cattle. , 2011, Journal of animal science.
[11] F. Westermann,et al. CAMTA1, a 1p36 tumor suppressor candidate, inhibits growth and activates differentiation programs in neuroblastoma cells. , 2011, Cancer research.
[12] A. Morris,et al. Data quality control in genetic case-control association studies , 2010, Nature Protocols.
[13] Darell D. Bigner,et al. Integrated genomic analyses identify ERRFI1 and TACC3 as glioblastoma-targeted genes , 2010, Oncotarget.
[14] Yue Zhang,et al. CD137 Promotes Proliferation and Survival of Human B Cells , 2009, The Journal of Immunology.
[15] Dai Wang,et al. Comparison of methods for correcting population stratification in a genome-wide association study of rheumatoid arthritis: principal-component analysis versus multidimensional scaling , 2009, BMC proceedings.
[16] K. Engels,et al. E-cadherin surface levels in epithelial growth factor-stimulated cells depend on adherens junction protein shrew-1. , 2009, Molecular biology of the cell.
[17] L. Lian,et al. Comparison of the total amount of eggshell pigments in Dongxiang brown-shelled eggs and Dongxiang blue-shelled eggs. , 2009, Poultry science.
[18] L. Andersson. Genome-wide association analysis in domestic animals: a powerful approach for genetic dissection of trait loci , 2009, Genetica.
[19] E. Gillanders,et al. Establishing an adjusted p-value threshold to control the family-wide type 1 error in genome wide association studies , 2008, BMC Genomics.
[20] Qizhai Li,et al. Improved correction for population stratification in genome‐wide association studies by identifying hidden population structures , 2008, Genetic epidemiology.
[21] L. Lian,et al. Study of the deposition process of eggshell pigments using an improved dissolution method. , 2007, Poultry science.
[22] Manuel A. R. Ferreira,et al. PLINK: a tool set for whole-genome association and population-based linkage analyses. , 2007, American journal of human genetics.
[23] D. Reich,et al. Population Structure and Eigenanalysis , 2006, PLoS genetics.
[24] D. Reich,et al. Principal components analysis corrects for stratification in genome-wide association studies , 2006, Nature Genetics.
[25] N. Yang,et al. A study on eggshell pigmentation: biliverdin in blue-shelled chickens. , 2006, Poultry science.
[26] Kristin K Nicodemus,et al. Comparison of type I error for multiple test corrections in large single-nucleotide polymorphism studies using principal components versus haplotype blocking algorithms , 2005, BMC Genetics.
[27] M. Daly,et al. Haploview: analysis and visualization of LD and haplotype maps , 2005, Bioinform..
[28] Tom H. Pringle,et al. The human genome browser at UCSC. , 2002, Genome research.
[29] F. Silversides,et al. The effect of storage and strain of hen on egg quality. , 2000, Poultry science.
[30] K. Roeder,et al. Genomic Control for Association Studies , 1999, Biometrics.
[31] Ross Ihaka,et al. Gentleman R: R: A language for data analysis and graphics , 1996 .
[32] R. Frankham. Introduction to quantitative genetics (4th edn): by Douglas S. Falconer and Trudy F.C. Mackay Longman, 1996. £24.99 pbk (xv and 464 pages) ISBN 0582 24302 5 , 1996 .
[33] F. Blanco,et al. ILA, a member of the human nerve growth factor/tumor necrosis factor receptor family, regulates T-lymphocyte proliferation and survival. , 1996, Blood.
[34] J. W. Wells,et al. A Review of eggshell pigmentation , 1987 .
[35] Cornelius Ce,et al. Biliverdin and bilirubin excretion in the turkey. , 1975 .
[36] H. G. Vevers,et al. Eggshell pigments of the Araucano fowl. , 1973, Comparative biochemistry and physiology. B, Comparative biochemistry.
[37] C. Punnett. Genetic studies in poultry , 1933, Journal of Genetics.
[38] R. McLendon,et al. Cancer Genes and Genomics Deletion or Epigenetic Silencing of AJAP 1 on 1 p 36 in Glioblastoma , 2012 .
[39] Junya Li,et al. Discover of a Novel SNP Highly Associated with Chicken Blue Egg , 2011 .
[40] H. Kang,et al. Supplementary Text : Rapid and Accurate Multiple Testing Correction and Power Estimation for Millions of Correlated Markers , 2009 .
[41] J. A. Himes,et al. Biliverdin and bilirubin excretion in the turkey. , 1975, The Cornell veterinarian.