Your search keyword '"DRASAR, P."' showing total 2 results

1. Global genetic architecture of an erythroid quantitative trait locus, HMIP-2.

Author

Menzel, Stephan, Rooks, Helen, Zelenika, Diana, Mtatiro, Siana N, Gnanakulasekaran, Akshala, Drasar, Emma, Cox, Sharon, Liu, Li, Masood, Mariam, Silver, Nicholas, Garner, Chad, Vasavda, Nisha, Howard, Jo, Makani, Julie, Adekile, Adekunle, Pace, Betty, Spector, Tim, Farrall, Martin, Lathrop, Mark, and Thein, Swee Lay

Subjects

Erythrocytes, Humans, Anemia, Sickle Cell, Proto-Oncogene Proteins c-myb, Sequence Analysis, DNA, Genetics, Population, Genotype, Haplotypes, Alleles, Quantitative Trait Loci, Genome, Human, African Continental Ancestry Group, European Continental Ancestry Group, Enhancer Elements, Genetic, Genetic Association Studies, Gene-Environment Interaction, Red blood cells, cMYB, gene enhancer variant, malaria, population genetics, quantitative trait locus, sickle cell disease, CMYB, Gene enhancer variant, Malaria, Population genetics, Quantitative trait locus, Sickle cell disease, Genetics & Heredity, Clinical Sciences

Abstract

HMIP-2 is a human quantitative trait locus affecting peripheral numbers, size and hemoglobin composition of red blood cells, with a marked effect on the persistence of the fetal form of hemoglobin, HbF, in adults. The locus consists of multiple common variants in an enhancer region for MYB (chr 6q23.3), which encodes the hematopoietic transcription factor cMYB. Studying a European population cohort and four African-descended groups of patients with sickle cell anemia, we found that all share a set of two spatially separate HbF-promoting alleles at HMIP-2, termed "A" and "B." These typically occurred together ("A-B") on European chromosomes, but existed on separate homologous chromosomes in Africans. Using haplotype signatures for "A" and "B," we interrogated public population datasets. Haplotypes carrying only "A" or "B" were typical for populations in Sub-Saharan Africa. The "A-B" combination was frequent in European, Asian, and Amerindian populations. Both alleles were infrequent in tropical regions, possibly undergoing negative selection by geographical factors, as has been reported for malaria with other hematological traits. We propose that the ascertainment of worldwide distribution patterns for common, HbF-promoting alleles can aid their further genetic characterization, including the investigation of gene-environment interaction during human migration and adaptation.

Published

2014

2. Global Genetic Architecture of an Erythroid Quantitative Trait Locus, HMIP‐2

Author

Menzel, Stephan, Rooks, Helen, Zelenika, Diana, Mtatiro, Siana N, Gnanakulasekaran, Akshala, Drasar, Emma, Cox, Sharon, Liu, Li, Masood, Mariam, Silver, Nicholas, Garner, Chad, Vasavda, Nisha, Howard, Jo, Makani, Julie, Adekile, Adekunle, Pace, Betty, Spector, Tim, Farrall, Martin, Lathrop, Mark, and Thein, Swee Lay

Subjects

Rare Diseases, Human Genome, Clinical Research, Biotechnology, Sickle Cell Disease, Hematology, Genetics, Aetiology, 2.1 Biological and endogenous factors, Blood, Good Health and Well Being, Alleles, Anemia, Sickle Cell, Black People, Enhancer Elements, Genetic, Erythrocytes, Gene-Environment Interaction, Genetic Association Studies, Genetics, Population, Genome, Human, Genotype, Haplotypes, Humans, Proto-Oncogene Proteins c-myb, Quantitative Trait Loci, Sequence Analysis, DNA, White People, Red blood cells, quantitative trait locus, population genetics, malaria, sickle cell disease, cMYB, gene enhancer variant, CMYB, Gene enhancer variant, Malaria, Population genetics, Quantitative trait locus, Sickle cell disease, Clinical Sciences, Genetics & Heredity

Abstract

HMIP-2 is a human quantitative trait locus affecting peripheral numbers, size and hemoglobin composition of red blood cells, with a marked effect on the persistence of the fetal form of hemoglobin, HbF, in adults. The locus consists of multiple common variants in an enhancer region for MYB (chr 6q23.3), which encodes the hematopoietic transcription factor cMYB. Studying a European population cohort and four African-descended groups of patients with sickle cell anemia, we found that all share a set of two spatially separate HbF-promoting alleles at HMIP-2, termed "A" and "B." These typically occurred together ("A-B") on European chromosomes, but existed on separate homologous chromosomes in Africans. Using haplotype signatures for "A" and "B," we interrogated public population datasets. Haplotypes carrying only "A" or "B" were typical for populations in Sub-Saharan Africa. The "A-B" combination was frequent in European, Asian, and Amerindian populations. Both alleles were infrequent in tropical regions, possibly undergoing negative selection by geographical factors, as has been reported for malaria with other hematological traits. We propose that the ascertainment of worldwide distribution patterns for common, HbF-promoting alleles can aid their further genetic characterization, including the investigation of gene-environment interaction during human migration and adaptation.

Published

2014