Add to ORKGHuman genetic variation is often biologically relevant, particularly when it influences (or is influenced by) health outcomes. For example, human genetic variation can modulate disease aetiology as in the case ofhomozygous beta sickle gene (βS/βS or sickle cell) pathology. Conversely, health outcomes, such as the frequency and duration of homozygous sickle cell pathology, can change affected group gene frequencies by selectively targeting and culling specific genotypes in a group, such as clinically more severe βS Bantu/βS Bantu versions of the βS gene, thereby changing future patterns of genetic variation in this gene
Medical Genetics over the past few decades have emerged as an important and powerful medical special...
Descriptions of human genetic variation given thirty years ago have held up well, considering the su...
Genetics is a complex and rapidly evolving field that plays a critical role in our understanding of ...
Human genetic variation is often biologically relevant, particularly when it influences (o...
Molecular and genetic approaches now provide powerful tools for investigating the origin of human po...
Research to understand human genomic variation and its implications in health has great potential to...
This book describes the remarkable progress which has been made in defining the extent and nature of...
Africa is the ultimate source of modern humans and as such harbors more genetic variation than any o...
The genomic revolution has generated an extraordinary resource, the catalog of variation within the ...
The human species attained a high technological development, which enables it to induce important al...
Human populations are polymorphic for many loci. The inhabitants of different regions of the earth c...
Estimated human genetic diversity is 0.1%, meaning that any two individuals differ at approximately ...
Africa is the ultimate source of modern humans and as such harbors more genetic variation than any o...
Identifying the causes of similarities and differences in genetic disease prevalence among humans is...
The EMBO/EMBL symposium 'Human Variation: Cause and Consequence' highlighted advances in understandi...
Medical Genetics over the past few decades have emerged as an important and powerful medical special...
Descriptions of human genetic variation given thirty years ago have held up well, considering the su...
Genetics is a complex and rapidly evolving field that plays a critical role in our understanding of ...
Human genetic variation is often biologically relevant, particularly when it influences (o...
Molecular and genetic approaches now provide powerful tools for investigating the origin of human po...
Research to understand human genomic variation and its implications in health has great potential to...
This book describes the remarkable progress which has been made in defining the extent and nature of...
Africa is the ultimate source of modern humans and as such harbors more genetic variation than any o...
The genomic revolution has generated an extraordinary resource, the catalog of variation within the ...
The human species attained a high technological development, which enables it to induce important al...
Human populations are polymorphic for many loci. The inhabitants of different regions of the earth c...
Estimated human genetic diversity is 0.1%, meaning that any two individuals differ at approximately ...
Africa is the ultimate source of modern humans and as such harbors more genetic variation than any o...
Identifying the causes of similarities and differences in genetic disease prevalence among humans is...
The EMBO/EMBL symposium 'Human Variation: Cause and Consequence' highlighted advances in understandi...
Medical Genetics over the past few decades have emerged as an important and powerful medical special...
Descriptions of human genetic variation given thirty years ago have held up well, considering the su...
Genetics is a complex and rapidly evolving field that plays a critical role in our understanding of ...