Tag: Population Genetics

When diversity is good for disease

By Razib Khan | April 15, 2010 8:01 am

ResearchBlogging.orgYesterday I pointed to a new paper, Plasmodium vivax clinical malaria is commonly observed in Duffy-negative Malagasy people. P. vivax is the least virulent of the malaria inducing pathogens, and it is presumably responsible for the fact that the Duffy antigen locus is one of the more ancestrally informative ones in the human genome. In most of Eurasia the the Duffy negative null allele* is present at very low frequencies, less than 5%, and often simply absent. In contrast, in Sub-Saharan Africa the Duffy negative variant reaches frequencies as high as 95% in West Africa, and and 90% in many other regions. In North Africa and the Middle East the frequencies are intermediate, likely due to the necessity for local adaptation to malaria in many regions, and the historical introduction of the Duffy negative allele via the slave trade.

_47495404__47060392_rajoelina_afp-1Before genomics, looking at the Duffy locus was one simple way that geneticists ascertained the proportion of white admixture in the African American population. The Duffy negative allele was nearly absent in Europeans, and present in frequencies of ~95% in West Africa. Therefore, the ~70% frequency in African Americans indicates what we know from other sources, a substantial minority European contribution to their ancestry. The people of Madagascar are similar insofar as they are a byproduct of admixture between African and non-African populations. The source of the non-African ancestry is rather easy to determine, unlike most African countries Madagascar has one language, Malagasy, and it is of the Barito family of languages. Aside from Malagasy the Barito languages are spoke only in a small region of southern Borneo in Indonesia. There are other aspects of the Malagasy culture which make their Southeast Asian provenance clear. The photo above is of Andry Rajoelina, the current President of Madagascar. Two aspects of his visage are salient, his youth (he used to be a disk jockey!), and the fact that his features do not seem typical Sub-Saharan African. Many of the leaders of Madagascar, including the former royal family, are from the highlands where Asiatic features and folkways are more prevalent.

But there is also a clear African component to the Malagasy, more obvious among coastal populations, but also possibly dominant in a genetic sense in terms of proportion to the Asian according to research using uniparental markers. An analysis of Y lineage Fst genetic distances suggests that the Malagasy are, on the whole, somewhat closer to East Africans than to people from Borneo. I stipulate on the whole because as implied above there seems to be regional variation, which Southeast Asian ancestry and culture least hybridized with a Sub-Saharan African in the central highlands, likely for ecological reasons.
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CATEGORIZED UNDER: Evolution, Genetics, Genomics, Science

Natural selection & recombination in the human genome

By Razib Khan | March 26, 2010 11:28 am

If you are like me, and if you are reading this weblog there is a significant probability you are like me, you read L. L. Cavalli-Sforza‘s History and Geography of Human Genes in the 1990s, and in the early aughts Spencer Wells’ A Journey of Man. Science has come very far in the last in the last 10-15 years, even Cavalli-Sforza’s magnum opus pales in comparison to the literal tsunami of data and analysis which the “post-genomic era” has ushered in. Instead of a gene here and there, or even the mtDNA and Y chromosome, researchers are now looking at hundreds of thousands of genetic variants, SNPs, across genomes. We’re rapidly approaching the era of whole genome sequencing, even if we’re not quite there yet.

But what’s the purpose of advances in technique and computation? Though the long-term project is to understand human variation and genetic function so as to have biomedical utility, in the short-term there is an enormous wealth of more abstract population genetic insight which can be extracted. Because of the biomedical focus of contemporary genomics we take a somewhat anthropocentric view, which is fine by me as I am an unregenerate speciest. The fish, fowl and crawling things of the earth can come later. And in any case, the beauty of the human focus of modern evolutionary genomics is that there are whole disciplines such as paleoanthropology which can serve as partners in interdisciplinary projects.

Humans are like any other organism, buffeted by conventional evolutionary genetic dynamics, drift, migration, natural selection, as well as processes which are more biophysically rooted such as recombination and mutation. Each of these processes leave their tell-tale marks on the genome. Mutation replenishes variation which drift and selection often eliminate, the former by chance and the latter in the form of negative selection. Migration serves to homogenize across populations through gene flow, while diversifying within populations by introducing novel variants. Finally, recombination breaks up linear associations of genetic variants along a DNA sequence, and has been used to explain sex.

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CATEGORIZED UNDER: Genetics, Genomics, Science
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This blog is about evolution, genetics, genomics and their interstices. Please beware that comments are aggressively moderated. Uncivil or churlish comments will likely get you banned immediately, so make any contribution count!
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