Genes from ancestors protecting against infectious diseases persist in modern humans, despite being linked to metabolic and immune diseases.
Like a merchant of old, balancing the weights of two different commodities on a scale, nature can keep different genetic traits in balance as a species evolves over millions of years. The theory behind these evolutionary trade-offs is called balancing selection. A University at Buffalo-led study published in eLife explores this phenomenon by analyzing thousands of modern human genomes alongside ancient hominin groups, such as Neanderthal and Denisovan genomes.
‘The balancing act of human evolution can make different genetic traits either beneficial or harmful depending on the environment.’
The research has implications for understanding human diversity, the origin of diseases, and biological trade-offs that may have shaped our evolution.The study shows that many biologically relevant variants have been segregating among our ancestors for hundreds of thousands, or even millions, of years. These ancient variations are our shared legacy as a species.
Genetic Ties With Ancestors Stronger Than Previously Thought
The work builds upon genetic discoveries in the past decade, including when scientists uncovered that modern humans and Neanderthals interbred as early humans moved out of Africa.It also coincides with the growth of personalized genetic testing, with many people now claiming that a small percentage of their genome comes from Neanderthals. But, the new study show, humans share much more in common with Neanderthals than those small percentages indicate.
This additional sharing can be traced back to a common ancestor of Neanderthals and humans that lived about 700,000 years ago. This common ancestor bequeathed to the Neanderthals and modern humans a shared legacy in the form of genetic variation.
The research team explored this ancient genetic legacy, focusing on a particular type of genetic variation: deletions. Deletions are strange because they affect large segments. Some of us are missing large chunks of our genome.
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Gene Variations Passed Down Over Millions of Years
Researchers used computational models to show an excess of these ancient deletions, some of which have persisted since our ancestors first learned to make tools, some 2.6 million years ago. Furthermore, the models found that balancing selection can explain this surplus of ancient deletions.This study contributes to the growing body of evidence suggesting that balancing selection may be an important force in the evolution of genomic variation among humans. They found that deletions dating back millions of years are more likely to play an outsized role in metabolic and autoimmune conditions.
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These variations may protect against infectious diseases, outbreaks, and starvation, which have occurred periodically throughout human history. Thus, the findings represent a considerable leap in our understanding of how genetic variations evolve in humans.
Source-Eurekalert