Unraveling the 800,000-Year-Old Love Affair: Why We Can’t Resist Delicious Carbs!

N-Ninja
6 Min Read

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The ancient DNA of our ancestors may⁣ have significantly influenced our affinity for carbohydrates such as bread, pasta, and rice. It has been established that humans possess multiple copies of genes responsible⁤ for initiating the breakdown of complex carbohydrates ⁤in the oral cavity. While this initial phase of starch digestion is well understood, determining when and how these carbohydrate-processing genes⁤ proliferated has proven more challenging.

Recent studies ‍suggest that‌ early ‌duplications of the salivary amylase⁤ gene (AMY1) may date back over ‍800,000 years—long before the advent of agriculture. These duplications paved the way for a diverse range ⁣of genetic variations that continue to aid in starch ​digestion today. The research findings were published on October 17 in an advanced ​online issue ⁤of the journal​ Science.

The Role of Amylase

Amylase is a ⁢crucial digestive enzyme responsible ‍for converting starch into glucose, which serves as an​ energy source ​for our bodies. ⁤This‌ enzyme ‌is produced by both salivary glands ⁢and​ the pancreas‌ and contributes‌ to the⁢ flavor profile of bread.

According to Omer Gokcumen, co-author and evolutionary anthropologist at the University at Buffalo,​ “The premise is straightforward: having more amylase genes enables greater production of amylase itself, thereby ⁣enhancing one’s ability to digest starch ‌effectively.”

[Related:[Related:[Related:[Related:The role farming played​ in human evolution ‌towards better carbohydrate utilization.]

In ⁤their research, Gokcumen’s team employed optical genome mapping alongside long-read sequencing‍ techniques to analyze the ⁤ AMY1 gene region. Traditional short-read sequencing often struggles ​with accurately distinguishing ‌between closely related‌ gene copies due to their similar sequences; ⁤however, long-read sequencing provided clearer insights into how AMY1⁢ duplications have evolved throughout history.

The researchers ⁤examined genomes from 68 ancient ⁣humans—including a specimen from Siberia dating back 45,000 years—and discovered that ​pre-agricultural hunter-gatherers possessed an average range between four⁣ to eight AMY1 copies per diploid cell. This ‌indicates ⁢that early Eurasian humans had already developed significant genetic diversity concerning AMY1 long before they began cultivating starchy crops like wheat.

Additionally, it was found that⁣ both‍ Neanderthals and Denisovans exhibited AMY1 gene duplications.

Kwondo⁣ Kim—a computational biologist at The Jackson Laboratory for Genomic Medicine—stated: ‍“This implies that AMY1 likely underwent its ‌first duplication over 800 millennia ago; this predates humanity’s divergence from Neanderthals ⁤by a considerable margin.”

The research team posits that these early genomic duplications laid down a foundation for significant variations within the amylase region.‍ This adaptation enabled ‍our species to respond effectively to substantial dietary‌ shifts⁢ as ​starchy food consumption increased dramatically over time.

Catalyzing Genetic Diversity

The ‍initial ‌duplication event involving AMY1 can be likened to knocking over a domino—the first action triggering subsequent changes leading toward vast genetic opportunities ⁢shaping⁤ human evolution.‌ As‌ populations migrated across various⁤ climates ⁤with distinct food sources,

the variability in AMY1 copy numbers​ facilitated adaptations toward new ⁣diets rich in starches.

‘Following this primary⁤ duplication event resulting ‌in⁢ three copies per⁣ cell,’ explained Charikleia Karageorgiou—a co-author and‌ evolutionary geneticist at Buffalo University—’the locus associated with amylase became unstable and began generating​ new variants.’ She added: ‘From three copies you could see numbers rise up to nine or revert back down.’ ⁤


an illustration depicting two strands of ‍wheat alongside a genetic sequence

A visual representation illustrating how variations ⁢within amylase genes evolved influencing human capacity for⁣ digesting complex‌ carbohydrates like pasta or bread.CREDIT:The Jackson⁣ Laboratory.

THE STUDIES ‍ALSO ‌REVEAL HOW AGRICULTURE INFLUENCED VARIATIONS IN THE⁤ AMYLASE‌ GENES.EARLY HUNTER-GATHERERS HAD MULTIPLE COPIES OF ‍THIS GENE,BUT OVER THE LAST FOUR THOUSAND YEARS,A SURGE IN ​AVERAGE COPY NUMBERS WAS OBSERVED WITHIN EARLY EUROPEAN FARMERS.THIS IS LIKELY ATTRIBUTABLE TO THEIR‍ STARCH-RICH ⁣DIETS.PREVIOUS RESEARCH HAS SHOWN THAT DOMESTICATED⁤ ANIMALS LIVING ALONGSIDE HUMANS TEND TO HAVE HIGHER NUMBERS OF THE AMYLASE COPY COMPARED TO THOSE NOT RELIANT ON STARCH-DENSE DIETS.

“Individuals possessing higher counts regarding their number Of Copies Were Likely More Efficient At Digesting Starch And Consequently Had Greater⁣ Reproductive Success,” stated ⁤Gokcumen.“Over Extended Evolutionary Timescales Their Lineages Ultimately Outperformed Those With Fewer Copies ​Propagating Higher Numbers Of The ‌Am Y One Gene.”


[Related:[Related:[Related:[Related: SPECIALISTS CONSTRUCT A COMPLEX NEOLITHIC FAMILY TREE FROM SEVEN THOUSAND YEAR OLD DNA STRANDS STRANDS STRONG > .]

THESE FINDINGS ALIGN WITH A STUDY PUBLISHED LAST⁢ MONTH ⁢WHICH INDICATED THAT EUROPEAN HUMANS HAVE EXPANDED THEIR AVERAGE NUMBER ​OF COPIES FROM FOUR TO SEVEN ⁣OVER TWELVE THOUSAND YEARS.

“CONSIDERING THE ⁢SIGNIFICANT ROLE ⁣PLAYED BY VARIATION IN THE NUMBER OF COPIES FOR HUMAN EVOLUTION THIS GENETIC DIVERSITY OFFERS AN EXCITING AVENUE FOR INVESTIGATION INTO ITS IMPACT ON METABOLIC HEALTH AND UNDERSTANDING MECHANISMS INVOLVED WITH STARCH DIGESTION AND GLUCOSE METABOLISM,” SAID FEYZAYILMAZ,A COMPUTATIONAL SCIENTIST ​AT JACKSON LABORATORY.AND SHE⁢ ADDED,“FUTURE INVESTIGATIONS COULD UNCOVER PRECISE EFFECTS ​AS ‍WELL AS TIMING SELECTION⁢ PROVIDING VALUABLE ‍INSIGHTS INTO GENETICS,NUTRITION AND HEALTH.”

THE POSTOUR APPRECIATION FOR TASTEFUL CARBOHYDRATES MAY​ DATE​ BACK EIGHT HUNDRED THOUSAND YEARS APPEARED FIRST ONPOPULAR SCIENCE
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SOURCE
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