Ancient Egyptian man's genome reveals his society's cross-cultural ties
(Reuters) -DNA obtained from the remains of a man who lived in ancient Egypt around the time the first pyramids were built is providing evidence of the ties between two great cultures of the period, with a fifth of his genetic ancestry traced to Mesopotamia.
Although based on a single genome, the findings offer unique insight into the genetic history of ancient Egyptians - a difficult task considering that Egypt's hot climate is not conducive to DNA preservation.
The researchers extracted DNA from the roots of two teeth, part of the man's skeletal remains that had been interred for millennia inside a large sealed ceramic vessel within a rock-cut tomb. They then managed to sequence his whole genome, a first for any person who lived in ancient Egypt.
The man lived roughly 4,500-4,800 years ago, the researchers said, around the beginning of a period of prosperity and stability called the Old Kingdom, known for the construction of immense pyramids as monumental pharaonic tombs.
The ceramic vessel was excavated in 1902 at a site called Nuwayrat near the village of Beni Hassan, approximately 170 miles (270 km) south of Cairo. The researchers said the man was about 60 years old when he died, and that aspects of his skeletal remains hinted at the possibility that he had worked as a potter.
The DNA showed that the man descended mostly from local populations, with about 80% of his ancestry traced to Egypt or adjacent parts of North Africa. But about 20% of his ancestry was traced to a region of the ancient Near East called the Fertile Crescent that included Mesopotamia.
"This suggests substantial genetic connections between ancient Egypt and the eastern Fertile Crescent," said population geneticist Adeline Morez Jacobs of Liverpool John Moores University in England and the Francis Crick Institute in London, lead author of the study published on Wednesday in the journal Nature.
The findings build on the archaeological evidence of trade and cultural exchanges between ancient Egypt and Mesopotamia, a region spanning modern-day Iraq and parts of Iran and Syria.
During the third millennium BC, Egypt and Mesopotamia were at the vanguard of human civilization, with achievements in writing, architecture, art, religion and technology.
Egypt showed cultural connections with Mesopotamia, based on some shared artistic motifs, architecture and imports like lapis lazuli, the blue semiprecious stone, the researchers said.
The pottery wheel from Mesopotamia first appeared in Egypt at about the time the man lived, a period when the earliest pyramids began to spring up near modern-day Cairo, starting with the Step Pyramid of the pharaoh Djoser at Saqqara and later the Great Pyramid of the pharaoh Khufu at Giza.
About 90% of the man's skeleton was preserved. He stood about 5-foot-3 (1.59 meters) tall, with a slender build. He also had conditions consistent with older age such as osteoporosis and osteoarthritis, as well as a large unhealed abscess from tooth infection.
"Ancient DNA recovery from Egyptian remains has been exceptionally challenging due to Egypt's hot climate that accelerates DNA degradation, with high temperatures breaking down genetic material over time compared to cooler, more stable environments," Francis Crick Institute population geneticist and study co-author Pontus Skoglund said.
"In this case, the individual's burial in a ceramic pot vessel within a rock-cut tomb likely contributed to the unusual DNA preservation for the region," Skoglund added.
The fact that his burial occurred before mummification became standard practice in Egypt may have helped avoid DNA degradation because his remains were spared elaborate preservation techniques.
Scientists have struggled to recover ancient Egyptian genomes, according to paleogeneticist and study co-author Linus Girdland Flink of the University of Aberdeen in Scotland. One previous effort yielded partial genome sequencing of three individuals who lived some 1,500 years after the Nuwayrat man.
Given the track record, the researchers were surprised with their success in sequencing the man's genome.
"Yeah, it was a long shot," Skoglund said.
The man may have worked as a potter or in a trade with similar movements because his bones had muscle markings from sitting for long periods with outstretched limbs.
"All indicators are consistent with movements and positions of a potter, as indicated in ancient Egyptian imagery," said bioarcheologist and study co-author Joel Irish. "He would have been of high status to have been buried in a rock-cut tomb. This conflicts with his hard physical life and conjecture that he was a potter, which would ordinarily have been working class. Perhaps he was an excellent potter."
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
19 minutes ago
- Yahoo
First Human Genome from Ancient Egypt Sequenced from 4,800-Year-Old Teeth
Teeth from an elderly man who lived around the time that the earliest pyramids were built have yielded the first full human genome sequence from ancient Egypt. The remains are 4,800 to 4,500 years old, overlapping with a period in Egyptian history known as the Old Kingdom or the Age of Pyramids. They harbour signs of ancestry similar to that of other ancient North Africans, as well as of people from the Middle East, researchers report today in Nature. 'It's incredibly exciting and important,' says David Reich, a population geneticist at Harvard Medical School in Boston, Massachusetts, who was not involved in the study. 'We always hoped we would get our first ancient DNA from mummies.' [Sign up for Today in Science, a free daily newsletter] Numerous labs have tried to extract DNA from ancient Egyptian remains. In 1985, evolutionary geneticist Svante Pääbo reported the first ancient DNA sequences from any human: several thousand DNA letters from a 2,400-year-old Egyptian mummy of a child. But Pääbo, who won a Nobel prize in 2022 for other work, later realized that the sequences were contaminated with modern DNA — possibly his own. A 2017 study generated limited genome data from three Egyptian mummies that lived between 3,600 and 2,000 years ago. The hot North African climate speeds up the breakdown of DNA, and the mummification process might also accelerate it, said Pontus Skoglund, a palaeogeneticist at the Francis Crick Institute in London who co-led the Nature study, at a press briefing. 'Mummified individuals are probably not a great way to preserve DNA.' The remains that Skoglund's team sequenced pre-date widespread mummification: the person was interred instead in a ceramic pot, a sign of high, but not elite, status. The remains were found at an archaeological site called Nuwayrat, 265 kilometres south of Cairo along the Nile river. The teeth and bones were discovered in 1902, when Egypt was under British colonial rule. They were donated to institutions in Liverpool, UK, where they have been ever since, even surviving German bombing during the Second World War. Skoglund says his expectations were low when his team extracted DNA from several teeth from the Nuwayrat individual. But two samples contained enough authentic ancient DNA to generate a full genome sequence. Y-chromosome sequences indicated that the remains belonged to a male. The majority of his DNA resembled that of early farmers from the Neolithic period of North Africa around 6,000 years ago. The rest most closely matched people in Mesopotamia, a historical Middle Eastern region that was home to the ancient Sumerian civilization, and was where some of the first writing systems emerged. It's not clear whether this implies a genetic direct link between members of Mesopotamian cultures and people in ancient Egypt — also hinted at by similarities in some cultural artefacts — or whether the man's Mesopotamian ancestry arrived through other unsampled populations, the researchers say. The rest of the ancient Egyptian man's bones revealed more details about his life. Evidence of arthritis and osteoporosis suggest he died at an advanced age for the time, possibly in his sixties. Other signs of wear indicate a life of physical toil, sitting hunched over on hard surfaces. On the basis of this and imagery from other tombs from this period, he might have been a potter, said co-author Joel Irish, a bioarchaeologist at Liverpool John Moores University, at the press briefing. 'The publication of a whole-genome data set of an ancient Egyptian constitutes a significant achievement in the field of molecular Egyptology,' says Yehia Gad, a geneticist at Egypt's National Research Centre in Cairo, who praises the researchers for presenting the provenance of the remains clearly. But he points out that the genome is from one individual and might not fully represent ancient Egypt's gene pool, which was probably a melting pot of different ancestries. For this reason, researchers are eager for more ancient Egyptian genome data — perhaps even from a mummy. Advances in ancient-genomics technology and local capacity — Gad supervises an ancient DNA lab at the National Museum of Egyptian Civilization in Cairo — means it hopefully won't take another 40 years. This article is reproduced with permission and was first published on July 2, 2025.
Yahoo
19 minutes ago
- Yahoo
Our gut bacteria can absorb and remove toxic 'forever chemicals' — at least in lab mice
When you buy through links on our articles, Future and its syndication partners may earn a commission. Researchers have identified gut bacteria that can absorb toxic "forever chemicals" in lab mice, according to a new study, potentially offering up a way to control PFAS levels in humans. PFAS, or perfluoroalkyl and polyfluoroalkyl substances, are synthetic chemicals used in a variety of products, from non-stick cooking pans to cosmetics. These substances are often nicknamed "forever chemicals" because they have strong chemical bonds that don't easily break down in nature and, in some cases, stick around for thousands of years. As a result, these chemicals pose a major pollution concern, both in our environment and in our own bodies. Our drinking water and agricultural systems are already contaminated with PFAS to some degree, and as some of these chemicals can be absorbed through the skin and into our blood, there's no keeping them out of our bodies. Scientists are still untangling the health implications of PFAS, but exposure has been linked to various potential harms, including an increased risk of some cancers and disruptions to our immune system. However, our bodies may also have a way of protecting themselves from these chemicals. The new study, published Tuesday (July 1) in the journal Nature Microbiology, investigated how human gut bacteria interacted with PFAS and found that nine species could effectively fend off the chemicals, at least in lab mice. The bacteria absorbed a good chunk of common PFAS that the mice were exposed to, which was then excreted in the mice's feces. While there's a lot more work to be done, these findings suggest that we may be able to employ some bacterial species to control forever chemicals. "The reality is that PFAS are already in the environment and in our bodies, and we need to try and mitigate their impact on our health now," study co-author Indra Roux, a researcher in the Medical Research Council (MRC) Toxicology Unit at the University of Cambridge, said in a statement. "We haven't found a way to destroy PFAS, but our findings open the possibility of developing ways to get them out of our bodies where they do the most harm." Related: How worried should we be about PFAS, the 'forever chemicals'? PFAS resist water, oil and heat, making them useful in many different products. Today, there are thousands of different chemicals under the PFAS umbrella. While they are being phased out of some industries, like food packaging, many already exist in the environment and aren't going anywhere anytime soon. To explore how gut bacteria interact with PFAS, the researchers first identified nine bacterial species that could absorb these chemicals and then gave those species to lab mice. The mice were then exposed to PFAS, including the common perfluorooctanoic acid (PFOA) and perfluorononanoic acid (PFNA). The bacteria absorbed between 25% and 74% of PFNA and 23% to 58% of PFOA, according to the study. Accumulated PFAS didn't seem to affect the bacteria much. The PFAS aggregated (grouped together) in dense clusters within the bacteria, which appeared to minimize their impact on vital cell processes, according to the study. "We found that certain species of human gut bacteria have a remarkably high capacity to soak up PFAS from their environment at a range of concentrations, and store these in clumps inside their cells," senior study author Kiran Patil, an investigator within the University of Cambridge's MRC Toxicology Unit, said in the statement. "Due to aggregation of PFAS in these clumps, the bacteria themselves seem protected from the toxic effects." RELATED STORIES —PFAS 'forever chemicals' to officially be removed from food packaging, FDA says —Scientists find a simple way to destroy 'forever chemicals' — by beheading them —PFAS can absorb through the skin, potentially threatening our health, study finds The researchers noted in the study that their experiments involved giving mice a one-time dosage of PFAS, while humans — and other animals — typically experience low but chronic exposure to the chemicals. Lawrence Wackett, a professor of biochemistry at the University of Minnesota Twin Cities who wasn't involved in the study, told Live Science in an email that the research was "particularly interesting" in light of another study published June 13 in the journal PNAS, which found that human gut microbial enzymes can break down carbon–fluorine bonds — the strong bonds present in PFAS. "Taken together, there might be both sequestration and degradation of certain fluorinated compounds in the human gut," Wackett said.
Yahoo
19 minutes ago
- Yahoo
Archaeologists in Peru unveil 3,500-year-old city that linked coast and Andes
Archaeologists unveil Peñico, a city that thrived 3,500 years ago, linking Pacific coast cultures with those in the Amazon. Archaeologists on Thursday unveiled a 3,500-year-old city in Peru that likely served as a trading hub linking Pacific coast cultures with those in the Andes and Amazon, flourishing around the same time as early civilizations in the Middle East and Asia. Drone footage released by researchers shows the city center is marked by a circular structure on a hillside terrace, with remains of stone and mud buildings constructed some 600 meters (1,970 feet) above sea level. The urban center, named Peñico, is located in the northern Barranca province and was founded between 1,800 and 1,500 BC. It is close to where the Caral civilization, the oldest in the Americas, developed 5,000 years ago. Caral, comprised of 32 monumental structures, is considered a contemporary of civilizations in Egypt, India, Sumeria and China. However, unlike them, it developed in complete isolation, according to researchers. Ruth Shady, the archaeologist who led the research into Peñico, said the newly unveiled city is key because experts believe it emerged after the Caral civilization was devastated by climate change. "They were situated in a strategic location for trade, for exchange with societies from the coast, the highlands and the jungle," Shady said. Archaeologist Marco Machacuay, a researcher with the Ministry of Culture, said at a news conference that Peñico's importance lies in it being the continuation of the Caral society. After eight years of studies, researchers have identified up to 18 structures in Penico, including ceremonial temples and residential complexes. The walls of a central plaza stand out for their sculptural reliefs and depictions of the pututu, a conch shell trumpet whose sound carries over long distances. In other buildings, researchers found clay sculptures of human and animal figures, ceremonial objects and necklaces made from beads and seashells, they added. Peru is a center of ancient cultures and home to archaeological sites such as the Inca ruins of Machu Picchu in Cusco and the mysterious Nazca lines located in the desert region along the country's central coast.
