The Swedish Svante Pääbo was distinguished this Monday with the Nobel Prize in Medicine for his studies on human evolution, which include the first sequencing of the genome of extinct hominids and genetic transfers between subspecies, in addition to creating a new discipline: paleogenomics.
Their findings have been used extensively by the scientific community to improve understanding of the human being and have revealed that archaic genetic sequences of extinct hominids influence the psychology of modern men or the immune response, highlighted the Institute’s Nobel Assembly Karolinska in Stockholm, the institution that awards the award every year.
“Pääbo used existing technology and applied its own methods to extract and analyze ancient DNA, when it was considered impossible to recover DNA from 40,000 years ago“, said the president of the Karolinska Assembly, Nils-Göran Larsson, at a press conference.
By the end of the 1990s, almost the entire human genome had been sequenced, making possible studies of the genetic relationship between human populations, but not between present-day humans, and extinct species, such as Neanderthals, which disappeared regarding 30,000 years ago. .
Pääbo (Stockholm, 1955), who had received his doctorate from the Swedish University of Uppsala in 1986 with work on molecular immunology, was soon interested in the possibility of applying modern genetics to the study of Neanderthal DNA.
MAKE THE IMPOSSIBLE POSSIBLE
During his doctorate in Berkeley (United States) in the group of Allan Wilson, a pioneer in evolutionary biology, he began to develop methods in this area to face a major challenge: following thousands of years, only small fragments of DNA remain, also contaminated by genetic material from bacteria and contemporary humans.
Already working at the University of Munich (Germany), Pääbo decided to analyze DNA from mitochondria, cell organelles that contain their own DNA, present in thousands of copies, which allowed him to successfully sequence material from a bone of 40,000 for the first time. years of antiguaty.
The next step, developed at the Max Planck Institute in Leipzig (Germany) was to sequence the entire genome of a Neanderthal, something he achieved in 2010 and made possible “what seemed impossible“, in the words of the Karolinska Institute.
This achievement made it possible to investigate the relationship between Neanderthals and modern-day humans, revealing, for example, that their DNA was more similar to that of men originating in Europe and Asia than that of Africa.
Pääbo and his team also discovered a hitherto unknown hominin named Denisovan by sequencing a sample of a little finger bone found in southern Siberia (Russia).
Comparisons with sequences of contemporary men from different continents showed that there had also been gene flow between Denisovans and Homo sapiens, a relationship verified for example in populations of Melanesia and other parts of Southeast Asia.
“Revealing the genetic differences that distinguish all living humans from the extinct hominins, their discoveries provide the basis for exploiting what makes us uniquely human.“, stated in the ruling.
SON OF ANOTHER NOBEL IN MEDICINE AND WINNER OF THE PRINCE OF ASTURIAS
The scientific vocation runs in the family of Svante Pääbo, son of the Estonian chemist Karin Pääbo and the Swedish biochemist Sune Bergström, who in turn won the Nobel Prize for Medicine forty years ago, shared with two other researchers, for his work on prostaglandins .
In addition to the award received today, Pääbo holds other important awards such as the Gottfried Leibniz from the Society of German Researchers (1992), the Darwin-Wallace medal and the Princess of Asturias Award for Scientific and Technical Research 2018.
Larsson, president of the Karolinska Assembly highlighted the importance of Pääbo’s work. It is “really a great find” with repercussions in daily life, because “lays the groundwork for deeper understanding of characteristics that are specific to modern humans” and in the future will give “extensive knowledge of human physiology“.
Faced with a Nobel Prize in Physiology or Medicine, as this category is exactly called, which can be surprising, Larsson considered surprising “it’s good. We want to surprise people with good prizes and this is a great fundamental discovery”.
Winning the Nobel will bring Sääbo 10 million Swedish crowns (916,000 euros, 882,000 dollars).
Sääbo succeeds the Americans David Julius and Ardem Patapoutian, distinguished in 2021 for discovering the temperature and touch receptors, in the award for Medicine.
With the prize in Medicine or Physiology, the round of winners of this year’s Nobel opens, which will continue tomorrow with Physics and will continue on successive days, in this order, with Chemistry, Literature, Peace and Economics.