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Biological Clock Prize Shows Much “Nobel-Quality” Work Goes Uncredited

For all their good intentions, the current Nobel Prize rules fall short in honoring scientists whose work underpins and expands that of those designated as laureates

Michael W. Young, one of the recipients of the 2017 Nobel Prize in Physiology or Medicine for his research shedding light on the inner workings of the biological clock, poses in his lab at the Rockefeller University in New York on October 2, 2017.

This article was published in Scientific American’s former blog network and reflects the views of the author, not necessarily those of Scientific American


On October 2 researchers from the University of Geneva published a paper in Proceedings of the National Academy of Sciences on their discovery of a type of biological clock in muscle cells. The same day three researchers—Jeffrey Hall, Michael Rosbash and Michael Young—learned they had received the 2017 Nobel Prize in Physiology or Medicine for studies that identified key genes that control biological timepieces.

Young had written an article for Scientific American in 2000 describing the work that led to the Nobels. In it he included a sidebar entitled “Clocks Everywhere: They Are Not Just in the Brain” highlighting work by others in fruit flies that showed it was not just the brain that had such clocks. The Nobelists had focused on fruit fly brains but circadian mechanisms turned up in the kidneylike Malpighian tubules of fruit flies as well as in the wings, legs, oral regions and antennae of the insects.

Young ended his sidebar with this observation: “The diversity of the various cell types displaying circadian clock activity suggests that for many tissues correct timing is important enough to warrant keeping track of it locally. The findings might give new meaning to the term ‘body clock.’”


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In the last 15 years the sidebar has become a “mainbar” as molecular timekeeping apparatuses outside the brain have drawn increasing attention—the Geneva paper being one such example. In 2015 Keith Summa and Fred Turek of Northwestern University wrote an article for Scientific American—“The Clocks within Us”—that chronicled how the search for clock genes had extended into humans and reached beyond the suprachiasmatic nucleus, the master clock in the brain that tracks time based on cues from light and darkness.

The research in humans now provides evidence of the importance of these local clocks that the authors say “regulate the activity of 3 to 10 percent—and in some cases perhaps as much as 50 percent—of genes in various tissues,” Summa and Turek wrote. What’s more, when these local clocks go out of sync with the brain’s master clock, bad things often happen.  Anomalies in circadian rhythms can lead to metabolic, cardiovascular, gastrointestinal—and even neurodegenerative problems.

The scrutiny brought to circadian biology by the Nobels should also highlight the limits of the prizes themselves in rewarding the best work in science. All of the winners of the Physiology or Medicine prize had unquestionably done “Nobel caliber” science. But research relies on casts of hundreds, if not thousands—the multitude now researching local clocks is just one example.

The chronobiology field, too, has a long history before and after the Nobel studies. In the 1970s Seymour Benzer and Ronald Konopka at the California Institute of Technology had localized one of the genes that was cited in awarding the Nobels—a gene called period. But it was the three prize winners who ultimately cloned and sequenced it. Later Joseph Takahashi at University of Texas Southwestern Medical Center discovered genes involved in activating expression of period and other clock genes—a vital component of the molecular timekeeping process.

All of these scientists also did Nobel-quality work. The decisions of the Nobel Committee might have been different if Benzer and Konopka were still alive or they were allowed to award a fourth prize. Maybe the Nobels need to get in sync with the times. 

Gary Stix, Scientific American's neuroscience and psychology editor, commissions, edits and reports on emerging advances and technologies that have propelled brain science to the forefront of the biological sciences. Developments chronicled in dozens of cover stories, feature articles and news stories, document groundbreaking neuroimaging techniques that reveal what happens in the brain while you are immersed in thought; the arrival of brain implants that alleviate mood disorders like depression; lab-made brains; psychological resilience; meditation; the intricacies of sleep; the new era for psychedelic drugs and artificial intelligence and growing insights leading to an understanding of our conscious selves. Before taking over the neuroscience beat, Stix, as Scientific American's special projects editor, oversaw the magazine's annual single-topic special issues, conceiving of and producing issues on Einstein, Darwin, climate change, nanotechnology and the nature of time. The issue he edited on time won a National Magazine Award. Besides mind and brain coverage, Stix has edited or written cover stories on Wall Street quants, building the world's tallest building, Olympic training methods, molecular electronics, what makes us human and the things you should and should not eat. Stix started a monthly column, Working Knowledge, that gave the reader a peek at the design and function of common technologies, from polygraph machines to Velcro. It eventually became the magazine's Graphic Science column. He also initiated a column on patents and intellectual property and another on the genesis of the ingenious ideas underlying new technologies in fields like electronics and biotechnology. Stix is the author with his wife, Miriam Lacob, of a technology primer called Who Gives a Gigabyte: A Survival Guide to the Technologically Perplexed (John Wiley & Sons, 1999).

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