UCLA Chemists Shatter 100-Year-Old Chemistry Rule – Textbooks Need a Rewrite
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UCLA Chemists Challenge Century-Old Rule:
UCLA chemists have discovered a major flaw in a fundamental rule of organic chemistry that has held for 100 years. They say it's time to rewrite the textbooks.
Organic molecules, which are primarily made of carbon, have specific shapes and arrangements of atoms. Molecules called olefins contain double bonds, or alkenes, between two carbon atoms. Typically, these atoms and their attached groups lie in the same 3D plane, and deviations from this structure are rare.
The rule being questioned, known as Bredt's rule, was established in 1924. It asserts that molecules cannot have a double bond at the "bridgehead" position-the junction of a bridged bicyclic molecule-because this position would distort the geometry of the double bond. Bredt's rule has constrained the design of synthetic molecules by preventing chemists from creating certain structures. Since olefins play a critical role in pharmaceutical research, Bredt's rule has limited the types of molecules that scientists could envision, potentially holding back innovations in drug discovery.
A new paper published on November 1 by UCLA scientists in the journal Science has invalidated that idea. They show how to make several kinds of molecules that violate Bredt's rule, called anti-Bredt olefins, or ABOs, allowing chemists to find practical ways to make and use them in reactions.
"People aren't exploring anti-Bredt olefins because they think they can't," said corresponding author Neil Garg, the Kenneth N. Trueblood Distinguished Professor of Chemistry and Biochemistry at UCLA. "We shouldn't have rules like this - or if we have them, they should only exist with the constant reminder that they're guidelines, not rules. It destroys creativity when we have rules that supposedly can't be overcome."
[...] "There's a big push in the pharmaceutical industry to develop chemical reactions that give three-dimensional structures like ours because they can be used to discover new medicines," Garg said. "What this study shows is that contrary to one hundred years of conventional wisdom, chemists can make and use anti-Bredt olefins to make value-added products."
Journal Reference:
"A solution to the anti-Bredt olefin synthesis problem" by Luca McDermott, Zach G. Walters, Sarah A. French, et al., 1 November 2024, Science. DOI: 10.1126/science.adq3519
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