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Method allows scientists to match compounds produced in the wild back to their genomic origins
A newly developed method for microscopically extracting, or “mining,” information from genomes could represent a significant boost in the search for new therapeutic drugs and improve science’s understanding of basic functions such as how cells communicate with one another.
Graduate student Roland Kersten developed a technique that employs mass spectrometry, a mass analyzing tool that deciphers the size and makeup of molecules, to reveal core structural details of genomes.
Kersten, Moore, and Dorrestein
Knowing such minutiae through this genomic “mining” approach gives scientists a way to connect the natural chemicals produced by organisms back to the enzymes that construct them. These “biosynthetic pathways” are considered prized information in the search for new pharmaceuticals to treat diseases.
Using the new method, the scientists have already discovered two new classes of peptides, compounds made of amino acids that serve in functions ranging from communication to protection.
“This represents a paradigm shift in the way that natural products are discovered and characterized, and it’s fundamentally different than what’s been practiced for the past decades in this field,” said Moore, a professor at Scripps and the Skaggs School of Pharmacy and Pharmaceutical Sciences at UC San Diego. “This has the capability of really changing the way natural products, or simply chemicals, are discovered in nature.”
Dorrestein, Moore and Kersten are working on ways to automate the process to more quickly analyze biological samples. They believe the new technique will streamline the discovery of promising natural products.
“We’re trying to bring up the speed of discovery in chemistry,” said Moore. “There’s a huge amount of information that’s out there and we are only scratching the surface—we’d like to dig a little deeper.”
“My UC San Diego colleague Bill Gerwick often states that natural products are a part of central dogma following DNA, RNA and proteins” said Dorrestein. “I agree with Bill, natural products and related chemistries control biology yet these molecules are difficult to characterize. The tools for characterizing the molecules that control biology have not kept pace with modern science. The thought process introduced in this manuscript provides the foundation for finally bringing the fourth branch of central dogma into the realm of modern life sciences.”
In addition to Kersten, Moore and Dorrestein, coauthors of the paper include Yu-Liang Yang and Yuquan Xu of the Skaggs School; Peter Cimermancic and Michael Fischbach of UC San Francisco; and Sang-Jip Nam and William Fenical of Scripps Oceanography.
The National Institutes of Health and the Beckman Foundation provided financial support for the research.
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