Submitted by landlord2213 t3_1182gkj in Futurology
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FuturologyBot t1_j9f078v wrote
The following submission statement was provided by /u/landlord2213:
The team utilized a technique that they believe could speed up the drug discovery process in the production of lissodendoric acid A.
Organic chemists at the University of California, Los Angeles (UCLA) have synthesized the first artificial form of a molecule found in a sea sponge, which holds potential therapeutic benefits for Parkinson’s disease and similar disorders. The molecule, named lissodendoric acid A, has the ability to counteract molecules that can harm DNA, RNA, proteins, and even destroy whole cells.
In a surprising turn, the research team utilized an unusual, long-neglected compound called a cyclic allene to control a critical stage in the chemical reactions required to create a usable form of the molecule in the laboratory. This breakthrough, according to the team, has the potential to be beneficial in the development of other complicated molecules for pharmaceutical studies.
Please reply to OP's comment here: https://old.reddit.com/r/Futurology/comments/1182gkj/chemists_have_synthesized_an_oceanbased_molecule/j9ew4l3/
carefullycalibrated t1_j9f0b2m wrote
The ocean is the worlds largest aqueous solution of ALL the elements. We came from the ocean, I believe keys to our health are floating within it.
[deleted] t1_j9f4zhw wrote
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MrZwink t1_j9f58sv wrote
I didn't know you could base molecules on the ocean...
[deleted] t1_j9fjtz0 wrote
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isanyofthisrea1 t1_j9g47z1 wrote
Science journalists don’t really understand science
[deleted] t1_j9g9src wrote
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[deleted] t1_j9i001e wrote
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landlord2213 OP t1_j9ew4l3 wrote
The team utilized a technique that they believe could speed up the drug discovery process in the production of lissodendoric acid A.
Organic chemists at the University of California, Los Angeles (UCLA) have synthesized the first artificial form of a molecule found in a sea sponge, which holds potential therapeutic benefits for Parkinson’s disease and similar disorders. The molecule, named lissodendoric acid A, has the ability to counteract molecules that can harm DNA, RNA, proteins, and even destroy whole cells.
In a surprising turn, the research team utilized an unusual, long-neglected compound called a cyclic allene to control a critical stage in the chemical reactions required to create a usable form of the molecule in the laboratory. This breakthrough, according to the team, has the potential to be beneficial in the development of other complicated molecules for pharmaceutical studies.