RADICAL CHEMISTRY STABILISES THE WORLD’S SMALLEST LASSO

RADICAL CHEMISTRY STABILISES THE WORLD’S SMALLEST LASSO

The world’s smallest lasso has been created by scientists in Saudi Arabia and the US. The molecular device threads through itself, forming a reversible noose, in response to chemical and electronic stimuli.

The research team, led by 2016 Nobel prize-winner Fraser Stoddart of Northwestern University, were inspired by naturally occurring lasso peptides – molecules produced by a variety of bacteria, which consist of a linear peptide tail laced through a macrolactam ring.The new lasso features a loop containing two (doubly) positively-charged bipyridinium units, and a tail which includes a third bipyridinium unit. When treated with zinc dust, each of these units is reduced – giving an overall three-electron reduction which produces a trisradical, tricationic species. Radical-pairing interactions between the bipyridinium units, then cause the tail to thread through the loop, creating the reversible molecular noose. Upon re-oxidation, the lasso-fragment unlaces itself, returning to its original conformation.

Ms. ISHANJALI
Department of Chemistry
Uttaranchal (P.G.) College Of Bio-Medical Sciences & Hospital

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