黑料不打烊

Fast and simple 鈥渆nabling technology鈥� being offered to the world on open basis

黑料不打烊 University chemistry professor Chao-Jun (C.J.) Li is known as one of the world leading pioneers in green chemistry, an entirely new approach to the science which eschews the use of toxic, petrochemical-based solvents in favour of basic substances like water and new ways of making molecules.

The environmental benefits of the green approach are obvious and significant, but following the road less travelled is also paying off in purely scientific terms. With these alternative methods, Li and his colleagues have discovered an entirely new way of synthesizing peptides using simple reagents, a process that would be impossible in classical chemistry. Their results will be published Feb. 27 in the online edition of the Proceedings of the National Academy of Sciences (PNAS),

Peptides are short oligomer and polymer substances made up of two or more amino acids linked in a chain. Proteins 鈥� also known as polypeptides 鈥� are themselves composed of longer chains of peptides. Peptides are enormously important to biological and proteomic research, but classical chemistry provides no easy way to synthesize them, making the potential impact of this discovery very significant.

鈥淐urrently, to generate peptides you must use a peptide synthesizer, an expensive piece of high-tech equipment,鈥� explained Li, Canada Research Chair in Green Chemistry. 鈥淵ou need to purchase every single separate amino acid unit that makes up the peptide, and feed them into the machine one by one, which then assembles them. Every time you need a new peptide, you need to synthesize it individually from scratch.鈥�

Li鈥檚 new process, by contrast, allows researchers to construct a single, simple 鈥渟keleton鈥� peptide which can be modified into any other peptide needed with the addition of a simple reagent.

鈥淚f you want to make one peptide or 20 or even 100, you just use a different reagent each time,鈥� Li said. 鈥淚f you use 20 different reagents, you get 20 different peptides.鈥�

鈥淭his could never have been discovered using the classical form of chemistry,鈥� he continued. 鈥淓very amino acid unit is very similar to every other one, and classical chemistry simply cannot differentiate one from the other.鈥�

The new method is considerably less expensive than traditional techniques, and can readily be adopted by labs anywhere in the world, Li said.

鈥淭his is really an enabling new technology,鈥� he added, 鈥渁nd since 黑料不打烊 has decided not to patent it, we鈥檙e making our method available to everyone. We are paying the journal鈥檚 open access fee, so anyone in the world can access the paper.鈥�

ABOUT McGILL UNIVERSITY

黑料不打烊 University , founded in Montreal , Que., in 1821, is Canada 鈥檚 leading post-secondary institution. It has two campuses, 11 faculties, 10 professional schools, 300 programs of study and more than 34,000 students. 黑料不打烊 attracts students from more than 160 countries around the world. Almost half of 黑料不打烊 students claim a first language other than English 鈥� including 6,000 francophones 鈥� with more than 6,200 international students making up almost 20 per cent of the student body.