ON
← Torna al feed
New workflow transforms nonfunctional protein scaffolds into active enzymes
United Kingdom🔬 Scienza7 gg fa

New workflow transforms nonfunctional protein scaffolds into active enzymes

Researchers at the University of Bayreuth and the University of Ottawa developed a new method called CANVAS to transform nonfunctional protein scaffolds into active enzymes. They focused on artificial TIM barrels, which had previously lacked enzymatic activity despite having the correct structure. By using computational methods to insert a tailored active site, the team created enzymes like KempTIM1 and KempTIM4b that showed significantly higher catalytic efficiency compared to existing enzymes. This breakthrough could expand the range of available enzymes for applications in biotechnology and sustainable chemistry.

Come l’ha coperta ogni schieramento

Lo stesso evento, raggruppato per l’orientamento politico delle testate che ne parlano.

Come l’ha coperta ogni schieramento

Sostieni notizie indipendenti e consapevoli del bias e sblocca il polso social, il voto della comunità e il tuo feed Per te personalizzato.

Diventa sostenitore

Nel mondo

Lo stesso evento come riportato in altri paesi.

Nel mondo

Sostieni notizie indipendenti e consapevoli del bias e sblocca il polso social, il voto della comunità e il tuo feed Per te personalizzato.

Diventa sostenitore

Vai alle fonti primarie (2)

Le fonti ufficiali su cui si basa la copertura. Leggile direttamente per aggirare il framing.

1 servizi

Phys.org logoPhys.orgIndipendenteCentro7 gg fa
New workflow transforms nonfunctional protein scaffolds into active enzymes

Researchers at the University of Bayreuth and the University of Ottawa developed a new method called CANVAS to transform nonfunctional protein scaffolds into active enzymes. They focused on artificial TIM barrels, which had previously lacked enzymatic activity despite having the correct structure. By using computational methods to insert a tailored active site, the team created enzymes like KempTIM1 and KempTIM4b that showed significantly higher catalytic efficiency compared to existing enzymes. This breakthrough could expand the range of available enzymes for applications in biotechnology and sustainable chemistry.

Lettura del bias (Centro): The article presents scientific research without political commentary. It focuses on a technical achievement in biochemistry and does not frame the subject in a politically charged manner. The tone remains neutral, emphasizing the scientific process and results without advocating for any particular政

Manteniamo le notizie oneste.

ObjectiveNews è finanziato dai lettori e senza pubblicità: ti mostriamo il bias invece di nasconderlo. Sostieni il giornalismo indipendente per 5 €/mese.

Diventa sostenitore

Storie correlate