DNA 'Barcodes' Help Researchers Pinpoint Gold Nanoparticles that Can Strike Cancer at Its Power Source

Researchers find new way to deliver drugs directly into cancer cells

National University of Singapore Researchers at the National University of Singapore (NUS) have developed a high-throughput method to identify gold nanoparticles capable of delivering therapies directly to mitochondria (the energy centres inside cancer cells).

DNA 'barcodes' help researchers pinpoint gold nanoparticles that can strike cancer at its power source

Researchers at the National University of Singapore (NUS) have developed a high-throughput method to identify gold nanoparticles capable of delivering therapies directly to mitochondria (the energy centers inside cancer cells). By tagging nanoparticles with unique DNA "barcodes," the team was able to track and compare dozens of designs simultaneously in living tumor models, rapidly identifying those most effective at reaching this critical subcel

DNA 'barcodes' help NUS researchers pinpoint gold nanoparticles that can strike cancer at its power source

A new high-throughput platform screens dozens of nanoparticle designs in living systems to identify those that reach tumour mitochondria, enabling more precise and effective cancer therapies

DNA barcoding platform finds gold nanoparticles for precision cancer therapy

A new high-throughput platform screens dozens of nanoparticle designs in living systems to identify those that reach tumor mitochondria, enabling more precise and effective cancer therapies.

Singapore: NUS Develops Smart Nanoparticles for Precision Cancer Therapy

National University of Singapore researchers developed a smart nanoparticle platform that delivers targeted therapies directly to cancer cell mitochondria for more precise treatment.

DNA ‘Barcodes’ Help NUS Researchers Pinpoint Gold Nanoparticles That Can Strike Cancer at Its Power Source

Researchers at the National University of Singapore have developed a high-throughput method to identify gold nanoparticles capable of delivering therapies directly to mitochondria (the energy centres inside cancer cells).