Combining statistical modeling with flow cytometry enables reliable, high-throughput quantification of division asymmetry in live cells, revealing how partitioning noise may shape tumor cell ...

The cancer gene MYC camouflages tumours by suppressing alarm signals that normally activate the immune system. This finding ...

Overcoming tumor resistance to chemotherapy drugs has long been a challenge for oncology clinicians and researchers. Now, a new study suggests that blocking a key protein, p300, may force damaged ...

A hidden clue may explain why some mutated cells become cancerous and others don’t: how fast they divide. A new study from researchers at Sinai Health in Toronto reveals that the total time it takes ...

Scientists have recently been learning more about the importance of small bits of circular genetic material known as extrachromosomal DNA (ecDNA). These little circles of DNA can hitch a ride with ...

A research team has identified a new mechanism that controls DNA’s ability to replicate—and thereby a cell’s ability to ...

Tumor cells collected during the removal of a cancerous bladder and - in some cases - transplanted into mice with weakened immune systems, could help physicians rapidly identify high-risk cancers, ...

Researchers discovered that a long-misunderstood protein plays a key role in helping chromosomes latch onto the right “tracks” during cell division. Instead of acting like a motor, it works more like ...

Pancreatic cancer may evade the immune system not by accident but by actively switching off internal danger signals through ...