CDKN2A is one of the body’s most important natural defenses against cancer. Often called the “cell cycle brake,” this gene tells cells when to stop dividing and helps damaged cells self-destruct. In ...

Findings show that Telomir-1 restores the body’s natural tumor suppressor defenses by reversing abnormal DNA methylation of MASPIN and RASSF1A – genes that help block invasion, limit metastasis, and ...

Cellular findings show Telomir-Zn modulates intracellular metal balance linked to oxidative stress, mitochondrial dysfunction ...

Genes, fragments of DNA located on our chromosomes, control much of what happens in cells. Each cell activates only the genes it needs, silencing the rest through molecular "switches" present on each ...

A new study led by researchers at Moffitt Cancer Center found that blood-based DNA markers known as protein epiScores can help predict which colorectal cancer patients face a higher risk of cancer ...

UConn Health, JAX partner to offer methylome profiling, enabling precision treatment Dr. Qian Wu, UConn Health ...

Researchers at the Johns Hopkins Kimmel Cancer Center have developed a novel liquid biopsy approach to identify early-stage ...

How do immune cells strike a balance, unleashing rapid attacks against pathogens or cancer, while avoiding damage to healthy cells? Research into an immune kill switch holds potential for controlling ...

Reactivating Cancer's Brakes CDKN2A is one of the body's most important natural defenses against cancer. Often called the "cell cycle brake," this gene tells cells when to stop dividing and helps ...

DNA methylation is a key epigenetic process that controls whether genes are switched on or off. In healthy cells, methylation helps regulate normal development and repair. In cancer, however, abnormal ...