During therapy, some cancer cells evolve to escape elimination. Newer anticancer drugs that can overcome this resistance are necessary. Now, researchers from Japan demonstrate that aromatic ...

Benzaldehyde readily undergoes autoxidation to form benzoic acid on exposure to air at room temperature. Yet it can be formed in high yield from, for example, benzyl alcohol by oxidation using a ...

Cancer cells have the capacity to multiply rapidly. The aggressive cancer cells undergo conversion from their tightly connected epithelial state into a mesenchymal state, which lacks contact ...

Cancer cells have the capacity to multiply rapidly. The aggressive cancer cells undergo conversion from their tightly connected epithelial state into a mesenchymal state, which lacks contact ...

A compound best known for giving almonds and apricots their aroma may be the key to defeating hard-to-kill cancer cells. Japanese researchers found that benzaldehyde can stop the shape-shifting ...

Benzaldehyde prevents Ser 28-phosphorylated histone H3 from interacting with 14-3-3ζ, thereby preventing expression of genes related to treatment resistance, epithelial to mesenchymal plasticity, and ...

Synthetic biologists have engineered bacteria to prevent the microbes from reducing aromatic aldehydes, allowing the cells to synthesize flavorants such as vanillin and a precursor to the ...