Carnegie Mellon University researchers are using personalized models to decode how cancer behaves in individual ...

Using super-resolution microscopy, Assistant Professor Samy Lamouille discovered an association in the brain cancer glioblastoma between the protein connexin 43, shown in green, and parts of cells ...

School of Chemistry and Chemical Engineering, Chemistry and Biomedicine Innovation Center (ChemBIC), State Key Laboratory of Coordination Chemistry, Najing University, Nanjing 210023, PR China ...

There are processes in the human body that can suppress the growth and proliferation of cancer cells. These mechanisms, including those involving the tumor suppressor protein p53, are widely ...

Their study demonstrates cancer cells may use our very own protein factories, ribosomes, to hide their visibility. The findings are published in Cell in an article titled, “P-stalk ribosomes act ...

Scientists have now shown that cancer cells can use these so-called ribosomes to boost their invisibility cloak, helping them hide from the immune system. The protein factories of our cells are ...

Scientists from the Netherlands Cancer Institute have now shown that cancer cells can use these ribosomes to boost their invisibility cloak, helping them hide from the immune system. The team ...

Researchers at The Netherlands Cancer Institute found that cancer cells can modify their ribosomes to enhance their ability to hide from the immune system. By increasing ribosomes with a flexible arm, ...

Fluorescent images were captured using a Zeiss fluorescent ... Supplementary Fig 13. Correlation of ribosome biogenesis pathway and EMT status in human breast cancer cells. Single-nucleus cell RNA ...

Its deregulation leads to various human disorders such as ribosomopathies and cancer. Thus, tight regulation of ribosome biogenesis is crucial for normal cell homeostasis. Emerging evidence suggests ...