New research shows that a network of subcellular structures similar to those responsible for propagating molecular signals that make muscles contract are also responsible for transmitting signals in ...

A research team led by Dr. Tetsuya Muramoto from the Faculty of Science at Toho University has demonstrated the mechanisms by which periodic chemical signal frequencies in cells regulate gene ...

Our biceps and brain cells might have more in common than we believed. According to a new study from the Lippincott-Schwartz ...

A simplified signaling pathway is depicted to highlight known examples of bona fide oncogenes that are subjected to dysregulation by various mechanisms. It is clear that a signaling pathway can be ...

Most cell signals are chemical in nature. For example, prokaryotic organisms have sensors that detect nutrients and help them navigate toward food sources. In multicellular organisms, growth ...

The researchers collected a massive dataset—thousands of pairs of electrical signals—each pair linking an extracellular recording with its corresponding intracellular signal. The data included ...

Credit: Dr. Tetsuya Muramoto The study revealed the mechanisms by which periodic intracellular cAMP signal frequencies regulate transcription factor shuttling between the nucleus and cytoplasm and ...

The study revealed the mechanisms by which periodic intracellular cAMP signal frequencies regulate transcription factor shuttling between the nucleus and cytoplasm and multicellular structure ...