A recent study led by Associate Professor Takuya Yamamoto and Researcher May Nakajima-Koyama has revealed that maintaining a ...

Using AI, Jahed, Rahmani and colleagues developed a method to correlate extracellular signals with specific intracellular signals. To develop the new method, the team first engineered an array of ...

A recent study led by Associate Professor Takuya Yamamoto and Researcher May Nakajima-Koyama has revealed that maintaining a delicate balance between interferon-gamma (IFN-γ) and extracellular ...

While extracellular signals can be captured with less invasive methods, they do not provide much detail about the cell's electrical activity. "It is like listening to a conversation through a wall ...

California: A team of researchers led by the University of California, San Diego, and Stanford University has discovered a noninvasive approach for monitoring electrical activity inside cardiac ...

Rice lab pioneers an assembly kit for synthetic sense-and-respond circuits in human cells. Rice University bioengineers have ...

Researchers in the US have developed a non-invasive method to monitor the electrical activity inside heart muscle cells from the outside. Electrical signals inside heart muscle cells provide insights ...

Comparison of methods to record signals inside cells. Current methods (left) are more costly, invasive and low-throughput. The new method (right) overcomes these hurdles by using AI to reconstruct ...

Over the past two decades, the idea of targeting transcription factors to combat malignancies has turned into a clinical reality.

The key lies in extracting the relationship between the signals inside the cells (intracellular signals) and those recorded on their surface (extracellular signals). "We discovered that ...