Markita Landry is the first to admit that the two applications her research addresses – imaging brain chemistry and delivering genetic material into plants – are rather divergent.

Plants droop and shed their leaves when parched, but with a splash of water, their stems regain strength and their leaves ...

Plants droop and shed their leaves when parched, but with a splash of water, their stems regain strength and their leaves unfurl. This dramatic ...

Plants droop and shed their leaves when parched, but with a splash of water, their stems regain strength and their leaves ...

In 2009 a team of biophysicists led by Anthony A. Hyman of the Max Planck Institute of Molecular Cell Biology and Genetics in Dresden, Germany, were studying specklelike structures called P ...

The human body is interconnected with cell-to-cell communication to orchestrate an effective immune response. Plant cells are organized in a rigid, static order resembling a brick wall due to their ...

Microbial cell factories may help get to the root of understudied plant molecules. ScienceDaily . Retrieved February 5, 2025 from www.sciencedaily.com / releases / 2025 / 01 / 250116161343.htm ...

A team of researchers co-led by the University of California San Diego has developed a method to produce a special class of plant hormones, known as strigolactones, at unprecedented levels using ...

A groundbreaking imaging method for tracking salt inside plant cells has rewritten knowledge of how roots handle toxic levels of sodium ions. The findings might aid efforts to boost plant ...

This approach allowed them to map individual plant cells and see where key elements ... the SOS1 transporter helps to sequester it into vacuoles that serve to store unwanted products.

This approach allowed them to map individual plant cells and see where key elements ... the SOS1 transporter helps to sequester it into vacuoles that serve to store unwanted products.