Plants have evolved sophisticated mechanisms to cope with environmental stressors including drought, nutrient deficiency, and extreme temperatures. Central to these adaptive responses is calcium ...

When plants are subjected to Zn deficiency, the transcriptional levels of Zn-absorbing transporters (such as ZIP4, ZIP9, and ZIP12) are significantly upregulated due to the plant's stress response, ...

A far-reaching study has cast doubt on statistical methods used to identify long-distance signaling networks in plants. The surprising findings by a John Innes Center–led collaboration, now published ...

Plants do not stay silent. New research shows how plant diversity changes smell based communication across ecosystems.

Plants are increasingly encountering abiotic stressors, such as salinity, drought, heavy metals, microplastics, and various environmental contaminants, that ...

It is vital to the regulation of cell activities through its role as a second messenger. Calcium signaling is the process whereby low cytoplasmic concentrations are deliberately increased to activate ...

The transition from single-celled organisms to multicellular life was a pivotal moment in evolutionary history, marking the emergence of complex communication systems that allow cells to coordinate ...

A proteomics-based protein-protein interaction study has led to the discovery of proteins that interact with a legume receptor that mediates signal transduction from the plasma membrane to the nucleus ...