In several disease conditions, including infections and cancers, innate immune activation and nutrient scarcity occur ...

Researchers at Tulane University, with a team of colleagues from eight other universities, have discovered a new nerve cell ...

This listicle explores how cancer hijacks key cell signaling pathways such as PI3K, MAPK and Notch to drive tumor growth, ...

UNC researchers discovered how a key step in cell signaling works by showing exactly how G proteins detach from receptors ...

Discover the essential role of TGF-Beta 1 in cellular regulation, its signaling pathway, and how TGF-β1 antibodies are used ...

Lin Hongxuan, the team's lead scientist, explained the mechanism through which rice senses and adapts to high temperatures. When exposed to heat, a key enzyme, diacylglycerol kinase 7 (DGK7), on the ...

Scientists from Tulane University and The University of Texas at Dallas have discovered a new way that nerve cells communicate – by releasing an enzyme outside the cell that switches on pain signaling ...

Researchers at Tulane University, with a team of colleagues from eight other universities, have discovered a new nerve cell signaling mechanism that could transform our understanding of pain and lead ...

The authors identify the Bearded-type small protein E(spl)m4 as a physical and genetic interactor of TRAF4 in the Drosophila wing disc. These valuable findings with potential biomedical relevance are, ...

AdipoR1 selectively recognizes adipokine ligands, differentially shaping T-cell immune outcomes. CTRP9 engages AdipoR1 to enhance T-cell glycolysis and immunity, whereas adiponectin suppresses them.