Researchers from The University of Osaka find the key proteins that maintain optimal pH within the Golgi apparatus by ...

Discover what glycan analysis can reveal about protein behavior and how it can be used to boost biologic performance and ...

When Oxr1 and Ncoa7 function was inhibited, V-ATPase was able to significantly increase the interior acidity of the interior of the Golgi and trans-Golgi network. In addition, the cells showed defects ...

Two independent groups have applied fluorescence tagging and advanced video microscopy techniques to obtain visual evidence for the Golgi cisternal maturation model. The Golgi apparatus—the ...

The cytoskeleton and eEF1 partnership eEF1 is essential for the delivery of aminoacyl-tRNAs to polysomes during protein synthesis.

For years the function of this cell component was a mystery. Now radioautography has clarified its role as the primary site for the packaging of secretions and the synthesis of large carbohydrates ...

Quantitative measurements of intra-Golgi transport kinetics of diverse secretory cargos challenge the classic cisternal progression model and support the stable compartment model of the Golgi.

Scientists have discovered that a protein once thought to be just a cellular "courier" actually helps plants survive drought. This motor protein, myosin XI, plays a critical role in helping leaves ...

Inside our cells, ribosomes—the tireless "protein factories" of life—have just shown off a new skill they haven't used in ...

Microsoft’s artificial intelligence tool BioEmu can predict the multiple conformational states of a protein, giving insight into how a protein moves and its potential function.