Add to ORKGG-proteins play a central role in signal transduction, acting to couple transmembrane receptors to a variety of intracellular effector pathways. Of major relevance to the understanding of cellular control is the definition of the specificity with which this family of proteins can perform these functions
G protein-coupled receptors (GPCRs) are master regulators of human physiology and comprise the large...
G-proteins are central mediators of the signal transduction process, conveying information from agon...
G-proteins have been demonstrated to be necessary to allow transduction of information from hormone-...
G-proteins play a central role in signal transduction, acting to couple transmembrane receptors to a...
Cells respond to stimuli by detecting extracellular signals in complex environments through cell mem...
G-proteins are central mediators of the signal transduction process, conveying information from agon...
A wide variety of hormones and neurotransmitters have been shown to produce intracellular signals me...
G proteins are biological signaling switches, which typically exist in a multi-protein complex at th...
G proteins are biological signaling switches, which typically exist in a multi-protein complex at th...
A wide variety of hormones and neurotransmitters have been shown to produce intracellular signals me...
G proteins and their associated receptors form the largest class of proteins that receive and transd...
G proteins and their associated receptors form the largest class of proteins that receive and transd...
G proteins are a highly conserved family of membrane-associated proteins composed of alpha, beta, an...
G proteins play a central role in how cells sense and respond to their environment. Hormones, neurot...
G protein-coupled receptors (GPCRs) are master regulators of human physiology and comprise the large...
G protein-coupled receptors (GPCRs) are master regulators of human physiology and comprise the large...
G-proteins are central mediators of the signal transduction process, conveying information from agon...
G-proteins have been demonstrated to be necessary to allow transduction of information from hormone-...
G-proteins play a central role in signal transduction, acting to couple transmembrane receptors to a...
Cells respond to stimuli by detecting extracellular signals in complex environments through cell mem...
G-proteins are central mediators of the signal transduction process, conveying information from agon...
A wide variety of hormones and neurotransmitters have been shown to produce intracellular signals me...
G proteins are biological signaling switches, which typically exist in a multi-protein complex at th...
G proteins are biological signaling switches, which typically exist in a multi-protein complex at th...
A wide variety of hormones and neurotransmitters have been shown to produce intracellular signals me...
G proteins and their associated receptors form the largest class of proteins that receive and transd...
G proteins and their associated receptors form the largest class of proteins that receive and transd...
G proteins are a highly conserved family of membrane-associated proteins composed of alpha, beta, an...
G proteins play a central role in how cells sense and respond to their environment. Hormones, neurot...
G protein-coupled receptors (GPCRs) are master regulators of human physiology and comprise the large...
G protein-coupled receptors (GPCRs) are master regulators of human physiology and comprise the large...
G-proteins are central mediators of the signal transduction process, conveying information from agon...
G-proteins have been demonstrated to be necessary to allow transduction of information from hormone-...