Explores nuclear receptors, JAK-STAT pathway, growth factors, endocrine disruptors, and estrogen receptors.
Explores ligand-receptor binding, drug effects, efficacy, potency, and biased agonism in pharmacodynamics.
Examines paracrine communication in melanocytes, CAMP influence on hair color, Mc4R mutations, and fur phenotypes.
Explores nuclear receptors' core signaling and the impact of endocrine disruptors on the endocrine system, including the inhibitory effects of compounds like eugenol on the estrogen receptor.
Explores cell dynamics in active matter, focusing on motility, polarity, and signaling pathways in biological systems.
Explores receptors, ligands, and their role in signal transduction, including the activation of the immune system and the significance of multivalency in receptor-ligand interactions.
Explores major neurotransmitters, their effects, drug therapy, and receptor mechanisms in brain function.
Explores drug targets like receptors, enzymes, and transporters, focusing on top drug indications and receptor-mediated activation of G proteins.
Explores drug targets and adrenergic signaling, covering receptors, enzymes, and transporter proteins.
Covers protein interactions, signal transduction, neurotransmitters, and pharmacological concepts like agonists and antagonists.
