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=== Cell signaling === {{Further|Cell signaling}} [[Cell signaling]] or cell communication is important for cell regulation and for cells to process information from the environment and respond accordingly. Signaling can occur through direct cell contact or [[Endocrine system|endocrine]], [[Paracrine signaling|paracrine]], and [[autocrine signaling]]. Direct cell-cell contact is when a receptor on a cell binds a molecule that is attached to the membrane of another cell. Endocrine signaling occurs through molecules secreted into the bloodstream. Paracrine signaling uses molecules diffusing between two cells to communicate. Autocrine is a cell sending a signal to itself by secreting a molecule that binds to a receptor on its surface. Forms of communication can be through: * [[Ion channel]]s: Can be of different types such as voltage or ligand gated ion channels. They allow for the outflow and inflow of molecules and ions. * [[G protein-coupled receptor|G-protein coupled receptor]] (GPCR): Is widely recognized to contain seven transmembrane domains. The ligand binds on the extracellular domain and once the ligand binds, this signals a guanine exchange factor to convert GDP to GTP and activate the G-Ξ± subunit. G-Ξ± can target other proteins such as adenyl cyclase or phospholipase C, which ultimately produce secondary messengers such as cAMP, Ip3, DAG, and calcium. These secondary messengers function to amplify signals and can target ion channels or other enzymes. One example for amplification of a signal is cAMP binding to and activating PKA by removing the regulatory subunits and releasing the catalytic subunit. The catalytic subunit has a nuclear localization sequence which prompts it to go into the nucleus and phosphorylate other proteins to either repress or activate gene activity.<ref name=":0" /> * [[Receptor tyrosine kinase]]s: Bind growth factors, further promoting the tyrosine on the intracellular portion of the protein to cross phosphorylate. The phosphorylated tyrosine becomes a landing pad for proteins containing an SH2 domain allowing for the activation of Ras and the involvement of the [[Mitogen-activated protein kinase|MAP kinase pathway]].<ref>{{Cite journal|last=Schlessinger|first=Joseph|date=October 2000|title=Cell Signaling by Receptor Tyrosine Kinases|journal=Cell|volume=103|issue=2|pages=211β225|doi=10.1016/s0092-8674(00)00114-8|pmid=11057895|s2cid=11465988|issn=0092-8674|doi-access=free}}</ref>
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