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The significance of chemotaxis in biology and clinical pathology was widely accepted in the 1930s, and the most fundamental definitions underlying the phenomenon were drafted by this time. [by whom?] The most important aspects in quality control of chemotaxis assays were described by H. Harris in the 1950s. [12]
Other chemotaxis assay techniques Besides the above-mentioned two most commonly used family of techniques, a wide range of protocols were developed to measure chemotactic activity. Some of them are only qualitative, like aggregation tests, where small pieces of agar or filters are placed onto a slide and accumulation of cells around is measured.
In general terms, chemotaxis is a biological process where living entities, such as cells or organisms, detect, maneuver, and react in response to a chemical signal in their environment. [1] Such a phenomenon is critical for many biological processes, including but not limited to wound healing, detection of food, and avoidance of many toxins. [2]
Chemotaxis is described in prokaryotic and eukaryotic cells, but signalling mechanisms (receptors, intracellular signaling) and effectors are significantly different. Durotaxis is the directional movement of a cell along a stiffness gradient. Electrotaxis (or galvanotaxis) is the directional movement of motile cells along the vector of an ...
The phenomenon was originally referred to as "reverse chemotaxis," and later, “fugetaxis” (derived from the Latin words fugere, to flee from; and taxis, movement). [1] For a time, the words were used interchangeably before being replaced almost exclusively by “chemorepulsion.”
Chemokines (from Ancient Greek χῠμείᾱ (khumeíā) 'alchemy' and κῑ́νησῐς (kī́nēsis) 'movement'), or chemotactic cytokines, are a family of small cytokines or signaling proteins secreted by cells that induce directional movement of leukocytes, as well as other cell types, including endothelial and epithelial cells.
The methyl-accepting chemotaxis proteins (MCP, also aspartate receptor) are a family of transmembrane receptors that mediate chemotactic response in certain enteric bacteria, such as Salmonella enterica enterica and Escherichia coli. [3]
The diverse feature of the chemotaxis receptors and ligands provides the possibility to select chemotactic responder cells with a simple chemotaxis assay. By chemotactic selection we can determine whether a still not characterized molecule acts via the long- or the short-term receptor pathway.