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A taxis (from Ancient Greek τάξις (táxis) 'arrangement, order'; [1] pl.: taxes / ˈ t æ k s iː z /) [2] [3] [4] is the movement of an organism in response to a stimulus such as light or the presence of food. Taxes are innate behavioural responses.
The lipid globules contain a complex mixture of carotenoid pigments, which provide the screening function and the orange-red colour, [40] as well as proteins that stabilize the globules. [41] The stigma is located laterally, in a fixed plane relative to the cilia, but not directly adjacent to the basal bodies.
In cellular biology, haptotaxis (from Greek ἅπτω (hapto) 'touch, fasten' and τάξις (taxis) 'arrangement, order') is the directional motility or outgrowth of cells, e.g. in the case of axonal outgrowth, usually up a gradient of cellular adhesion sites or substrate-bound chemoattractants (the gradient of the chemoattractant being expressed or bound on a surface, in contrast to the ...
Complexin is a small highly charged cytosolic protein that is hydrophilic, rich in glutamic acid and lysine residues. [3] Complexin's central region (amino acids 48–70) binds to the SNARE core as an anti-parallel α-helix, which attaches complexin to the SNARE complex.
Kinesin is a protein functioning as a molecular biological machine. It uses protein domain dynamics on nanoscales. A protein complex or multiprotein complex is a group of two or more associated polypeptide chains. Protein complexes are distinct from multidomain enzymes, in which multiple catalytic domains are found in a single polypeptide chain ...
Kinesis, like a taxis or tropism, is a movement or activity of a cell or an organism in response to a stimulus (such as gas exposure, light intensity or ambient temperature). Unlike taxis, the response to the stimulus provided is non-directional.
These proteins after phosphorylation become activated and allow binding of others enzymes that continue the biochemical cascade. [4] [44] [45] [46] One example of a protein that binds to adaptor proteins and become activated is PLC that is very important in the lymphocyte signal pathways.
Adaptor proteins contain a variety of protein-binding modules that link protein-binding partners together and facilitate the creation of larger signaling complexes. These proteins tend to lack any intrinsic enzymatic activity themselves, [ 2 ] instead mediating specific protein–protein interactions that drive the formation of protein complexes .