Tether (cell biology)
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A tether is a form of cell surface protrusion, separated from the cytoskeleton after the application of low pulling forces to the cell surface membrane. They are thin, viscoelastic tubes which can be observed in vivo due to shear flow caused by molecular bonds between blood cells and vessel walls, for example.[1]
In biochemistry, a tether is a molecule that carries one or two carbon intermediates from one active site to another. They are commonly used in lipid synthesis, gluconeogenesis, and the conversion of pyruvate into Acetyl CoA via PDH complex. Common tethers are lipoate -lysine residue complex associated with dihydrolipoyl transacetylase, which is used for carrying hydroxyethyl from hydroxyethyl TPP. This compound forms Acetyl- CoA, a convergent molecule in metabolic pathways.[citation needed]
Another tether is biotin-lysine residue complex associated with pyruvate carboxylase, an enzyme which plays an important role in gluconeogenesis. It is involved in the production of oxaloacetate from pyruvate.[citation needed]
One of the biological tethers used in the synthesis of fats is a β- mercaptoethylamine-pantothenate complex associated with an acyl carrier protein.[citation needed]
References
[edit]- ^ Pospieszalaska, Maria K.; Lasiecka, Irena; Ley, Klaus (6 April 2011). "Cell Protrusions and Tethers: A Unified Approach". Biophysical Journal. 100 (7): 1679–1707. Bibcode:2011BpJ...100.1697P. doi:10.1016/j.bpj.2011.02.038. PMC 3072668. PMID 21463583.