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ألاسم
تَكْلِيف ; خِدْمَة ; شُغْل ; عَمَل ; فَرْض ; فَرِيضَة ; مَأْمُورِيَّة ; مُهِمَّة ; مُوجِب ; واجِب ; وَظِيفَة
الفعل
كَلَّفَ
The two-pore-domain or tandem pore domain potassium channels are a family of 15 members that form what is known as leak channels which possess Goldman-Hodgkin-Katz (open) rectification. These channels are regulated by several mechanisms including signaling lipids, oxygen tension, pH, mechanical stretch, and G-proteins . Their name is derived from the fact that the α subunits consist of four transmembrane segments, and each pair of transmembrane segments contains a pore loop between the two transmembrane segments. Thus, each subunit has two pore loops. As such, they structurally correspond to two inward-rectifier α subunits and thus form dimers in the membrane (whereas inward-rectifier α subunits form tetramers).
Each single channel does not have two pores; the name of the channel comes from the fact that each subunit has two P (pore) domains in its primary sequence. To quote Rang and Dale (2015), "The nomenclature is misleading, especially when they are incorrectly referred to as two-pore channels".
Below is a list of the 15 known two-pore-domain human potassium channels: