User:Eduardo Araujo Silva/Sandbox 1
From Proteopedia
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| == Structural highlights == | == Structural highlights == | ||
| - | In the absence of an ORx, Orco is capable of forming a <scene name='10/1050291/Homotetramer/1'>homotetramer</scene>, with four subunits encircling a channel. Each subunit is composed of 7 transmembrane helices (S1-S7), an intracellular N- | + | In the absence of an ORx, Orco is capable of forming a <scene name='10/1050291/Homotetramer/1'>homotetramer</scene>, with four subunits encircling a channel. Each <scene name='10/1050291/Subunit/1'>subunit</scene> is composed of 7 transmembrane helices (S1-S7), an intracellular <FONT COLOR="blue">'''N-terminus'''</FONT> and an extracellular <FONT COLOR="red">'''C-terminus'''</FONT>. The majority of the protein is intramembranous, while small loops are exposed to the extracellular environment, and a small intracellular domain, called the anchor domain, extends into the cytoplasm. The anchor domain is named as such for establishing the majority of interactions between subunits and thus 'anchoring' each of them within the lipid membrane. The S1-S6 domains of each subunit are linked to their respective S7b helix and are 7 Å apart from the domains of the other subunits. Each subunit contributes with a S7b helix that lines the ion-conduction pathway. The pore is narrowest near the extracellular end, where two residues, Leu 473 and Val 469, forms a <scene name='10/1050291/Constriction/1'>constriction</scene>, preventing the passage of hydrated ions, which characterizes its closed state. | 
| </StructureSection> | </StructureSection> | ||
| == References == | == References == | ||
| <references/> | <references/> | ||
Revision as of 23:46, 31 May 2024
Orco
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