User:Victor Reverte/Sandbox 1
From Proteopedia
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<StructureSection load='6o5b' size='340' side='right' caption='MCU (6O58)' scene=''> | <StructureSection load='6o5b' size='340' side='right' caption='MCU (6O58)' scene=''> | ||
| - | Calcium is a main signalling effector in eukaryotic cells. Therefore, its cellular concentration is tightly regulated through processes of calcium increase and decrease. Among decrease processes, mitochondria are organelles capable of buffering high concentrations of calcium, and by doing so, they become central on cellular signalling and survival. In humans, mitochondrial calcium uptake is mediated by a protein called MCU. | + | Calcium is a main signalling effector in eukaryotic cells. Therefore, its cellular concentration is tightly regulated through processes of calcium increase and decrease. Among decrease processes, mitochondria are organelles capable of buffering high concentrations of calcium, and by doing so, they become central on cellular signalling and survival. In humans, mitochondrial calcium uptake is mediated by a protein called '''MCU'''. |
== Function == | == Function == | ||
| - | MCU is a highly selective uniporter that allows calcium entry into the mitochondrial matrix. In metazoa, it belongs to a protein complex entitled Mitochondrial Calcium Uniporter Complex (MCUC) along with EMRE, MICU1 and MICU2, which are respectively proposed as a regulator and gatekeepers of the complex. | + | '''MCU''' is a highly selective uniporter that allows calcium entry into the mitochondrial matrix. In metazoa, it belongs to a protein complex entitled '''Mitochondrial Calcium Uniporter Complex (MCUC)''' along with '''EMRE''', '''MICU1''' and '''MICU2''', which are respectively proposed as a regulator and gatekeepers of the complex. |
== Structure == | == Structure == | ||
| - | Being assembled as a tetramer, MCU monomers posses 351 amino acid residues. Each subunit can be divided into four structural domains, them being N-terminal domain (NTD), linker helix domain (LHD), coiled-coil domain (CCD), and transmembrane domain (TMD). CCD and TMD are the pore-forming subunits, while LHD links this regions to NTD. Recently, regulation of the complex and dimerization of two tetrameres were reported as functions of NTD. | + | Being assembled as a tetramer, '''MCU''' monomers posses 351 amino acid residues. Each subunit can be divided into four structural domains, them being '''N-terminal domain (NTD)''', '''linker helix domain (LHD)''', '''coiled-coil domain (CCD)''', and '''transmembrane domain (TMD)'''. '''CCD''' and '''TMD''' are the pore-forming subunits, while '''LHD''' links this regions to '''NTD'''. Recently, regulation of the complex and dimerization of two tetrameres were reported as functions of '''NTD'''. |
To guarantee selectivity, <scene name='81/817978/260wdimep265/1'>260WDIMEP265</scene>, a highly conserved sequence among protein homologues, from each monomer form two filters. The first one, dependent of <scene name='81/817978/D261/1'>D261 residues</scene> has a radius of affinity for hydrated calcium. The narrower one, is stabilized by <scene name='81/817978/E264/2'>E264</scene> and its selective for calcium radius. Finally, there’s a second constriction point at the end of the pore, formed by residues <scene name='81/817978/E288_and_v290/1'>E288 and V290</scene> of each monomer, that are involved in a juxtamembrane loop (JML). | To guarantee selectivity, <scene name='81/817978/260wdimep265/1'>260WDIMEP265</scene>, a highly conserved sequence among protein homologues, from each monomer form two filters. The first one, dependent of <scene name='81/817978/D261/1'>D261 residues</scene> has a radius of affinity for hydrated calcium. The narrower one, is stabilized by <scene name='81/817978/E264/2'>E264</scene> and its selective for calcium radius. Finally, there’s a second constriction point at the end of the pore, formed by residues <scene name='81/817978/E288_and_v290/1'>E288 and V290</scene> of each monomer, that are involved in a juxtamembrane loop (JML). | ||
Revision as of 17:08, 9 June 2019
Mitochondrial Calcium Uniporter (MCU)
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