Mechanosensitive ion channel
Encyclopedia
Mechanosensitive channels (MS channels) are found in a number of tissues and organisms and are thought to be the sensors for a number of systems including the senses of touch, hearing and balance, as well as participating in cardiovascular regulation and osmotic homeostasis (e.g. thirst). They are present in the membranes of organisms from the three domains of life: bacteria, archaea, and eukarya.. Mechanosensitive channels were first observed in chick skeletal muscles by Falguni Guharay and Frederick Sachs in 1983 and the results were published in 1984
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The bacterial MS channels are the best studied, and provide a paradigm of how a protein senses membrane stretch. They are involved in osmotic homeostasis, serving as 'emergency release valves' protecting the cell from acute decreases in osmotic environment. There are two families of bacterial MS channels:
The MscS family is much larger and more variable in size and sequence than the MscL family. Much of the diversity in MscS proteins occurs in the size of the transmembrane regions, which ranges from three to eleven transmembrane helices, although the three C-terminal helices are conserved.
MscS folds as a homo-heptamer with a cylindrical shape, and can be divided into transmembrane and extramembrane regions: an N-terminal periplasmic region, a transmembrane region, and a C-terminal cytoplasmic region (middle and C-terminal domains). The transmembrane region forms a channel through the membrane that opens into a chamber enclosed by the extramembrane portion, the latter connecting to the cytoplasm through distinct portals.
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The bacterial MS channels are the best studied, and provide a paradigm of how a protein senses membrane stretch. They are involved in osmotic homeostasis, serving as 'emergency release valves' protecting the cell from acute decreases in osmotic environment. There are two families of bacterial MS channels:
- Large-conductance mechanosensitive channel, MscL
- Small-conductance MS channels (MscS or YggB). The pressure threshold for MscS opening is 50% that of MscL.
The MscS family is much larger and more variable in size and sequence than the MscL family. Much of the diversity in MscS proteins occurs in the size of the transmembrane regions, which ranges from three to eleven transmembrane helices, although the three C-terminal helices are conserved.
MscS folds as a homo-heptamer with a cylindrical shape, and can be divided into transmembrane and extramembrane regions: an N-terminal periplasmic region, a transmembrane region, and a C-terminal cytoplasmic region (middle and C-terminal domains). The transmembrane region forms a channel through the membrane that opens into a chamber enclosed by the extramembrane portion, the latter connecting to the cytoplasm through distinct portals.