Myosin: Difference between revisions
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<StructureSection load='3i5f' size='350' side='right' caption='Squid myosin II: heavy chain (grey), regulatory light chain (green), catalytic light chain (pink) complex with ADP and Mg+2 ion (green) [[3i5f]]' scene=''> | |||
== Introduction == | |||
[[Myosin]] is one of three major classes of molecular motor proteins: myosin, dynein, and kinesin. As the most abundant of these proteins myosin plays a structural and enzymatic role in muscle contraction and intracellular motility. Myosin was first discovered in muscle in the 19th century. <ref name="Spudich">PMID: 8824453 </ref> Myosin is a superfamily of proteins which bind actin, hydrolyze ATP and transduce force. Thus most are located in muscle cells. Composed of head, neck and tail domains. Head domain binds the actin and moves along it. The neck is a linker and binds the light chains which have a regulatory function. The tail interacts with cargo molecules (CBD)m. There are 18 classes of myosin.<br /> | |||
[[Myosin]] is one of three major classes of molecular motor proteins: myosin, dynein, and kinesin. As the most abundant of these proteins myosin plays a structural and enzymatic role in muscle contraction and intracellular motility. Myosin was first discovered in muscle in the 19th century. <ref name="Spudich">PMID: 8824453 </ref> Myosin is a superfamily of proteins which bind actin, hydrolyze ATP and transduce force. Thus most are located in muscle cells. Composed of head, neck and tail domains. Head domain binds the actin and moves along it. The neck is a linker and binds the light chains which have a regulatory function. The tail interacts with cargo molecules (CBD)m. There are 18 classes of myosin. | '''Unconventional myosin''' are thought not to form filaments<ref>PMID:12471888</ref>.<br /> | ||
*'''Myosin II''' (MII) is best studied. It drives high-speed motility like muscle contraction<ref>PMID:15935670</ref>. MII contains 2 heavy chains (HC) which constitute the head or motor domain (MD) and the tail domain and 4 light chains (LC) which are referred to as the essential LC (ELC) and the regulatory LC (RLC). <br /> | |||
*'''Myosin III''' (MIII) contains a C-terminal kinase domain connected to the motor domain. | |||
*'''Myosin V''' (MV) works with microtubule based motors like kinesin<ref>PMID:10448864</ref>. | |||
*'''Myosin VI''' (MVI) moves toward the minus end of the actin filament<ref>PMID:15473855</ref>. | |||
*'''Myosin VII''' (MVII) has a short tail and may act in the movement of intra-cellular membranes<ref>PMID:8884266</ref>. | |||
*'''Myosin X''' (MX) is a downstream effector of PI(3)K during phagocytosis<ref>PMID:12055636</ref>. | |||
*'''Myosin XI''' (MXI) links the nuclear membrane to the cytoskeleton<ref>PMID:23973298</ref>. | |||
See also [[Myosin (hebrew)]]. | |||
==Crystallization and X-ray diffraction== | ==Crystallization and X-ray diffraction== | ||
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==Structure== | ==Structure== | ||
[[Image:Myosin_chains.gif|thumb|left|Myosin filament]] | [[Image:Myosin_chains.gif|thumb|left|Myosin filament]] | ||
Myosin has a molecular size of approximately 520 kilodaltons with a total of six subunits. It has two 220 kD heavy chains which make the majority of the overall structure and two pairs of light chains which vary in size.<ref name="Rayment" /> The molecule is asymmetric, having a long tail and two globular heads. Each heavy chains composes the bulk of one of the globular heads. | Myosin has a molecular size of approximately 520 kilodaltons with a total of six subunits. It has two 220 kD heavy chains which make the majority of the overall structure and two pairs of light chains which vary in size.<ref name="Rayment" /> The molecule is asymmetric, having a long tail and two globular heads. Each heavy chains composes the bulk of one of the globular heads. Sub-fragment-1(S1) also termed the myosin head consists of ATP, actin, and two light chain binding sites. Each globular head has a heavy chain and two light chains for a combined molecular size of about 130 kD. <ref name="Rayment" /> | ||
The myosin head is | The myosin head is asymmetrical with a length of 165 Angstroms and 65 Angstroms in width, with a total thickness of about 40 Angstroms. <ref name="Rayment" /> About 48% of the amino acid residues in the myosin head are dominated by α helices. At the carboxyl terminus one long α helix of about 85 Angstroms extends in a left-handed coil. This particular helix forms the light chain binding region of the globular domain <ref name="Rayment" /> The amino terminus of each heavy chain has a large globular domain containing the site of ATP hydrolysis. | ||
{{Clear}} | {{Clear}} | ||
==Function== | ==Function== | ||
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http://www.dnatube.com/video/389/A-Moving-Myosin-Motor-Protein-myosin-actin-interaction | http://www.dnatube.com/video/389/A-Moving-Myosin-Motor-Protein-myosin-actin-interaction | ||
==Disease== | |||
Mutations in MIIA cause early onset myopathy<ref>PMID:20418530</ref>. Mutations in MVIIA cause Usher syndrome<ref>PMID:7870171</ref>. | |||
== 3D Structures of Myosin == | == 3D Structures of Myosin == | ||
[[Myosin 3D Structures]] | |||
</StructureSection> | |||
== | == References == | ||
<references/> | <references/> | ||
[[Category:Topic Page]] | [[Category:Topic Page]] | ||