Sandbox 171
From Proteopedia
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| + | MYOSIN | ||
{{STRUCTURE_2mys| PDB=2mys| Scene =Sandbox_171/Newscene/1'>active site }} | {{STRUCTURE_2mys| PDB=2mys| Scene =Sandbox_171/Newscene/1'>active site }} | ||
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[[Image:Myosin_head.gif|thumb|alt=Alt text|Myosin head]] | [[Image:Myosin_head.gif|thumb|alt=Alt text|Myosin head]] | ||
[[Image:Myosin_chains.gif|thumb|alt=Alt text|Myosin filament]] | [[Image:Myosin_chains.gif|thumb|alt=Alt text|Myosin filament]] | ||
| - | Myosin has a molecular size of approximately 520 kilodaltons | + | 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. <ref name="Rayment" /> Each heavy chains composes the bulk of one of the globular heads. <ref name="Rayment" /> Subfragment-1(S1) also termed the myosin head consists of ATP, actin, and two light chain binding sites.<ref name="Rayment" /> 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 assymetrical 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. <ref name="Rayment" /> | + | The myosin head is assymetrical 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. <ref name="Rayment" /> At the carboxyl terminus one long α helix of about 85 Angstroms extends in a left-handed coil. <ref name="Rayment" /> 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. |
==Function== | ==Function== | ||
| - | + | Molecules of myosin aggregate in muscle cells to form thick filaments. <ref name="Lehninger">Nelson, D. and Cox, M.(2005). Lehninger Principles of Biochemistry. 4th ed. p.1119. </ref> | |
Click the link to access DNAtube video "A Moving Myosin Motor Protein" | Click the link to access DNAtube video "A Moving Myosin Motor Protein" | ||
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 | ||
Revision as of 05:21, 1 April 2010
| Please do NOT make changes to this Sandbox until after April 23, 2010. Sandboxes 151-200 are reserved until then for use by the Chemistry 307 class at UNBC taught by Prof. Andrea Gorrell. | |||||||||
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| 2mys, resolution 2.80Å () | |||||||||
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| Ligands: | , | ||||||||
| Non-Standard Residues: | |||||||||
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| Resources: | FirstGlance, OCA, PDBsum, RCSB | ||||||||
| Coordinates: | save as pdb, mmCIF, xml | ||||||||
Contents |
Overview
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. [1]
Crystallization and X-ray diffraction
Myosin is found in abundance, therefore it can be prepared in gram quantities. [2] For nearly 30 years the myosin head was resistant to crystallization yet by 1993 researchers discovered a mechanism to obtain x-ray quality crystals. [2] The process modified the protein by reductive methylation. [2] X-ray data was used to determine the tertiary structure of the protein. [2]
Structure
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.[2] The molecule is asymmetric, having a long tail and two globular heads. [2] Each heavy chains composes the bulk of one of the globular heads. [2] Subfragment-1(S1) also termed the myosin head consists of ATP, actin, and two light chain binding sites.[2] Each globular head has a heavy chain and two light chains for a combined molecular size of about 130 kD. [2]
The myosin head is assymetrical with a length of 165 Angstroms and 65 Angstroms in width, with a total thickness of about 40 Angstroms. [2] About 48% of the amino acid residues in the myosin head are dominated by α helices. [2] At the carboxyl terminus one long α helix of about 85 Angstroms extends in a left-handed coil. [2] This particular helix forms the light chain binding region of the globular domain [2] The amino terminus of each heavy chain has a large globular domain containing the site of ATP hydrolysis.
Function
Molecules of myosin aggregate in muscle cells to form thick filaments. [3] Click the link to access DNAtube video "A Moving Myosin Motor Protein" http://www.dnatube.com/video/389/A-Moving-Myosin-Motor-Protein-myosin-actin-interaction
Literature Cited
- ↑ Spudich JA, Finer J, Simmons B, Ruppel K, Patterson B, Uyeda T. Myosin structure and function. Cold Spring Harb Symp Quant Biol. 1995;60:783-91. PMID:8824453
- ↑ 2.00 2.01 2.02 2.03 2.04 2.05 2.06 2.07 2.08 2.09 2.10 2.11 2.12 Rayment I, Rypniewski WR, Schmidt-Base K, Smith R, Tomchick DR, Benning MM, Winkelmann DA, Wesenberg G, Holden HM. Three-dimensional structure of myosin subfragment-1: a molecular motor. Science. 1993 Jul 2;261(5117):50-8. PMID:8316857
- ↑ Nelson, D. and Cox, M.(2005). Lehninger Principles of Biochemistry. 4th ed. p.1119.
