Sandbox1313

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(Lysyl-tRNA Synthase)
(Lysyl-tRNA Synthase)
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{{STRUCTURE_1bbw | PDB=1bbw | SCENE= }}
{{STRUCTURE_1bbw | PDB=1bbw | SCENE= }}
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{{STRUCTURE_1bbw| PDB=1bbw | SCENE= }}
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==Lysyl-tRNA Synthase==
==Lysyl-tRNA Synthase==
Shown here is PDB number 1bbu, lysyl-tRNA Synthase shown here complexed with the lysine substrate. It consists of both <scene name='Sandbox1313/Alpha_and_beta_strands/1'>alpha helices and beta sheets</scene> (the latter in sheets and a barrel). Below is pictured the exact same synthase complexed with it's residue of interest, lysine.
Shown here is PDB number 1bbu, lysyl-tRNA Synthase shown here complexed with the lysine substrate. It consists of both <scene name='Sandbox1313/Alpha_and_beta_strands/1'>alpha helices and beta sheets</scene> (the latter in sheets and a barrel). Below is pictured the exact same synthase complexed with it's residue of interest, lysine.
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<applet load='1bbu' size='400' color='white' frame='true' align='left' caption='Lysine-bound lysyl-tRNA synthase' />
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<applet load='1bbu' size='250' color='white' frame='true' align='left' caption='Lysine-bound lysyl-tRNA synthase' name='1bbu'/>
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As you can see in the "active site", the lysine participates in multiple hydrogen bonding interactions to stay complexed to the synthase protein as it moves into position to build the tRNA in the ribosome. Specifically,
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<scene name='Sandbox1313/Hydrogen_bonding_partners/1'>these residues</scene> trigger a complex conformational change that completely changes the synthase. These changes involve "these two loops" and some "other pieces" of the molecule. This conformational change effecively closes the active site when bound to lysine.
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In the active site, the bound lysine participates in multiple hydrogen bonding interactions to stay complexed to the synthase protein as it moves into position to build the tRNA in the ribosome. Specifically,
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<scene name='Sandbox1313/Hydrogen_bonding_partners/1'>these residues</scene> trigger a complex conformational change that completely changes the shape of part of the synthase. These changes involve <scene name='Sandbox1313/These_two_loops/1'>these two loops</scene> and some <scene name='Sandbox1313/Other_pieces/1'>other pieces</scene> of the molecule. This conformational change effectively closes the active site when bound to lysine.

Revision as of 22:46, 12 May 2009

PDB ID 1bbw

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1bbw, resolution 2.70Å ()
Gene: LYSS (Escherichia coli)
Activity: Lysine--tRNA ligase, with EC number 6.1.1.6
Related: 1bbu
Resources: FirstGlance, OCA, PDBsum, RCSB
Coordinates: save as pdb, mmCIF, xml



PDB ID 1bbw

Drag the structure with the mouse to rotate
1bbw, resolution 2.70Å ()
Gene: LYSS (Escherichia coli)
Activity: Lysine--tRNA ligase, with EC number 6.1.1.6
Related: 1bbu
Resources: FirstGlance, OCA, PDBsum, RCSB
Coordinates: save as pdb, mmCIF, xml



Lysyl-tRNA Synthase

Shown here is PDB number 1bbu, lysyl-tRNA Synthase shown here complexed with the lysine substrate. It consists of both (the latter in sheets and a barrel). Below is pictured the exact same synthase complexed with it's residue of interest, lysine.

Lysine-bound lysyl-tRNA synthase

Drag the structure with the mouse to rotate

In the active site, the bound lysine participates in multiple hydrogen bonding interactions to stay complexed to the synthase protein as it moves into position to build the tRNA in the ribosome. Specifically, trigger a complex conformational change that completely changes the shape of part of the synthase. These changes involve and some of the molecule. This conformational change effectively closes the active site when bound to lysine.

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