User:David Canner/Sandbox good: Difference between revisions
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<center><scene name='User:David_Canner/Sandbox_P/Nsh2__and_helical_ligand_out/1'>Initial Scene (Reset)</scene></center> | <center><scene name='User:David_Canner/Sandbox_P/Nsh2__and_helical_ligand_out/1'>Initial Scene (Reset)</scene></center> | ||
This loop in <scene name='User:David_Canner/Sandbox_P/Nsh2__and_helical_ligand_out/2'>the helical domain </scene> which contains the hotspots (residues 542-546) is located precisely where <scene name='User:David_Canner/Sandbox_P/Nsh2_ligand_just_ligand_full/1'> the phosphopeptide of NSH2 ligands, like PDGFR, bind to NSH2.</scene> The salt bridge formed between <scene name='User:David_Canner/Sandbox_P/Nsh2_disruption_of_salt/1'>Glu 542 and nSH2 is disrupted upon binding phosphorylated peptides</scene> like PDGFR, eliminating nSH2-mediated inhibition of p110α and activating the enzyme to phosphorylate PIP2 into PIP3. | This loop in <scene name='User:David_Canner/Sandbox_P/Nsh2__and_helical_ligand_out/2'>the helical domain </scene> which contains the hotspots (residues 542-546) is located precisely where <scene name='User:David_Canner/Sandbox_P/Nsh2_ligand_just_ligand_full/1'> the phosphopeptide of NSH2 ligands, like PDGFR, bind to NSH2.</scene> The salt bridge formed between <scene name='User:David_Canner/Sandbox_P/Nsh2_disruption_of_salt/1'>Glu 542 and nSH2 is disrupted upon binding phosphorylated peptides</scene> like PDGFR, eliminating nSH2-mediated inhibition of p110α and activating the enzyme to phosphorylate PIP2 into PIP3. | ||
====Tip #4: When | ====Tip #4: When switching focus to a new domain, it is best to zoom out and orient the reader to the new domain of interest==== | ||
=====Example from the page [[The Structure of PI3K]]:===== | =====Example from the page [[The Structure of PI3K]]:===== | ||
<center><scene name='User:David_Canner/Sandbox_P/Full/4'>Initial Scene (Reset)</scene> </center> | <center><scene name='User:David_Canner/Sandbox_P/Full/4'>Initial Scene (Reset)</scene> </center> | ||
Revision as of 13:14, 21 November 2010
How to Make Excellent Scenes
This is a list of tips and tricks to develop effective scenes for your pages. The scenes below were taken from the indicated pages.
Scene Transitions
Smooth TransitionsExample from the page HMG-CoA Reductase:The HMG binding pocket is the site of catalysis in HMGR. is a critical structural element of this binding site. Residues and are positioned in the active site as is . It is this K691 that likely stabilizes the negatively charged oxygen of the first mevaldyl-CoA intermediate. The mevaldyl CoA intermediate is subsequently converted to Mavaldehyde with added stabilization from . It is then believed that the close proximity of increases the pKA of E559, allowing it to be a proton donor for the reduction of mevaldehyde into mevalonate. Compared with:The HMG binding pocket is the site of catalysis in HMGR. is a critical structural element of this binding site. Residues and are positioned in the active site as is ... Tip #2: It is best to establish a color scheme for all domains of interest and to stick with this color scheme throughout the analysisExample from the page The Structure of PI3K(residues 340-345) is anchored into Helix α11K of the (residues 1017-1024) nSH2 interacts with the through a network of charge-charge interactions involving two loops on nSH2 (Residues 374-377 & 350-354) and C2 residues 364-371, a strong Tip #3: Providing a wide view scene of an area of interest before zooming in provides contextExample from the page The Structure of PI3KThis loop in which contains the hotspots (residues 542-546) is located precisely where The salt bridge formed between like PDGFR, eliminating nSH2-mediated inhibition of p110α and activating the enzyme to phosphorylate PIP2 into PIP3. Tip #4: When switching focus to a new domain, it is best to zoom out and orient the reader to the new domain of interestExample from the page The Structure of PI3K:(residues 340-345) is anchored into Helix α11K of the (residues 1017-1024) nSH2 interacts with the through a network of charge-charge interactions involving two loops on nSH2 (Residues 374-377 & 350-354) and C2 residues 364-371, a strong
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