Difference between revisions of "Stereo Vision Exam Questions"

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Revision as of 15:33, 11 December 2006

   

Molecules are three-dimensional entities and stereo-vision of images on paper and on the screen is one of the most powerful, intuitive ways to appreciate that. We have practiced stero-vision in this course; here are a number of situations that require spatial awareness.

 
 

2002

This divergent stereo-view shows a trace of connected Cα atoms of a protein domain (the VH domain of the anti-Fluorescein antibody 4-4-20, 4FAB.PDB) and a wireframe representation of all its tryptophan sidechains.


Write down the label of the tryptophan that is a conserved element of the hydrophobic core of this domain.

 
 

2002

This divergent stereo-view shows a trace of connected Cα atoms of a Pleckstrin PH domain, 1PLS.PDB


Trace the backbone from the N-terminus to amino acid 52 with pencil or pen in one of the images.

I wouldn't ask this type of question any longer - the drawing task seems a bit convoluted for the actual skill it is supposed to test.  
 

2003

This divergent stereo-view shows selected helices from 1GTR.pdb (backbone only, light grey) and the substrate ATP (dark grey).

As you know, a strong dipole moment is generated from the synergistic interactions of carbonyl groups in alpha helices. The carbonyls point towards the negative potential.

Which three alpha helices are oriented best, so that their helix-dipole moment is aligned for favourable interactions with the ATP phosphate groups?

 
 


2003

This divergent stereo-view shows selected helices from 1A2J.pdb (DsbA).

The figure was generated with the following RasMol commands:

set background white
set stereo -5
select all
color white
restrict helix and backbone 
wireframe 90
select glu,asp
color [80,80,80]


Mark on this sheet the position of those Asp or Glu residues that are positioned to interact favourably with the helix dipole. If there are several plausible residues in a helix, mark the one closest to the correct terminus.

 
 

2003

This divergent stereo-view shows a trace of connected backbone atoms – N, Cα, C and O – as well as the cysteine sidechains of the four disulfide bridges, of the pea defensin 1JKZ.pdb.
Trace the disulfide bonded cysteine sidechains in one of the stereoviews of this picture.

 
 

2004

This divergent stereo-view shows a trace of connected backbone atoms – N, Cα and C – as well as the cysteine sidechains of the four disulfide bridges, of the pea defensin 1JKZ.pdb.
Number the cysteines from 1 to 8, from N- to C- terminus and determine the disulfide bonding topology of this protein. Write the disulfide bonded residue pairs into your exam booklet.