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</source> | </source> | ||
− | = Example = | + | = Examples = |
+ | == Example 1 - starting with a complex in a single files == | ||
+ | <source lang="python"> | ||
+ | # load complex | ||
+ | # Haemoglobin in this example illustrates careful use of selection algebra | ||
+ | load 2HHB.pdb | ||
+ | |||
+ | # create objects for alpha1, beta1 and alpha1,beta1 pair of subunits | ||
+ | create alpha1, 2HHB and chain A | ||
+ | create beta1, 2HHB and chain B | ||
+ | create ab1, 2HHB and chain A+B | ||
+ | |||
+ | # get hydrogens onto everything (NOTE: must have valid valences on the ligand...) | ||
+ | h_add | ||
+ | |||
+ | # make sure all atoms within an object occlude one another | ||
+ | flag ignore, none | ||
+ | |||
+ | # use solvent-accessible surface with high sampling density | ||
+ | set dot_solvent, 1 | ||
+ | set dot_density, 3 | ||
+ | |||
+ | # measure the components individually storing the results for later | ||
+ | alpha1_area=cmd.get_area("alpha1") | ||
+ | beta1_area=cmd.get_area("beta1") | ||
+ | |||
+ | |||
+ | # measure the alpha1,beta1 pair | ||
+ | ab1_area=cmd.get_area("ab1") | ||
+ | |||
+ | # now print results and do some maths to get the buried surface | ||
+ | print alpha1_area | ||
+ | print beta1_area | ||
+ | print ab1_area | ||
+ | print (alpha1_area + beta1_area) - ab1_area | ||
+ | </source> | ||
+ | |||
+ | |||
+ | |||
+ | == Example 2 - starting with two components in separate files == | ||
<source lang="python"> | <source lang="python"> | ||
# load components separately | # load components separately | ||
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</source> | </source> | ||
+ | ==Example 3 - using load_b to get surface area per atom == | ||
<source lang="python"> | <source lang="python"> | ||
# example usage of load_b | # example usage of load_b |
Revision as of 15:28, 3 February 2011
get_area calculates the surface area in square Angstroms of the selection given. Note that the accessibility is assessed in the context of the object(s) that the selection is part of. So, to get the surface areas of e.g. a component of a complex, you should make a new object containing a copy of just that component and calculate its area.
USAGE
get_area sele [,state[, load_b ]]
PYMOL API
cmd.get_area(string selection="(all)", load_b=0, state=0 )
Examples
Example 1 - starting with a complex in a single files
# load complex
# Haemoglobin in this example illustrates careful use of selection algebra
load 2HHB.pdb
# create objects for alpha1, beta1 and alpha1,beta1 pair of subunits
create alpha1, 2HHB and chain A
create beta1, 2HHB and chain B
create ab1, 2HHB and chain A+B
# get hydrogens onto everything (NOTE: must have valid valences on the ligand...)
h_add
# make sure all atoms within an object occlude one another
flag ignore, none
# use solvent-accessible surface with high sampling density
set dot_solvent, 1
set dot_density, 3
# measure the components individually storing the results for later
alpha1_area=cmd.get_area("alpha1")
beta1_area=cmd.get_area("beta1")
# measure the alpha1,beta1 pair
ab1_area=cmd.get_area("ab1")
# now print results and do some maths to get the buried surface
print alpha1_area
print beta1_area
print ab1_area
print (alpha1_area + beta1_area) - ab1_area
Example 2 - starting with two components in separate files
# load components separately
load my_ligand.pdb
load my_target.pdb
# get hydrogens onto everything (NOTE: must have valid valences on the ligand...)
h_add
# make sure all atoms within an object occlude one another
flag ignore, none
# use solvent-accessible surface with high sampling density
set dot_solvent, 1
set dot_density, 3
# measure the components individually
ligand_area=cmd.get_area("my_ligand")
target_area=cmd.get_area("my_target")
# create the complex
create my_complex, my_ligand my_target
# measure the complex
complex_area=cmd.get_area("my_complex")
# now print results
print ligand_area
print target_area
print complex_area
print (ligand_area + target_area) - complex_area
Example 3 - using load_b to get surface area per atom
# example usage of load_b
# select some organic small molecule
select ligand, br. first organic
# get its area and load it into it's b-factor column
get_area ligand, load_b=1
# print out the b-factor/areas per atom
iterate ligand, print b
See Also
- For an example of load_b in use check out FindSurfaceResidues.
- Surface, most notably Surface#Calculating_a_partial_surface.