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Commit b51b666e authored by peastman's avatar peastman
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Improvements to building membranes

parent 468c0dd2
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Showing with 25 additions and 13 deletions
wrappers/python/simtk/openmm/app/modeller.py
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...@@ -1150,8 +1150,12 @@ class Modeller(object): ...@@ -1150,8 +1150,12 @@ class Modeller(object):
self.topology = newTopology self.topology = newTopology
self.positions = newPositions self.positions = newPositions
def addMembrane(self, forcefield, minimumPadding=1*nanometer): def addMembrane(self, forcefield, membraneCenterZ=0*nanometer, minimumPadding=1*nanometer):
patchPdb = PDBFile(os.path.join(os.path.dirname(__file__), 'data', 'POPC.pdb')) patchPdb = PDBFile(os.path.join(os.path.dirname(__file__), 'data', 'POPC.pdb'))
if is_quantity(membraneCenterZ):
membraneCenterZ = membraneCenterZ.value_in_unit(nanometer)
if is_quantity(minimumPadding):
minimumPadding = minimumPadding.value_in_unit(nanometer)
# Figure out how many copies of the membrane patch we need in each direction. # Figure out how many copies of the membrane patch we need in each direction.
...@@ -1160,12 +1164,12 @@ class Modeller(object): ...@@ -1160,12 +1164,12 @@ class Modeller(object):
proteinMaxPos = max(proteinPos) proteinMaxPos = max(proteinPos)
proteinSize = proteinMaxPos-proteinMinPos proteinSize = proteinMaxPos-proteinMinPos
proteinCenterPos = (proteinMinPos+proteinMaxPos)/2 proteinCenterPos = (proteinMinPos+proteinMaxPos)/2
proteinCenterPos = Vec3(proteinCenterPos[0], proteinCenterPos[1], membraneCenterZ)
patchPos = patchPdb.positions.value_in_unit(nanometer) patchPos = patchPdb.positions.value_in_unit(nanometer)
patchSize = patchPdb.topology.getUnitCellDimensions().value_in_unit(nanometer) patchSize = patchPdb.topology.getUnitCellDimensions().value_in_unit(nanometer)
patchCenterPos = (min(patchPos)+max(patchPos))/2 patchCenterPos = (min(patchPos)+max(patchPos))/2
padding = minimumPadding.value_in_unit(nanometer) nx = ceil((proteinSize[0]+2*minimumPadding)/patchSize[0])
nx = ceil((proteinSize[0]+2*padding)/patchSize[0]) ny = ceil((proteinSize[1]+2*minimumPadding)/patchSize[1])
ny = ceil((proteinSize[1]+2*padding)/patchSize[1])
# Record the bonds for each residue. # Record the bonds for each residue.
...@@ -1208,7 +1212,10 @@ class Modeller(object): ...@@ -1208,7 +1212,10 @@ class Modeller(object):
boxSizeZ = max(boxSizeZ, self.topology.getUnitCellDimensions()[2].value_in_unit(nanometer)) boxSizeZ = max(boxSizeZ, self.topology.getUnitCellDimensions()[2].value_in_unit(nanometer))
membraneTopology.setUnitCellDimensions((nx*patchSize[0], ny*patchSize[1], boxSizeZ)) membraneTopology.setUnitCellDimensions((nx*patchSize[0], ny*patchSize[1], boxSizeZ))
# Add membrane patches. DESCRIBE HOW. # Add membrane patches. We exclude any water that is within a cutoff distance of the *actual* protein,
# and any lipid that is within a cutoff distance of the *scaled* protein. We also keep track of how
# many lipids have been excluded from each leaf of the membrane, so we can make sure exactly the same
# number get removed from each leaf.
overlapCutoff = 0.22 overlapCutoff = 0.22
chain = membraneTopology.addChain() chain = membraneTopology.addChain()
...@@ -1249,6 +1256,7 @@ class Modeller(object): ...@@ -1249,6 +1256,7 @@ class Modeller(object):
removedFromLeaf[lipidLeaf[res]] += 1 removedFromLeaf[lipidLeaf[res]] += 1
else: else:
addedLipids.append((nearest, res, resPos)) addedLipids.append((nearest, res, resPos))
skipFromLeaf = [max(removedFromLeaf)-removedFromLeaf[i] for i in (0,1)]
# Add the solvent. # Add the solvent.
...@@ -1267,13 +1275,17 @@ class Modeller(object): ...@@ -1267,13 +1275,17 @@ class Modeller(object):
lipidChain = membraneTopology.addChain() lipidChain = membraneTopology.addChain()
for (nearest, residue, pos) in addedLipids: for (nearest, residue, pos) in addedLipids:
newResidue = membraneTopology.addResidue(residue.name, lipidChain, residue.id) if skipFromLeaf[lipidLeaf[residue]] > 0:
for atom in residue.atoms(): # Remove the same number of residues from each leaf.
newAtom = membraneTopology.addAtom(atom.name, atom.element, newResidue, atom.id) skipFromLeaf[lipidLeaf[residue]] -= 1
newAtoms[atom] = newAtom else:
membranePos += pos newResidue = membraneTopology.addResidue(residue.name, lipidChain, residue.id)
for bond in resBonds[residue]: for atom in residue.atoms():
membraneTopology.addBond(newAtoms[bond[0]], newAtoms[bond[1]], bond.type, bond.order) newAtom = membraneTopology.addAtom(atom.name, atom.element, newResidue, atom.id)
newAtoms[atom] = newAtom
membranePos += pos
for bond in resBonds[residue]:
membraneTopology.addBond(newAtoms[bond[0]], newAtoms[bond[1]], bond.type, bond.order)
# Create a System for the lipids, then add in the protein as stationary particles. # Create a System for the lipids, then add in the protein as stationary particles.
...@@ -1291,7 +1303,7 @@ class Modeller(object): ...@@ -1291,7 +1303,7 @@ class Modeller(object):
f1.addException(i+numMembraneParticles, j+numMembraneParticles, 0.0, 1.0, 0.0) f1.addException(i+numMembraneParticles, j+numMembraneParticles, 0.0, 1.0, 0.0)
mergedPositions = membranePos+scaledProteinPos mergedPositions = membranePos+scaledProteinPos
# Run a simulation while slowly scaling up the protein so membrane can relax. # Run a simulation while slowly scaling up the protein so the membrane can relax.
integrator = LangevinIntegrator(10.0, 50.0, 0.001) integrator = LangevinIntegrator(10.0, 50.0, 0.001)
context = Context(system, integrator) context = Context(system, integrator)
......
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