Пример #1
0
def GBSAGBnForce(solventDielectric=78.5, soluteDielectric=1, SA=None,
                  cutoff=None, kappa=0.0):


    """
    Indexing for tables:
        input: radius1, radius2
        index = (radius2*200-20)*21 + (radius1*200-20)
        output: index of desired value in row-by-row, 1D version of Tables 3 & 4
    """


    custom = CustomGBForce()

    custom.addPerParticleParameter("q")
    custom.addPerParticleParameter("or") # Offset radius
    custom.addPerParticleParameter("sr") # Scaled offset radius

    custom.addTabulatedFunction("getd0", Continuous2DFunction(21, 21, d0, 0.1, 0.2, 0.1, 0.2))
    custom.addTabulatedFunction("getm0", Continuous2DFunction(21, 21, m0, 0.1, 0.2, 0.1, 0.2))

    custom.addComputedValue("I",  "Ivdw+neckScale*Ineck;"
                                  "Ineck=step(radius1+radius2+neckCut-r)*getm0(radius1,radius2)/(1+100*(r-getd0(radius1,radius2))^2+0.3*1000000*(r-getd0(radius1,radius2))^6);"
                                  "Ivdw=step(r+sr2-or1)*0.5*(1/L-1/U+0.25*(r-sr2^2/r)*(1/(U^2)-1/(L^2))+0.5*log(L/U)/r);"
                                  "U=r+sr2;"
                                  "L=max(or1, D);"
                                  "D=abs(r-sr2);"
                                  "radius1=or1+offset; radius2=or2+offset;"
                                  "neckScale=0.361825; neckCut=0.68; offset=0.009", CustomGBForce.ParticlePairNoExclusions)

    custom.addComputedValue("B", "1/(1/or-tanh(1.09511284*psi-1.907992938*psi^2+2.50798245*psi^3)/radius);"
                              "psi=I*or; radius=or+offset; offset=0.009", CustomGBForce.SingleParticle)
    _createEnergyTerms(custom, solventDielectric, soluteDielectric, SA, cutoff, kappa, 0.009)
    return custom
Пример #2
0
def GBSAGBnForce(solventDielectric=78.5, soluteDielectric=1, SA=None,
                  cutoff=None, kappa=0.0):


    """
    Indexing for tables:
        input: radius1, radius2
        index = (radius2*200-20)*21 + (radius1*200-20)
        output: index of desired value in row-by-row, 1D version of Tables 3 & 4
    """


    custom = CustomGBForce()

    custom.addPerParticleParameter("q")
    custom.addPerParticleParameter("or") # Offset radius
    custom.addPerParticleParameter("sr") # Scaled offset radius

    custom.addTabulatedFunction("getd0", Discrete1DFunction(d0))
    custom.addTabulatedFunction("getm0", Discrete1DFunction(m0))

    custom.addComputedValue("I",  "Ivdw+neckScale*Ineck;"
                                  "Ineck=step(radius1+radius2+neckCut-r)*getm0(index)/(1+100*(r-getd0(index))^2+0.3*1000000*(r-getd0(index))^6);"
                                  "index = (radius2*200-20)*21 + (radius1*200-20);"
                                  "Ivdw=step(r+sr2-or1)*0.5*(1/L-1/U+0.25*(r-sr2^2/r)*(1/(U^2)-1/(L^2))+0.5*log(L/U)/r);"
                                  "U=r+sr2;"
                                  "L=max(or1, D);"
                                  "D=abs(r-sr2);"
                                  "radius1=or1+offset; radius2=or2+offset;"
                                  "neckScale=0.361825; neckCut=0.68; offset=0.009", CustomGBForce.ParticlePairNoExclusions)

    custom.addComputedValue("B", "1/(1/or-tanh(1.09511284*psi-1.907992938*psi^2+2.50798245*psi^3)/radius);"
                              "psi=I*or; radius=or+offset; offset=0.009", CustomGBForce.SingleParticle)
    _createEnergyTerms(custom, solventDielectric, soluteDielectric, SA, cutoff, kappa, 0.009)
    return custom
Пример #3
0
def GBSAGBn2Force(solventDielectric=78.5, soluteDielectric=1, SA=None,
                  cutoff=None, kappa=0.0):


    """
    Indexing for tables:
        input: radius1, radius2
        index = (radius2*200-20)*21 + (radius1*200-20)
        output: index of desired value in row-by-row, 1D version of Tables 3 & 4
    """


    custom = CustomGBForce()

    custom.addPerParticleParameter("q")
    custom.addPerParticleParameter("radius")
    custom.addPerParticleParameter("scale")
    custom.addPerParticleParameter("alpha")
    custom.addPerParticleParameter("beta")
    custom.addPerParticleParameter("gamma")

    if kappa > 0: custom.addGlobalParameter('kappa', kappa)
    custom.addGlobalParameter("solventDielectric", solventDielectric)
    custom.addGlobalParameter("soluteDielectric", soluteDielectric)
    custom.addGlobalParameter("offset", 0.0195141)
    custom.addGlobalParameter("neckScale", 0.826836)
    custom.addGlobalParameter("neckCut", 0.68)

    custom.addTabulatedFunction("getd0", Discrete1DFunction(d0))
    custom.addTabulatedFunction("getm0", Discrete1DFunction(m0))

    custom.addComputedValue("I",  "Ivdw+neckScale*Ineck;"
                                  "Ineck=step(radius1+radius2+neckCut-r)*getm0(index)/(1+100*(r-getd0(index))^2+0.3*1000000*(r-getd0(index))^6);"
                                  "index = (radius2*200-20)*21 + (radius1*200-20);"
                                  "Ivdw=step(r+sr2-or1)*0.5*(1/L-1/U+0.25*(r-sr2^2/r)*(1/(U^2)-1/(L^2))+0.5*log(L/U)/r);"
                                  "U=r+sr2;"
                                  "L=max(or1, D);"
                                  "D=abs(r-sr2);"
                                  "sr2 = scale2*or2;"
                                  "or1 = radius1-offset; or2 = radius2-offset", CustomGBForce.ParticlePairNoExclusions)

    custom.addComputedValue("B", "1/(1/or-tanh(alpha*psi-beta*psi^2+gamma*psi^3)/radius);"
                              "psi=I*or; or=radius-offset", CustomGBForce.SingleParticle)
    _createEnergyTerms(custom, SA, cutoff, kappa)
    return custom
Пример #4
0
def GBSAGBn2Force(solventDielectric=78.5,
                  soluteDielectric=1,
                  SA=None,
                  cutoff=None,
                  kappa=0.0):
    """
    Indexing for tables:
        input: radius1, radius2
        index = (radius2*200-20)*21 + (radius1*200-20)
        output: index of desired value in row-by-row, 1D version of Tables 3 & 4
    """

    custom = CustomGBForce()

    custom.addPerParticleParameter("q")
    custom.addPerParticleParameter("or")  # Offset radius
    custom.addPerParticleParameter("sr")  # Scaled offset radius
    custom.addPerParticleParameter("alpha")
    custom.addPerParticleParameter("beta")
    custom.addPerParticleParameter("gamma")

    custom.addTabulatedFunction(
        "getd0", Continuous2DFunction(21, 21, d0, 0.1, 0.2, 0.1, 0.2))
    custom.addTabulatedFunction(
        "getm0", Continuous2DFunction(21, 21, m0, 0.1, 0.2, 0.1, 0.2))

    custom.addComputedValue(
        "I", "Ivdw+neckScale*Ineck;"
        "Ineck=step(radius1+radius2+neckCut-r)*getm0(radius1,radius2)/(1+100*(r-getd0(radius1,radius2))^2+0.3*1000000*(r-getd0(radius1,radius2))^6);"
        "Ivdw=step(r+sr2-or1)*0.5*(1/L-1/U+0.25*(r-sr2^2/r)*(1/(U^2)-1/(L^2))+0.5*log(L/U)/r);"
        "U=r+sr2;"
        "L=max(or1, D);"
        "D=abs(r-sr2);"
        "radius1=or1+offset; radius2=or2+offset;"
        "neckScale=0.826836; neckCut=0.68; offset=0.0195141",
        CustomGBForce.ParticlePairNoExclusions)

    custom.addComputedValue(
        "B", "1/(1/or-tanh(alpha*psi-beta*psi^2+gamma*psi^3)/radius);"
        "psi=I*or; radius=or+offset; offset=0.0195141",
        CustomGBForce.SingleParticle)
    _createEnergyTerms(custom, solventDielectric, soluteDielectric, SA, cutoff,
                       kappa, 0.0195141)
    return custom