vblinv=1.0D0/vbl
vblinv2=vblinv*vblinv
#ifdef CRYST_BOND
- read (ibond,*) vbldp0,akp
- do i=1,ntyp
+ read (ibond,*) vbldp0,vbldpdum,akp
+ do i=1,ntyp
nbondterm(i)=1
read (ibond,*) vbldsc0(1,i),aksc(1,i)
dsc(i) = vbldsc0(1,i)
endif
enddo
#else
- read (ibond,*) ijunk,vbldp0,akp,rjunk
+ read (ibond,*) ijunk,vbldp0,vbldpdum,akp,rjunk
do i=1,ntyp
read (ibond,*) nbondterm(i),(vbldsc0(j,i),aksc(j,i),abond0(j,i),
& j=1,nbondterm(i))
& ntheterm3,nsingle,ndouble
nntheterm=max0(ntheterm,ntheterm2,ntheterm3)
read (ithep,*) (ithetyp(i),i=1,ntyp1)
- do i=1,maxthetyp
- do j=1,maxthetyp
- do k=1,maxthetyp
- aa0thet(i,j,k)=0.0d0
+ do i=-ntyp1,-1
+ ithetyp(i)=-ithetyp(-i)
+ enddo
+ do iblock=1,2
+ do i=-maxthetyp,maxthetyp
+ do j=-maxthetyp,maxthetyp
+ do k=-maxthetyp,maxthetyp
+ aa0thet(i,j,k,iblock)=0.0d0
do l=1,ntheterm
- aathet(l,i,j,k)=0.0d0
+ aathet(l,i,j,k,iblock)=0.0d0
enddo
do l=1,ntheterm2
do m=1,nsingle
- bbthet(m,l,i,j,k)=0.0d0
- ccthet(m,l,i,j,k)=0.0d0
- ddthet(m,l,i,j,k)=0.0d0
- eethet(m,l,i,j,k)=0.0d0
+ bbthet(m,l,i,j,k,iblock)=0.0d0
+ ccthet(m,l,i,j,k,iblock)=0.0d0
+ ddthet(m,l,i,j,k,iblock)=0.0d0
+ eethet(m,l,i,j,k,iblock)=0.0d0
enddo
enddo
do l=1,ntheterm3
do m=1,ndouble
do mm=1,ndouble
- ffthet(mm,m,l,i,j,k)=0.0d0
- ggthet(mm,m,l,i,j,k)=0.0d0
+ ffthet(mm,m,l,i,j,k,iblock)=0.0d0
+ ggthet(mm,m,l,i,j,k,iblock)=0.0d0
enddo
enddo
enddo
enddo
enddo
enddo
- do i=1,nthetyp
- do j=1,nthetyp
- do k=1,nthetyp
- read (ithep,'(3a)') res1,res2,res3
- read (ithep,*) aa0thet(i,j,k)
- read (ithep,*)(aathet(l,i,j,k),l=1,ntheterm)
+ enddo
+ do iblock=1,2
+ do i=0,nthetyp
+ do j=-nthetyp,nthetyp
+ do k=-nthetyp,nthetyp
+ read (ithep,'(6a)') res1
+ read (ithep,*) aa0thet(i,j,k,iblock)
+ read (ithep,*)(aathet(l,i,j,k,iblock),l=1,ntheterm)
read (ithep,*)
- & ((bbthet(lll,ll,i,j,k),lll=1,nsingle),
- & (ccthet(lll,ll,i,j,k),lll=1,nsingle),
- & (ddthet(lll,ll,i,j,k),lll=1,nsingle),
- & (eethet(lll,ll,i,j,k),lll=1,nsingle),ll=1,ntheterm2)
+ & ((bbthet(lll,ll,i,j,k,iblock),lll=1,nsingle),
+ & (ccthet(lll,ll,i,j,k,iblock),lll=1,nsingle),
+ & (ddthet(lll,ll,i,j,k,iblock),lll=1,nsingle),
+ & (eethet(lll,ll,i,j,k,iblock),lll=1,nsingle)
+ & ,ll=1,ntheterm2)
read (ithep,*)
- & (((ffthet(llll,lll,ll,i,j,k),ffthet(lll,llll,ll,i,j,k),
- & ggthet(llll,lll,ll,i,j,k),ggthet(lll,llll,ll,i,j,k),
+ & (((ffthet(llll,lll,ll,i,j,k,iblock),
+ & ffthet(lll,llll,ll,i,j,k,iblock),
+ & ggthet(llll,lll,ll,i,j,k,iblock),
+ & ggthet(lll,llll,ll,i,j,k,iblock),
& llll=1,lll-1),lll=2,ndouble),ll=1,ntheterm3)
enddo
enddo
do i=1,nthetyp
do j=1,nthetyp
do l=1,ntheterm
- aathet(l,i,j,nthetyp+1)=aathet(l,i,j,1)
- aathet(l,nthetyp+1,i,j)=aathet(l,1,i,j)
+ aathet(l,i,j,nthetyp+1,iblock)=0.0d0
+ aathet(l,nthetyp+1,i,j,iblock)=0.0d0
enddo
- aa0thet(i,j,nthetyp+1)=aa0thet(i,j,1)
- aa0thet(nthetyp+1,i,j)=aa0thet(1,i,j)
+ aa0thet(i,j,nthetyp+1,iblock)=0.0d0
+ aa0thet(nthetyp+1,i,j,iblock)=0.0d0
enddo
do l=1,ntheterm
- aathet(l,nthetyp+1,i,nthetyp+1)=aathet(l,1,i,1)
+ aathet(l,nthetyp+1,i,nthetyp+1,iblock)=0.0d0
enddo
- aa0thet(nthetyp+1,i,nthetyp+1)=aa0thet(1,i,1)
+ aa0thet(nthetyp+1,i,nthetyp+1,iblock)=0.0d0
enddo
+ enddo
+C Substitution for D aminoacids from symmetry.
+ do iblock=1,2
+ do i=-nthetyp,0
+ do j=-nthetyp,nthetyp
+ do k=-nthetyp,nthetyp
+ aa0thet(i,j,k,iblock)=aa0thet(-i,-j,-k,iblock)
+ do l=1,ntheterm
+ aathet(l,i,j,k,iblock)=aathet(l,-i,-j,-k,iblock)
+ enddo
+ do ll=1,ntheterm2
+ do lll=1,nsingle
+ bbthet(lll,ll,i,j,k,iblock)=bbthet(lll,ll,-i,-j,-k,iblock)
+ ccthet(lll,ll,i,j,k,iblock)=-ccthet(lll,ll,-i,-j,-k,iblock)
+ ddthet(lll,ll,i,j,k,iblock)=ddthet(lll,ll,-i,-j,-k,iblock)
+ eethet(lll,ll,i,j,k,iblock)=-eethet(lll,ll,-i,-j,-k,iblock)
+ enddo
+ enddo
+ do ll=1,ntheterm3
+ do lll=2,ndouble
+ do llll=1,lll-1
+ ffthet(llll,lll,ll,i,j,k,iblock)=
+ & ffthet(llll,lll,ll,-i,-j,-k,iblock)
+ ffthet(lll,llll,ll,i,j,k,iblock)=
+ & ffthet(lll,llll,ll,-i,-j,-k,iblock)
+ ggthet(llll,lll,ll,i,j,k,iblock)=
+ & -ggthet(llll,lll,ll,-i,-j,-k,iblock)
+ ggthet(lll,llll,ll,i,j,k,iblock)=
+ & -ggthet(lll,llll,ll,-i,-j,-k,iblock)
+ enddo !ll
+ enddo !lll
+ enddo !llll
+ enddo !k
+ enddo !j
+ enddo !i
+ enddo !iblock
+
C
C Control printout of the coefficients of virtual-bond-angle potentials
C
write (iout,'(//4a)')
& 'Type ',onelett(i),onelett(j),onelett(k)
write (iout,'(//a,10x,a)') " l","a[l]"
- write (iout,'(i2,1pe15.5)') 0,aa0thet(i,j,k)
+ write (iout,'(i2,1pe15.5)') 0,aa0thet(i,j,k,iblock)
write (iout,'(i2,1pe15.5)')
- & (l,aathet(l,i,j,k),l=1,ntheterm)
+ & (l,aathet(l,i,j,k,iblock),l=1,ntheterm)
do l=1,ntheterm2
write (iout,'(//2h m,4(9x,a,3h[m,i1,1h]))')
& "b",l,"c",l,"d",l,"e",l
do m=1,nsingle
write (iout,'(i2,4(1pe15.5))') m,
- & bbthet(m,l,i,j,k),ccthet(m,l,i,j,k),
- & ddthet(m,l,i,j,k),eethet(m,l,i,j,k)
+ & bbthet(m,l,i,j,k,iblock),ccthet(m,l,i,j,k,iblock),
+ & ddthet(m,l,i,j,k,iblock),eethet(m,l,i,j,k,iblock)
enddo
enddo
do l=1,ntheterm3
do m=2,ndouble
do n=1,m-1
write (iout,'(i1,1x,i1,4(1pe15.5))') n,m,
- & ffthet(n,m,l,i,j,k),ffthet(m,n,l,i,j,k),
- & ggthet(n,m,l,i,j,k),ggthet(m,n,l,i,j,k)
+ & ffthet(n,m,l,i,j,k,iblock),
+ & ffthet(m,n,l,i,j,k,iblock),
+ & ggthet(n,m,l,i,j,k,iblock),
+ & ggthet(m,n,l,i,j,k,iblock)
enddo
enddo
enddo
endif
#endif
C
-C 5/21/07 (AL) Read coefficients of the backbone-local sidechain-local
-C correlation energies.
-C
- read (isccor,*) nterm_sccor
- do i=1,20
- do j=1,20
- read (isccor,'(a)')
- do k=1,nterm_sccor
- read (isccor,*)
- & kk,v1sccor(k,i,j),v2sccor(k,i,j)
+C Read of Side-chain backbone correlation parameters
+C Modified 11 May 2012 by Adasko
+CCC
+ read (isccor,*) nsccortyp
+ read (isccor,*) (isccortyp(i),i=1,ntyp)
+ do i=-ntyp,-1
+ isccortyp(i)=-isccortyp(-i)
+ enddo
+ iscprol=isccortyp(20)
+c write (iout,*) 'ntortyp',ntortyp
+ maxinter=3
+cc maxinter is maximum interaction sites
+ do l=1,maxinter
+ do i=1,nsccortyp
+ do j=1,nsccortyp
+ read (isccor,*)
+ &nterm_sccor(i,j),nlor_sccor(i,j)
+ v0ijsccor=0.0d0
+ v0ijsccor1=0.0d0
+ v0ijsccor2=0.0d0
+ v0ijsccor3=0.0d0
+ si=-1.0d0
+ nterm_sccor(-i,j)=nterm_sccor(i,j)
+ nterm_sccor(-i,-j)=nterm_sccor(i,j)
+ nterm_sccor(i,-j)=nterm_sccor(i,j)
+ do k=1,nterm_sccor(i,j)
+ read (isccor,*) kk,v1sccor(k,l,i,j)
+ & ,v2sccor(k,l,i,j)
+ if (j.eq.iscprol) then
+ if (i.eq.isccortyp(10)) then
+ v1sccor(k,l,i,-j)=v1sccor(k,l,i,j)
+ v2sccor(k,l,i,-j)=-v2sccor(k,l,i,j)
+ else
+ v1sccor(k,l,i,-j)=v1sccor(k,l,i,j)*0.5d0
+ & +v2sccor(k,l,i,j)*dsqrt(0.75d0)
+ v2sccor(k,l,i,-j)=-v2sccor(k,l,i,j)*0.5d0
+ & +v1sccor(k,l,i,j)*dsqrt(0.75d0)
+ v1sccor(k,l,-i,-j)=v1sccor(k,l,i,j)
+ v2sccor(k,l,-i,-j)=-v2sccor(k,l,i,j)
+ v1sccor(k,l,-i,j)=v1sccor(k,l,i,-j)
+ v2sccor(k,l,-i,j)=-v2sccor(k,l,i,-j)
+ endif
+ else
+ if (i.eq.isccortyp(10)) then
+ v1sccor(k,l,i,-j)=v1sccor(k,l,i,j)
+ v2sccor(k,l,i,-j)=-v2sccor(k,l,i,j)
+ else
+ if (j.eq.isccortyp(10)) then
+ v1sccor(k,l,-i,j)=v1sccor(k,l,i,j)
+ v2sccor(k,l,-i,j)=-v2sccor(k,l,i,j)
+ else
+ v1sccor(k,l,i,-j)=-v1sccor(k,l,i,j)
+ v2sccor(k,l,i,-j)=-v2sccor(k,l,i,j)
+ v1sccor(k,l,-i,-j)=v1sccor(k,l,i,j)
+ v2sccor(k,l,-i,-j)=-v2sccor(k,l,i,j)
+ v1sccor(k,l,-i,j)=v1sccor(k,l,i,-j)
+ v2sccor(k,l,-i,j)=-v2sccor(k,l,i,-j)
+ endif
+ endif
+ endif
+ v0ijsccor=v0ijsccor+si*v1sccor(k,l,i,j)
+ v0ijsccor1=v0ijsccor+si*v1sccor(k,l,-i,j)
+ v0ijsccor2=v0ijsccor+si*v1sccor(k,l,i,-j)
+ v0ijsccor3=v0ijsccor+si*v1sccor(k,l,-i,-j)
+ si=-si
+ enddo
+ do k=1,nlor_sccor(i,j)
+ read (isccor,*) kk,vlor1sccor(k,i,j),
+ & vlor2sccor(k,i,j),vlor3sccor(k,i,j)
+ v0ijsccor=v0ijsccor+vlor1sccor(k,i,j)/
+ &(1+vlor3sccor(k,i,j)**2)
enddo
+ v0sccor(l,i,j)=v0ijsccor
+ v0sccor(l,-i,j)=v0ijsccor1
+ v0sccor(l,i,-j)=v0ijsccor2
+ v0sccor(l,-i,-j)=v0ijsccor3
+ enddo
enddo
enddo
close (isccor)
if (lprint) then
write (iout,'(/a/)') 'Torsional constants of SCCORR:'
- do i=1,20
- do j=1,20
+ do i=1,nsccortyp
+ do j=1,nsccortyp
write (iout,*) 'ityp',i,' jtyp',j
- do k=1,nterm_sccor
- write (iout,'(2(1pe15.5))') v1sccor(k,i,j),v2sccor(k,i,j)
+ write (iout,*) 'Fourier constants'
+ do k=1,nterm_sccor(i,j)
+ write (iout,'(2(1pe15.5))')
+ & v1sccor(k,l,i,j),v2sccor(k,l,i,j)
+ enddo
+ write (iout,*) 'Lorenz constants'
+ do k=1,nlor_sccor(i,j)
+ write (iout,'(3(1pe15.5))')
+ & vlor1sccor(k,i,j),vlor2sccor(k,i,j),vlor3sccor(k,i,j)
enddo
enddo
enddo
endif
goto 50
C---------------------- GB or BP potential -----------------------------
- 30 read (isidep,*)((eps(i,j),j=i,ntyp),i=1,ntyp),
- & (sigma0(i),i=1,ntyp),(sigii(i),i=1,ntyp),(chip0(i),i=1,ntyp),
- & (alp(i),i=1,ntyp)
+ 30 do i=1,ntyp
+ read (isidep,*)(eps(i,j),j=i,ntyp)
+ enddo
+ read (isidep,*)(sigma0(i),i=1,ntyp)
+ read (isidep,*)(sigii(i),i=1,ntyp)
+ read (isidep,*)(chip0(i),i=1,ntyp)
+ read (isidep,*)(alp(i),i=1,ntyp)
C For the GB potential convert sigma'**2 into chi'
if (ipot.eq.4) then
do i=1,ntyp
C
C Define the constants of the disulfide bridge
C
- ebr=-5.50D0
+C ebr=-5.50D0
c
c Old arbitrary potential - commented out.
c
c energy surface of diethyl disulfide.
c A. Liwo and U. Kozlowska, 11/24/03
c
- D0CM = 3.78d0
- AKCM = 15.1d0
- AKTH = 11.0d0
- AKCT = 12.0d0
- V1SS =-1.08d0
- V2SS = 7.61d0
- V3SS = 13.7d0
+C D0CM = 3.78d0
+C AKCM = 15.1d0
+C AKTH = 11.0d0
+C AKCT = 12.0d0
+C V1SS =-1.08d0
+C V2SS = 7.61d0
+C V3SS = 13.7d0
- write (iout,'(/a)') "Disulfide bridge parameters:"
- write (iout,'(a,f10.2)') 'S-S bridge energy: ',ebr
- write (iout,'(2(a,f10.2))') 'd0cm:',d0cm,' akcm:',akcm
- write (iout,'(2(a,f10.2))') 'akth:',akth,' akct:',akct
- write (iout,'(3(a,f10.2))') 'v1ss:',v1ss,' v2ss:',v2ss,
- & ' v3ss:',v3ss
+C write (iout,'(/a)') "Disulfide bridge parameters:"
+C write (iout,'(a,f10.2)') 'S-S bridge energy: ',ebr
+C write (iout,'(2(a,f10.2))') 'd0cm:',d0cm,' akcm:',akcm
+C write (iout,'(2(a,f10.2))') 'akth:',akth,' akct:',akct
+C write (iout,'(3(a,f10.2))') 'v1ss:',v1ss,' v2ss:',v2ss,
+C & ' v3ss:',v3ss
return
end
projects / unres.git / blobdiff