subroutine readpdb C Read the PDB file and convert the peptide geometry into virtual-chain C geometry. implicit real*8 (a-h,o-z) include 'DIMENSIONS' include 'COMMON.LOCAL' include 'COMMON.VAR' include 'COMMON.CHAIN' include 'COMMON.INTERACT' include 'COMMON.IOUNITS' include 'COMMON.GEO' include 'COMMON.NAMES' include 'COMMON.CONTROL' include 'COMMON.DISTFIT' include 'COMMON.SETUP' character*3 seq,atom,res character*80 card dimension sccor(3,20) integer rescode ibeg=1 lsecondary=.false. nhfrag=0 nbfrag=0 do i=1,10000 read (ipdbin,'(a80)',end=10) card if (card(:5).eq.'HELIX') then nhfrag=nhfrag+1 lsecondary=.true. read(card(22:25),*) hfrag(1,nhfrag) read(card(34:37),*) hfrag(2,nhfrag) endif if (card(:5).eq.'SHEET') then nbfrag=nbfrag+1 lsecondary=.true. read(card(24:26),*) bfrag(1,nbfrag) read(card(35:37),*) bfrag(2,nbfrag) crc---------------------------------------- crc to be corrected !!! bfrag(3,nbfrag)=bfrag(1,nbfrag) bfrag(4,nbfrag)=bfrag(2,nbfrag) crc---------------------------------------- endif if (card(:3).eq.'END' .or. card(:3).eq.'TER') goto 10 C Fish out the ATOM cards. if (index(card(1:4),'ATOM').gt.0) then read (card(14:16),'(a3)') atom if (atom.eq.'CA' .or. atom.eq.'CH3') then C Calculate the CM of the preceding residue. if (ibeg.eq.0) then if (unres_pdb) then do j=1,3 dc(j,ires+nres)=sccor(j,iii) enddo else call sccenter(ires,iii,sccor) endif endif C Start new residue. read (card(24:26),*) ires read (card(18:20),'(a3)') res if (ibeg.eq.1) then ishift=ires-1 if (res.ne.'GLY' .and. res.ne. 'ACE') then ishift=ishift-1 itype(1)=21 endif ibeg=0 endif ires=ires-ishift if (res.eq.'ACE') then ity=10 else itype(ires)=rescode(ires,res,0) endif read(card(31:54),'(3f8.3)') (c(j,ires),j=1,3) c if(me.eq.king.or..not.out1file) c & write (iout,'(2i3,2x,a,3f8.3)') c & ires,itype(ires),res,(c(j,ires),j=1,3) iii=1 do j=1,3 sccor(j,iii)=c(j,ires) enddo else if (atom.ne.'O '.and.atom(1:1).ne.'H' .and. & atom.ne.'N ' .and. atom.ne.'C ') then iii=iii+1 read(card(31:54),'(3f8.3)') (sccor(j,iii),j=1,3) endif endif enddo 10 if(me.eq.king.or..not.out1file) & write (iout,'(a,i5)') ' Nres: ',ires C Calculate the CM of the last side chain. if (unres_pdb) then do j=1,3 dc(j,ires+nres)=sccor(j,iii) enddo else call sccenter(ires,iii,sccor) endif nres=ires nsup=nres nstart_sup=1 if (itype(nres).ne.10) then nres=nres+1 itype(nres)=21 if (unres_pdb) then c(1,nres)=c(1,nres-1)+3.8d0 c(2,nres)=c(2,nres-1) c(3,nres)=c(3,nres-1) else do j=1,3 dcj=c(j,nres-2)-c(j,nres-3) c(j,nres)=c(j,nres-1)+dcj c(j,2*nres)=c(j,nres) enddo endif endif do i=2,nres-1 do j=1,3 c(j,i+nres)=dc(j,i) enddo enddo do j=1,3 c(j,nres+1)=c(j,1) c(j,2*nres)=c(j,nres) enddo if (itype(1).eq.21) then nsup=nsup-1 nstart_sup=2 if (unres_pdb) then c(1,1)=c(1,2)-3.8d0 c(2,1)=c(2,2) c(3,1)=c(3,2) else do j=1,3 dcj=c(j,4)-c(j,3) c(j,1)=c(j,2)-dcj c(j,nres+1)=c(j,1) enddo endif endif C Calculate internal coordinates. if(me.eq.king.or..not.out1file)then write (iout,'(a)') & "Backbone and SC coordinates as read from the PDB" do ires=1,nres write (iout,'(2i3,2x,a,3f8.3,5x,3f8.3)') & ires,itype(ires),restyp(itype(ires)),(c(j,ires),j=1,3), & (c(j,nres+ires),j=1,3) enddo endif call int_from_cart(.true.,.false.) call sc_loc_geom(.false.) do i=1,nres thetaref(i)=theta(i) phiref(i)=phi(i) enddo do i=1,nres-1 do j=1,3 dc(j,i)=c(j,i+1)-c(j,i) dc_norm(j,i)=dc(j,i)*vbld_inv(i+1) enddo enddo do i=2,nres-1 do j=1,3 dc(j,i+nres)=c(j,i+nres)-c(j,i) dc_norm(j,i+nres)=dc(j,i+nres)*vbld_inv(i+nres) enddo c write (iout,*) i,(dc(j,i+nres),j=1,3),(dc_norm(j,i+nres),j=1,3), c & vbld_inv(i+nres) enddo c call chainbuild C Copy the coordinates to reference coordinates do i=1,2*nres do j=1,3 cref(j,i)=c(j,i) enddo enddo do j=1,nbfrag do i=1,4 bfrag(i,j)=bfrag(i,j)-ishift enddo enddo do j=1,nhfrag do i=1,2 hfrag(i,j)=hfrag(i,j)-ishift enddo enddo return end c--------------------------------------------------------------------------- subroutine int_from_cart(lside,lprn) implicit real*8 (a-h,o-z) include 'DIMENSIONS' #ifdef MPI include "mpif.h" #endif include 'COMMON.LOCAL' include 'COMMON.VAR' include 'COMMON.CHAIN' include 'COMMON.INTERACT' include 'COMMON.IOUNITS' include 'COMMON.GEO' include 'COMMON.NAMES' include 'COMMON.CONTROL' include 'COMMON.SETUP' character*3 seq,atom,res character*80 card dimension sccor(3,20) integer rescode logical lside,lprn if(me.eq.king.or..not.out1file)then if (lprn) then write (iout,'(/a)') & 'Internal coordinates calculated from crystal structure.' if (lside) then write (iout,'(8a)') ' Res ',' dvb',' Theta', & ' Gamma',' Dsc_id',' Dsc',' Alpha', & ' Beta ' else write (iout,'(4a)') ' Res ',' dvb',' Theta', & ' Gamma' endif endif endif do i=1,nres-1 iti=itype(i) if (dist(i,i+1).lt.2.0D0 .or. dist(i,i+1).gt.5.0D0) then write (iout,'(a,i4)') 'Bad Cartesians for residue',i ctest stop endif vbld(i+1)=dist(i,i+1) vbld_inv(i+1)=1.0d0/vbld(i+1) if (i.gt.1) theta(i+1)=alpha(i-1,i,i+1) if (i.gt.2) phi(i+1)=beta(i-2,i-1,i,i+1) enddo c if (unres_pdb) then c if (itype(1).eq.21) then c theta(3)=90.0d0*deg2rad c phi(4)=180.0d0*deg2rad c vbld(2)=3.8d0 c vbld_inv(2)=1.0d0/vbld(2) c endif c if (itype(nres).eq.21) then c theta(nres)=90.0d0*deg2rad c phi(nres)=180.0d0*deg2rad c vbld(nres)=3.8d0 c vbld_inv(nres)=1.0d0/vbld(2) c endif c endif if (lside) then do i=2,nres-1 do j=1,3 c(j,maxres2)=0.5D0*(2*c(j,i)+(c(j,i-1)-c(j,i))*vbld_inv(i) & +(c(j,i+1)-c(j,i))*vbld_inv(i+1)) enddo iti=itype(i) di=dist(i,nres+i) vbld(i+nres)=di if (itype(i).ne.10) then vbld_inv(i+nres)=1.0d0/di else vbld_inv(i+nres)=0.0d0 endif if (iti.ne.10) then alph(i)=alpha(nres+i,i,maxres2) omeg(i)=beta(nres+i,i,maxres2,i+1) endif if(me.eq.king.or..not.out1file)then if (lprn) & write (iout,'(a3,i4,7f10.3)') restyp(iti),i,vbld(i), & rad2deg*theta(i),rad2deg*phi(i),dsc(iti),vbld(nres+i), & rad2deg*alph(i),rad2deg*omeg(i) endif enddo else if (lprn) then do i=2,nres iti=itype(i) if(me.eq.king.or..not.out1file) & write (iout,'(a3,i4,7f10.3)') restyp(iti),i,dist(i,i-1), & rad2deg*theta(i),rad2deg*phi(i) enddo endif return end c------------------------------------------------------------------------------- subroutine sc_loc_geom(lprn) implicit real*8 (a-h,o-z) include 'DIMENSIONS' #ifdef MPI include "mpif.h" #endif include 'COMMON.LOCAL' include 'COMMON.VAR' include 'COMMON.CHAIN' include 'COMMON.INTERACT' include 'COMMON.IOUNITS' include 'COMMON.GEO' include 'COMMON.NAMES' include 'COMMON.CONTROL' include 'COMMON.SETUP' double precision x_prime(3),y_prime(3),z_prime(3) logical lprn do i=1,nres-1 do j=1,3 dc_norm(j,i)=vbld_inv(i+1)*(c(j,i+1)-c(j,i)) enddo enddo do i=2,nres-1 if (itype(i).ne.10) then do j=1,3 dc_norm(j,i+nres)=vbld_inv(i+nres)*(c(j,i+nres)-c(j,i)) enddo else do j=1,3 dc_norm(j,i+nres)=0.0d0 enddo endif enddo do i=2,nres-1 costtab(i+1) =dcos(theta(i+1)) sinttab(i+1) =dsqrt(1-costtab(i+1)*costtab(i+1)) cost2tab(i+1)=dsqrt(0.5d0*(1.0d0+costtab(i+1))) sint2tab(i+1)=dsqrt(0.5d0*(1.0d0-costtab(i+1))) cosfac2=0.5d0/(1.0d0+costtab(i+1)) cosfac=dsqrt(cosfac2) sinfac2=0.5d0/(1.0d0-costtab(i+1)) sinfac=dsqrt(sinfac2) it=itype(i) if (it.ne.10) then c C Compute the axes of tghe local cartesian coordinates system; store in c x_prime, y_prime and z_prime c do j=1,3 x_prime(j) = 0.00 y_prime(j) = 0.00 z_prime(j) = 0.00 enddo do j = 1,3 x_prime(j) = (dc_norm(j,i) - dc_norm(j,i-1))*cosfac y_prime(j) = (dc_norm(j,i) + dc_norm(j,i-1))*sinfac enddo call vecpr(x_prime,y_prime,z_prime) c C Transform the unit vector of the ith side-chain centroid, dC_norm(*,i), C to local coordinate system. Store in xx, yy, zz. c xx=0.0d0 yy=0.0d0 zz=0.0d0 do j = 1,3 xx = xx + x_prime(j)*dc_norm(j,i+nres) yy = yy + y_prime(j)*dc_norm(j,i+nres) zz = zz + z_prime(j)*dc_norm(j,i+nres) enddo xxref(i)=xx yyref(i)=yy zzref(i)=zz else xxref(i)=0.0d0 yyref(i)=0.0d0 zzref(i)=0.0d0 endif enddo if (lprn) then do i=2,nres iti=itype(i) if(me.eq.king.or..not.out1file) & write (iout,'(a3,i4,3f10.5)') restyp(iti),i,xxref(i), & yyref(i),zzref(i) enddo endif return end c--------------------------------------------------------------------------- subroutine sccenter(ires,nscat,sccor) implicit real*8 (a-h,o-z) include 'DIMENSIONS' include 'COMMON.CHAIN' dimension sccor(3,20) do j=1,3 sccmj=0.0D0 do i=1,nscat sccmj=sccmj+sccor(j,i) enddo dc(j,ires)=sccmj/nscat enddo return end c--------------------------------------------------------------------------- subroutine bond_regular implicit real*8 (a-h,o-z) include 'DIMENSIONS' include 'COMMON.VAR' include 'COMMON.LOCAL' include 'COMMON.CALC' include 'COMMON.INTERACT' include 'COMMON.CHAIN' do i=1,nres-1 vbld(i+1)=vbl vbld_inv(i+1)=1.0d0/vbld(i+1) vbld(i+1+nres)=dsc(itype(i+1)) vbld_inv(i+1+nres)=dsc_inv(itype(i+1)) c print *,vbld(i+1),vbld(i+1+nres) enddo return end