X-Git-Url: http://mmka.chem.univ.gda.pl/gitweb/?a=blobdiff_plain;f=source%2Funres%2Fsrc_MD%2Fenergy_p_new_barrier.F;h=33b9ff761b06fba732a7c11e02941407c8fb3084;hb=88af2feafd40050318384e0a14aac77a4f9fffa4;hp=2e0ac3774277e9bc85695386647e1ad71c1fa086;hpb=0574a4aadafa8a9357deb13d698ac66931fc06ff;p=unres.git diff --git a/source/unres/src_MD/energy_p_new_barrier.F b/source/unres/src_MD/energy_p_new_barrier.F index 2e0ac37..33b9ff7 100644 --- a/source/unres/src_MD/energy_p_new_barrier.F +++ b/source/unres/src_MD/energy_p_new_barrier.F @@ -1592,7 +1592,22 @@ C evdw=evdw+evdwij if (energy_dec) write (iout,'(a6,2i5,0pf7.3,a3)') & 'evdw',i,j,evdwij,' ss' +C triple bond artifac removal + do k=j+1,iend(i,iint) +C search over all next residues + if (dyn_ss_mask(k)) then +C check if they are cysteins +C write(iout,*) 'k=',k + call triple_ssbond_ene(i,j,k,evdwij) +C call the energy function that removes the artifical triple disulfide +C bond the soubroutine is located in ssMD.F + evdw=evdw+evdwij + if (energy_dec) write (iout,'(a6,2i5,0pf7.3,a3)') + & 'evdw',i,j,evdwij,'tss' + endif!dyn_ss_mask(k) + enddo! k ELSE +C cycle ind=ind+1 itypj=itype(j) c dscj_inv=dsc_inv(itypj) @@ -5822,17 +5837,22 @@ C Set lprn=.true. for debugging c lprn=.true. etors=0.0D0 do i=iphi_start,iphi_end - etors_ii=0.0D0 -c if (itype(i-2).eq.ntyp1 .or. itype(i-1).eq.ntyp1 -c & .or. itype(i).eq.ntyp1 .or. itype(i+1).eq.ntyp1) cycle + if (itype(i-2).eq.ntyp1 .or. itype(i-1).eq.ntyp1 + & .or. itype(i).eq.ntyp1) cycle + etors_ii=0.0D0 + if (iabs(itype(i)).eq.20) then + iblock=2 + else + iblock=1 + endif itori=itortyp(itype(i-2)) itori1=itortyp(itype(i-1)) phii=phi(i) gloci=0.0D0 C Regular cosine and sine terms - do j=1,nterm(itori,itori1) - v1ij=v1(j,itori,itori1) - v2ij=v2(j,itori,itori1) + do j=1,nterm(itori,itori1,iblock) + v1ij=v1(j,itori,itori1,iblock) + v2ij=v2(j,itori,itori1,iblock) cosphi=dcos(j*phii) sinphi=dsin(j*phii) etors=etors+v1ij*cosphi+v2ij*sinphi @@ -5847,7 +5867,7 @@ C [v2 cos(phi/2)+v3 sin(phi/2)]^2 + 1 C cosphi=dcos(0.5d0*phii) sinphi=dsin(0.5d0*phii) - do j=1,nlor(itori,itori1) + do j=1,nlor(itori,itori1,iblock) vl1ij=vlor1(j,itori,itori1) vl2ij=vlor2(j,itori,itori1) vl3ij=vlor3(j,itori,itori1) @@ -5860,13 +5880,14 @@ C gloci=gloci+vl1ij*(vl3ij*cosphi-vl2ij*sinphi)*pom enddo C Subtract the constant term - etors=etors-v0(itori,itori1) + etors=etors-v0(itori,itori1,iblock) if (energy_dec) write (iout,'(a6,i5,0pf7.3)') - & 'etor',i,etors_ii-v0(itori,itori1) + & 'etor',i,etors_ii-v0(itori,itori1,iblock) if (lprn) & write (iout,'(2(a3,2x,i3,2x),2i3,6f8.3/26x,6f8.3/)') & restyp(itype(i-2)),i-2,restyp(itype(i-1)),i-1,itori,itori1, - & (v1(j,itori,itori1),j=1,6),(v2(j,itori,itori1),j=1,6) + & (v1(j,itori,itori1,iblock),j=1,6), + & (v2(j,itori,itori1,iblock),j=1,6) gloc(i-3,icg)=gloc(i-3,icg)+wtor*gloci c write (iout,*) 'i=',i,' gloc=',gloc(i-3,icg) enddo @@ -5917,9 +5938,10 @@ C Set lprn=.true. for debugging lprn=.false. c lprn=.true. etors_d=0.0D0 +c write(iout,*) "a tu??" do i=iphid_start,iphid_end -c if (itype(i-2).eq.ntyp1 .or. itype(i-1).eq.ntyp1 -c & .or. itype(i).eq.ntyp1 .or. itype(i+1).eq.ntyp1) cycle + if (itype(i-2).eq.ntyp1 .or. itype(i-1).eq.ntyp1 + & .or. itype(i).eq.ntyp1 .or. itype(i+1).eq.ntyp1) cycle itori=itortyp(itype(i-2)) itori1=itortyp(itype(i-1)) itori2=itortyp(itype(i)) @@ -5927,11 +5949,15 @@ c & .or. itype(i).eq.ntyp1 .or. itype(i+1).eq.ntyp1) cycle phii1=phi(i+1) gloci1=0.0D0 gloci2=0.0D0 - do j=1,ntermd_1(itori,itori1,itori2) - v1cij=v1c(1,j,itori,itori1,itori2) - v1sij=v1s(1,j,itori,itori1,itori2) - v2cij=v1c(2,j,itori,itori1,itori2) - v2sij=v1s(2,j,itori,itori1,itori2) + iblock=1 + if (iabs(itype(i+1)).eq.20) iblock=2 + +C Regular cosine and sine terms + do j=1,ntermd_1(itori,itori1,itori2,iblock) + v1cij=v1c(1,j,itori,itori1,itori2,iblock) + v1sij=v1s(1,j,itori,itori1,itori2,iblock) + v2cij=v1c(2,j,itori,itori1,itori2,iblock) + v2sij=v1s(2,j,itori,itori1,itori2,iblock) cosphi1=dcos(j*phii) sinphi1=dsin(j*phii) cosphi2=dcos(j*phii1) @@ -5941,12 +5967,12 @@ c & .or. itype(i).eq.ntyp1 .or. itype(i+1).eq.ntyp1) cycle gloci1=gloci1+j*(v1sij*cosphi1-v1cij*sinphi1) gloci2=gloci2+j*(v2sij*cosphi2-v2cij*sinphi2) enddo - do k=2,ntermd_2(itori,itori1,itori2) + do k=2,ntermd_2(itori,itori1,itori2,iblock) do l=1,k-1 - v1cdij = v2c(k,l,itori,itori1,itori2) - v2cdij = v2c(l,k,itori,itori1,itori2) - v1sdij = v2s(k,l,itori,itori1,itori2) - v2sdij = v2s(l,k,itori,itori1,itori2) + v1cdij = v2c(k,l,itori,itori1,itori2,iblock) + v2cdij = v2c(l,k,itori,itori1,itori2,iblock) + v1sdij = v2s(k,l,itori,itori1,itori2,iblock) + v2sdij = v2s(l,k,itori,itori1,itori2,iblock) cosphi1p2=dcos(l*phii+(k-l)*phii1) cosphi1m2=dcos(l*phii-(k-l)*phii1) sinphi1p2=dsin(l*phii+(k-l)*phii1) @@ -5961,7 +5987,6 @@ c & .or. itype(i).eq.ntyp1 .or. itype(i+1).eq.ntyp1) cycle enddo gloc(i-3,icg)=gloc(i-3,icg)+wtor_d*gloci1 gloc(i-2,icg)=gloc(i-2,icg)+wtor_d*gloci2 -c write (iout,*) "gloci", gloc(i-3,icg) enddo return end