Remove some boost::scoped_ptr uses
[gromacs/AngularHB.git] / src / contrib / total.f
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1 C Chemical shift calculation, to read in multiple NMR structures
2 C (with protons) and calculate sd for each
3 C Will also read Xray structures and add protons
4 C Current limit is 5000 heavy atoms 3000 protons and 50 rings
5 C Author - Mike Williamson Jan 94
6 C see M P Williamson and T Asakura, J Magn Reson Ser B 101 63-71 1993
7 DIMENSION SHIFT(3000) !Shift values for each proton
8 DIMENSION ANISCO(3000),ANISCN(3000),SHIFTE(3000)
9 DIMENSION sum(3000),exptln(3000)
10 DIMENSION EXPTL(3000) !Exptl shifts (external file)
11 DIMENSION IRES(5000),RES(5000),ANAME(5000),FINAL(3000)
12 DIMENSION X(5000), Y(5000), Z(5000) !Heavy atom input
13 DIMENSION IRESH(3000),RESH(3000),ANAMEH(3000)
14 DIMENSION XH(3000), YH(3000), ZH(3000) !H atom input
15 DIMENSION vx(3),vy(3),vz(3),CEN(3),rh(3),pregam(3),yy(3)
16 C (Anisotropy tensor plus anisotropy centre)
17 DIMENSION vca(3),vc(3),vo(3),vn(3),calctemp(3000)
18 DIMENSION datres(179),datnam(179),datshift(179)
19 DIMENSION RCNET(3000)
20 DIMENSION IACODE(50),IRATPT(9,50),IRATS(50)
21 DIMENSION shiftt(3000),exptlt(3000),VCHN(3)
22 dimension rn(3,50),cent(3,50),signr(50)
23 dimension iexp(2000),atexp(2000),pexp(2000),eexp(2000)
24 CHARACTER ANAME*4,RES*3,FN1*60,FN3*40,junk*80
25 CHARACTER ans*1,FN4*40,pexp*3,resh*3,anameh*4,prott*3
26 CHARACTER datres*3,datnam*4,YN*1,atexp*4,FN9*60,RFILE*60
27 integer AT1,AT2,AT3,INDX(3000)
28 COMMON x,y,z,xh,yh,zh
29 C Set values for anisotropies, atomic charges and multiplication
30 C factor for electric field: shift=-Ez*sigmaE
31 DATA XCO1/-13.0/,XCO2/-4.0/,XCN1/-11.0/,XCN2/1.40/
32 DATA sigmaE/0.60/,Qc/1.60/,Qn/-1.70/,Qo/-2.30/
33 DATA Qhn/0.70/
34 C NB The atomic charges are in esu
36 C******************FILE INPUT************************************
37 iwarning=1
38 type *,'Input file?'
39 read(5,999)FN1
40 997 format (I)
41 98 FORMAT (I5)
42 999 format(A)
43 type *,'Output file?'
44 read(5,999)FN3
45 type *,'Calculate for HA[1], HN[2] or all protons[3]?'
46 read(5,997)icalculate
47 print *,'icalculate=',icalculate
48 C NB Actually calculates all protons, just prints differently
49 99 FORMAT(A80)
50 type *,' Are you comparing calc. to experimental shifts? [N]'
51 read(5,970)YN
52 970 format(A)
53 OPEN(1,file=FN1,STATUS='OLD',readonly)
54 OPEN(3,file=FN3)
55 type *,' Random file ?'
56 read(5,999)RFILE
57 open(4,file=RFILE,status='old',readonly)
58 do 25 I=1,179 !Random coil shifts
59 read(4,998) datres(I),datnam(I),datshift(I)
60 998 format(A3,1X,A4,F5.2)
61 25 continue
62 if(yn.eq.'Y'.or.yn.eq.'y') then
63 type *,' File containing experimental shifts?'
64 read(5,999)FN4
65 OPEN(UNIT=8,FILE=FN4,STATUS='OLD')
66 C This file should contain 2-line header, no. of protons (I5) plus list
67 type *,'Name of protein in this file?'
68 read(5,992) prott
69 992 format(A3)
70 READ (8,99) JUNK
71 READ (8,99) JUNK
72 READ (8,98) Iprot
73 do 900 II=1,Iprot
74 read (8,996) iexp(ii),atexp(ii),pexp(ii),eexp(ii)
75 996 format(I3,7X,A4,5X,A3,27X,F9.5)
76 900 continue
77 endif
78 imodel=0
79 776 iheavyatom=0
80 iproton=0
81 C PDB file should end with TER or END or preferably both
82 do 10 I=1,100000
83 READ (1,99,end=777) JUNK
84 if (junk(1:5).eq.'MODEL') then
85 read(junk(6:14),'(I9)') nmodel
86 imodel=1
87 endif
88 if (junk(1:6).eq.'ENDMDL') goto 11
89 if (junk(1:4).eq.'END') then
90 if (imodel.eq.1) goto 777
91 goto 11
92 endif
93 C Replace D by H for neutron structures
94 if (junk(14:14).eq.'D') junk(14:14)='H'
95 if (junk(1:4).eq.'TER ') goto 11
96 if (junk(1:4).eq.'ATOM') then
97 if(junk(27:27).ne.' ') print 601,junk(23:26)
98 601 format('WARNING: substituted residue present at ',A4)
99 if(junk(22:22).ne.' '.and.iwarning.eq.1) then
100 iwarning=2
101 type *,'WARNING: more than one chain present'
102 endif
103 if(junk(17:17).ne.' ') print 602,junk(23:26)
104 602 format('WARNING: alternate conformations at residue ',A4)
105 C Next line reads HN in as heavy atom, for Electric field calc.
106 if((junk(14:14).ne.'H').or.(junk(13:15).eq.' H ')) then
107 iheavyatom=iheavyatom+1
108 read(junk(13:16),'(A4)') aname(iheavyatom)
109 read(junk(18:20),'(A3)') res(iheavyatom)
110 read(junk(23:26),'(I4)') ires(iheavyatom)
111 read(junk(31:54),'(3F8.0)') x(iheavyatom),
112 . y(iheavyatom),z(iheavyatom)
113 endif
114 if(junk(14:14).eq.'H') then
115 if((icalculate.eq.1).and.(junk(14:15).ne.'HA'))goto 10
116 if((icalculate.eq.2).and.(junk(14:15).ne.'H '))goto 10
117 iproton=iproton+1
118 read(junk(13:16),'(A4)') anameh(iproton)
119 read(junk(18:20),'(A3)') resh(iproton)
120 read(junk(23:26),'(I4)') iresh(iproton)
121 read(junk(31:38),'(F8.3)') xh(iproton)
122 read(junk(39:46),'(F8.3)') yh(iproton)
123 read(junk(47:54),'(F8.3)') zh(iproton)
124 endif
125 endif
126 10 CONTINUE
127 11 continue
128 C To avoid calculating for water molecules
129 if(res(1).eq.'WAT'.or.res(2).eq.'WAT') goto 777
130 C Now see if protons are present and add them if not
132 C Next Line hacked (DvdS, 12/94)
133 if ((iproton.eq.0) .or. (icalculate.eq.3)) then
134 type *,'Adding protons'
135 type *,'Print out file with protons?'
136 read(5,607)ANS
137 call addprot(x,y,z,xh,yh,zh,Iheavyatom,Iproton,
138 & aname,anameh,res,resh,ires,iresh)
139 if(ans.eq.'Y'.or.ans.eq.'y') then
140 do 670 I=1,60
141 if(FN1(I:I).eq.' ')goto 671
142 670 continue
143 671 ilength=I-1
144 if(ilength.lt.40) then
145 FN9=FN1(1:ilength-4)//'_protonated.pdb'
146 else
147 FN9=FN1(ilength-8:ilength-4)//'_protonated.pdn'
148 endif
149 print 669,FN9
150 669 format('Output going to ',A)
151 open(9,file=FN9)
152 write(9,660)FN1
153 660 format('REMARK Generated from ',60A)
154 iresstart=ires(1)
155 iresend=ires(iheavyatom)
156 iline=0
157 do 668 icount=iresstart,iresend
158 do 661 I=1,iheavyatom
159 if(aname(I).eq.' H ') goto 661
160 if(ires(I).eq.icount) then
161 iline=iline+1
162 write(9,662)iline,aname(I),res(I),ires(I),x(I),y(I),z(I)
163 endif
164 662 format('ATOM',I7,1X,A4,1X,A3,2X,I4,4X,3F8.3)
165 661 continue
166 do 663 I=1,iproton
167 if(iresh(I).eq.icount) then
168 iline=iline+1
169 write(9,662)iline,anameh(I),resh(I),iresh(I),xh(I),yh(I),zh(I)
170 endif
171 663 continue
172 668 continue
173 write(9,665)
174 write(9,666)
175 665 format('TER')
176 666 format('END')
177 end if
178 end if
179 do 20 I=1,iproton
180 shift(I)=0.0 !initialise
181 anisco(I)=0.0
182 aniscn(I)=0.0
183 shiftE(I)=0.0
184 20 continue
185 607 FORMAT(A1)
186 type *,' All atoms read...initialising'
187 if(imodel.eq.1) type 774, nmodel
188 774 format(' Calculating shifts for model',I9)
189 C***********Calculate number of aromatic residues, rearrange order of
190 C ring atoms, and set pointers to line numbers of aromatic atoms
191 C (NB each Trp counts as two rings)
192 narom=0
193 do 105 I=1,iheavyatom
194 if((res(I).eq.'TRP'.or.res(I).eq.'TYR'.or.res(I).eq.'PHE'.
195 1 or.res(I).eq.'HIS').and.(aname(I).eq.' CB ')) THEN
196 narom = narom + 1
197 do 102 Iring=1,6
198 IRATPT(Iring,narom)=0
199 102 continue
200 IACODE(narom)=IRES(I)
201 IF ((res(I).eq.'PHE').or.(res(I).eq.'TYR')) THEN
202 IRATS(narom)=6
203 do 101 K=1,20
204 IF(ires(I+K).eq.ires(I).and.
205 & aname(I+K).eq.' CG ') IRATPT(1,narom)=I+K
206 IF(ires(I+K).eq.ires(I).and.
207 & aname(I+K).eq.' CD1') IRATPT(2,narom)=I+K
208 IF(ires(I+K).eq.ires(I).and.
209 & aname(I+K).eq.' CE1') IRATPT(3,narom)=I+K
210 IF(ires(I+K).eq.ires(I).and.
211 & aname(I+K).eq.' CZ ') IRATPT(4,narom)=I+K
212 IF(ires(I+K).eq.ires(I).and.
213 & aname(I+K).eq.' CE2') IRATPT(5,narom)=I+K
214 IF(ires(I+K).eq.ires(I).and.
215 & aname(I+K).eq.' CD2') IRATPT(6,narom)=I+K
216 101 continue
217 ELSE IF (res(I).eq.'HIS') THEN
218 IRATS(narom)=5
219 do 103 K=1,20
220 IF(ires(I+K).eq.ires(I).and.
221 & aname(I+K).eq.' CG ') IRATPT(1,narom)=I+K
222 IF(ires(I+K).eq.ires(I).and.
223 & aname(I+K).eq.' CD2') IRATPT(2,narom)=I+K
224 IF(ires(I+K).eq.ires(I).and.
225 & aname(I+K).eq.' NE2') IRATPT(3,narom)=I+K
226 IF(ires(I+K).eq.ires(I).and.
227 & aname(I+K).eq.' CE1') IRATPT(4,narom)=I+K
228 IF(ires(I+K).eq.ires(I).and.
229 & aname(I+K).eq.' ND1') IRATPT(5,narom)=I+K
230 103 continue
231 ELSE
232 C Trp counts as two aromatic rings (5 then 6)
233 IRATS(narom)=5
234 do 104 K=1,20
235 IF(ires(I+K).eq.ires(I).and.
236 & aname(I+K).eq.' CG ') IRATPT(1,narom)=I+K
237 IF(ires(I+K).eq.ires(I).and.
238 & aname(I+K).eq.' CD1') IRATPT(2,narom)=I+K
239 IF(ires(I+K).eq.ires(I).and.
240 & aname(I+K).eq.' NE1') IRATPT(3,narom)=I+K
241 IF(ires(I+K).eq.ires(I).and.
242 & aname(I+K).eq.' CE2') IRATPT(4,narom)=I+K
243 IF(ires(I+K).eq.ires(I).and.
244 & aname(I+K).eq.' CD2') IRATPT(5,narom)=I+K
245 104 continue
246 narom = narom + 1
247 IACODE(narom)=IRES(I)
248 IRATS(narom)=6
249 do 106 K=1,25
250 IF(ires(I+K).eq.ires(I).and.
251 & aname(I+K).eq.' CE2') IRATPT(1,narom)=I+K
252 IF(ires(I+K).eq.ires(I).and.
253 & aname(I+K).eq.' CD2') IRATPT(2,narom)=I+K
254 IF(ires(I+K).eq.ires(I).and.
255 & aname(I+K).eq.' CE3') IRATPT(3,narom)=I+K
256 IF(ires(I+K).eq.ires(I).and.
257 & aname(I+K).eq.' CZ3') IRATPT(4,narom)=I+K
258 IF(ires(I+K).eq.ires(I).and.
259 & aname(I+K).eq.' CH2') IRATPT(5,narom)=I+K
260 IF(ires(I+K).eq.ires(I).and.
261 & aname(I+K).eq.' CZ2') IRATPT(6,narom)=I+K
262 106 continue
263 ENDIF
264 endif !End of loop for each aromatic residue
265 105 continue
266 do 107 J=1,narom
267 if(iratpt(1,j).eq.0.or.iratpt(2,j).eq.0.or.iratpt(3,j).eq.0.
268 & or.iratpt(4,j).eq.0.or.iratpt(5,j).eq.0) print 960,
269 & ires(iacode(j)),res(ires(iacode(j)))
270 107 continue
271 960 format(1X,'Ring atom missing for ',I4,1X,A3)
272 DO 115 L=1,iproton !Initialise all ring current shifts to zero
273 RCNET(L)=0.
274 115 CONTINUE
275 C ******************************************************************
276 type *,' Calculating ring current shifts....'
278 DO 116 J=1,NAROM !FOR EACH AROMATIC RESIDUE
279 C Now set up rn (ring normal) and cent for each ring.
280 C Determined using atoms 1, 3 and 5 only of ring.
281 C Much of this is lifted from a version of AMBER provided by Dave Case
282 call plane(IRATPT(1,j),IRATPT(3,j),IRATPT(5,j),x,y,z,rn(1,j),
283 . cent(1,j))
284 c From pts 1, 3 and 5 calculates rn(ring normal), drn (deriv. of
285 c ring normal) and centre of ring
287 c -- check on signr of normal vector
289 signr(j) = 1.0
290 d1cx = x(IRATPT(1,j)) - cent(1,j)
291 d1cy = y(IRATPT(1,j)) - cent(2,j)
292 d1cz = z(IRATPT(1,j)) - cent(3,j)
293 d2cx = x(IRATPT(3,j)) - cent(1,j)
294 d2cy = y(IRATPT(3,j)) - cent(2,j)
295 d2cz = z(IRATPT(3,j)) - cent(3,j)
296 vp1 = d1cy*d2cz - d1cz*d2cy
297 vp2 = d1cz*d2cx - d1cx*d2cz
298 vp3 = d1cx*d2cy - d1cy*d2cx
299 if ((vp3*rn(3,j)+vp2*rn(2,j)+vp1*rn(1,j))
300 . .gt.0.0) signr(j) = -1.0
301 119 DO 120 L=1,iproton !For each proton
302 ip=L
303 C Next line includes self aromatic shift for HA only
304 IF(IRESH(L).EQ.IRES(IRATPT(1,J)).AND.(ANAMEH(L)(2:3).NE.
305 & 'HA'.AND.ANAMEH(L)(2:3).NE.'H ')) GOTO 120
307 c -- skip rings whose centre is more than 15A away
309 relc = (xh(ip)-cent(1,j))**2 + (yh(ip)-cent(2,j))**2
310 . +(zh(ip)-cent(3,j))**2
311 if (relc.gt.225.) go to 120
313 c -- loop over pairs of bonded atoms in the ring
315 do 80 k=1,irats(j)
316 kp1 = k + 1
317 if (kp1.gt.irats(j)) kp1 = 1
319 call hm(ip,iratpt(k,j),iratpt(kp1,j),x,y,z,xh,yh,zh,
320 . rn(1,j),shifthm)
321 rcnet(ip) = rcnet(ip)+ signr(j)*5.4548*shifthm
322 80 continue
323 100 continue
325 120 continue !PROTON LOOP
326 116 CONTINUE
327 C *************BEGIN ANISOTROPY CALCULATION**********************
328 C ****Locate all backbone C=O and calculate anisotropic shift****
329 type *,' Calculating CO anisotropy...'
330 do 30 I=1,iheavyatom
331 if (aname(I).ne.' CA ') goto 30
332 DO 35 J=1,15
333 IF ((ANAME(I+J).EQ.' C ').AND.(IRES(I).EQ.IRES(I+J)))
334 1 then
335 Inext=I+J
336 GOTO 38
337 ENDIF
338 35 CONTINUE
339 print 95,IRES(I)
340 95 format (' C atom not found for residue ',I5)
341 goto 30
342 38 IF (ANAME(Inext+1).NE.' O ') then
343 print 94,IRES(I)
344 94 format (' O atom not found for residue ',I5)
345 goto 30
346 ENDIF
347 C Atoms CA, C and O now located at I, Inext and (Inext+1)
348 at3=I
349 at1=Inext
350 at2=Inext+1
351 CALL VEC(at1,at2,at3,vx,vy,vz,r)
352 C Returns vectors vx,vy,vz, and distance r between at1 and at2
353 CALL CENTRE(vz,x(at1),y(at1),z(at1),1.1,cen)
355 C Now loop through all H, calculating shift due to this C=O
356 do 40 K=1,iproton
357 IF(IRESH(K).EQ.IRES(AT1)) GOTO 40 !SELF SHIFT
358 CALL RHAT(xh(k),yh(k),zh(k),cen,rh,rlen)
359 C Returns vector rh, length rlen, between HA and CEN
360 IF(RLEN.GT.12.0) GOTO 40 !distance cutoff
361 CALL VPROD(rh,vy,pregam,stheta,tempab)
362 C Returns sine of angle theta between rh and vy
363 CALL VPROD(pregam,vx,yy,sgamma,tempab)
364 calc1=XCO1*((3.0*stheta*stheta)-2.0)
365 calc2=XCO2*(1.0-(3.0*stheta*stheta*sgamma*sgamma))
366 calc3=(calc1+calc2)/(3.0*rlen*rlen*rlen)
367 shift(k)=shift(k)-calc3
368 anisco(k)=anisco(k)-calc3
369 40 continue
370 30 continue
371 C if(XCO1.ne.9999.9) goto 9999 !To skip sidechain CO calculation
372 C *********************************************************
373 C *******************Sidechain CO from Asn, Gln************
374 do 530 I=1,iheavyatom
375 if(res(I).ne.'ASN'.and.res(I).ne.'GLN') goto 530
376 if (aname(I).ne.' CB ') goto 530
377 if(res(I).eq.'ASN') then
378 if (aname(I+1).ne.' CG '.or.aname(I+2).ne.' OD1') then
379 print 595, IRES(I)
380 goto 530
381 595 format (' Missing atoms for ASN ',I5)
382 endif
383 at1=I+1
384 at2=I+2
385 at3=I
386 else if(res(I).eq.'GLN') then
387 if (aname(I+1).ne.' CG '.or.aname(I+2).ne.' CD '.or.
388 1 aname(I+3).ne.' OE1')then
389 print 596, IRES(I)
390 goto 530
391 596 format (' Missing atoms for GLN ',I5)
392 endif
393 at1=I+2
394 at2=I+3
395 at3=I+1
396 endif
397 CALL VEC(at1,at2,at3,vx,vy,vz,r)
398 CALL CENTRE(vz,x(at1),y(at1),z(at1),1.1,cen)
399 C Now loop through all HA, calculating shift due to this C=O
400 do 540 K=1,iproton
401 CALL RHAT(xh(k),yh(k),zh(k),cen,rh,rlen)
402 IF(RLEN.GT.12.0) GOTO 540
403 CALL VPROD(rh,vy,pregam,stheta,tempab)
404 CALL VPROD(pregam,vx,yy,sgamma,tempab)
405 calc1=XCO1*((3.0*stheta*stheta)-2.0)
406 calc2=XCO2*(1.0-(3.0*stheta*stheta*sgamma*sgamma))
407 calc3=(calc1+calc2)/(3.0*rlen*rlen*rlen)
408 shift(k)=shift(k)-calc3
409 anisco(k)=anisco(k)-calc3
410 540 continue
411 530 continue
412 C *****************************************************
413 C *****************Sidechain CO from Asp, Glu**********
414 do 630 I=1,iheavyatom
415 if(res(I).ne.'ASP'.and.res(I).ne.'GLU') goto 630
416 if (aname(I).ne.' CB ') goto 630
417 if(res(I).eq.'ASP') then
418 if (aname(I+1).ne.' CG '.or.aname(I+2).ne.' OD1'.or.
419 1 aname(I+3).ne.' OD2') then
420 print 695, IRES(I)
421 goto 630
422 695 format (' Missing atoms for ASP ',I5)
423 endif
424 at1=I+1
425 at2=I+2
426 at3=I
427 else if(res(I).eq.'GLU') then
428 if (aname(I+1).ne.' CG '.or.aname(I+2).ne.' CD '.or.
429 1 aname(I+3).ne.' OE1'.or.aname(I+4).ne.' OE2')then
430 print 696, IRES(I)
431 goto 630
432 696 format (' Missing atoms for GLU ',I5)
433 endif
434 at1=I+2
435 at2=I+3
436 at3=I+1
437 endif
438 do 650 Itmp=1,iproton
439 calctemp(Itmp)=0.0
440 650 continue
441 do 667 Icalc=0,1 !loop for two C-O
442 at2=at2+Icalc
443 CALL VEC(at1,at2,at3,vx,vy,vz,r)
444 CALL CENTRE(vz,x(at1),y(at1),z(at1),1.1,cen)
445 do 640 K=1,iproton
446 CALL RHAT(xh(k),yh(k),zh(k),cen,rh,rlen)
447 IF(RLEN.GT.12.0) GOTO 640
448 CALL VPROD(rh,vy,pregam,stheta,tempab)
449 CALL VPROD(pregam,vx,yy,sgamma,tempab)
450 calc1=XCO1*((3.0*stheta*stheta)-2.0)
451 calc2=XCO2*(1.0-(3.0*stheta*stheta*sgamma*sgamma))
452 calc3=(calc1+calc2)/(3.0*rlen*rlen*rlen)
453 calctemp(K)=calctemp(K)+calc3
454 640 continue
455 667 continue
456 do 664 kk=1,iproton
457 shift(kk)=shift(kk)-(calctemp(kk)/2.0)
458 anisco(kk)=anisco(kk)-(calctemp(kk)/2.0)
459 664 continue
460 630 continue
461 9999 continue
462 C *******NOW DO (O=)C-N TOO *****************************
463 type *,' Calculating CN anisotropy...'
464 do 130 I=1,iheavyatom
465 if (aname(I).ne.' C ') goto 130
466 IF (ANAME(I+1).NE.' O ') then
467 print 94,IRES(I)
468 goto 130
469 ENDIF
470 do 131 j=1,23
471 if((aname(I+j).eq.' N ').and.(ires(I).eq.(ires(i+j)-1)))
472 1 then
473 Inext=I+J
474 GOTO 132
475 ENDIF
476 131 CONTINUE
477 if(ires(I).ne.ires(iheavyatom)) then
478 print 194,IRES(I)
479 194 format(' N atom not found after residue ',I5)
480 endif
481 goto 130
482 132 at1=I
483 at2=Inext
484 at3=I+1
485 CALL VEC(at1,at2,at3,vx,vy,vz,r)
486 rbond=r*0.85 !i.e. 85% along C-N bond
487 CALL CENTRE(vz,x(at1),y(at1),z(at1),rbond,cen)
488 do 140 K=1,iproton
489 CALL RHAT(xh(k),yh(k),zh(k),cen,rh,rlen)
490 IF(RLEN.GT.12.0) GOTO 140
491 if(anameh(K).eq.' H '.and.(iresh(k).eq.ires(Inext)))
492 $ goto 140
493 CALL VPROD(rh,vy,pregam,stheta,tempab)
494 CALL VPROD(pregam,vx,yy,sgamma,tempab)
495 calc1=XCN1*((3.0*stheta*stheta)-2.0)
496 calc2=XCN2*(1.0-(3.0*stheta*stheta*sgamma*sgamma))
497 calc3=(calc1+calc2)/(3.0*rlen*rlen*rlen)
498 shift(k)=shift(k)-calc3
499 aniscn(k)=aniscn(k)-calc3
500 140 continue
501 130 continue
502 C *************************************************
503 C *******Calculate electric field component********
504 C First find C(alpha)-H(alpha) pair, then work through
505 C all C, O and N finding field from them
506 type *,' Calculating electric field shift...'
507 do 2000 ie=1,iproton
508 C skip for NH proton
509 if(anameh(ie).eq.' H ')goto 2000
510 iha=ie
511 Ez=0.0
512 do 2010 je=1,iheavyatom
513 C Find attached heavy atom
514 if((ires(je).eq.iresh(ie)).and.(aname(je)(3:3).eq.
515 1 anameh(ie)(3:3))) then
516 ica=je
517 goto 2020
518 endif
519 2010 continue
520 2020 continue
521 call VEC2(iha,ica,vca,rca)
522 C Returns vector vca and length rca between H(ie) and CA(je)
523 C Now go through each C and add shift due to this
524 do 2030 je=1,iheavyatom
525 if(ires(je).eq.iresh(iha)) goto 2030
526 if(aname(je).eq.' C ') then
527 call VEC2(iha,je,vc,rcc)
528 if(rcc.gt.6.0) goto 2030 !Ignore for distance>6A
529 call VSCAL(vca,vc,sc,cthet)
530 Efact=Qc/(rcc*rcc)
531 Ez=Ez+(cthet*Efact)
532 ELSE if(aname(je).eq.' N ') then
533 call VEC2(iha,je,vn,rcn)
534 if(rcn.gt.6.0) goto 2030
535 call VSCAL(vca,vn,sc,cthet)
536 Efact=Qn/(rcn*rcn)
537 Ez=Ez+(cthet*Efact)
538 ELSE if(aname(je).eq.' O ') then
539 call VEC2(iha,je,vo,rco)
540 if(rco.gt.6.0) goto 2030
541 call VSCAL(vca,vo,sc,cthet)
542 Efact=Qo/(rco*rco)
543 Ez=Ez+(cthet*Efact)
544 ELSE if(aname(je).eq.' H ') then
545 call VEC2(iha,je,vchn,rchn)
546 if(rchn.gt.6.0) goto 2030
547 call VSCAL(vca,vchn,sc,cthet)
548 Efact=Qhn/(rchn*rchn)
549 Ez=Ez+(cthet*Efact)
550 endif
551 2030 continue
552 shift(ie)=shift(ie)+(Ez*sigmaE)
553 shiftE(ie)=shiftE(ie)+(Ez*sigmaE)
554 2000 continue
555 C ****************END OF CALCULATIONS PROPER********************
556 C *Correction of Gly HA shift by 0.22 ppm for random coil effect,
557 C subtract 0.20 from HN shift, subtract 0.65 from HA shift,
558 C convert to single precision, add random coil shift
559 do 2040 kkk=1,iproton
560 shift(kkk)=shift(kkk) + rcnet(kkk)
561 if(anameh(kkk)(2:3).eq.'HA') shift(kkk)=shift(kkk)-0.65
562 if(anameh(kkk)(2:3).eq.'H ') shift(kkk)=shift(kkk)-0.20
563 sum(kkk)=rcnet(kkk)+anisco(kkk)+aniscn(kkk)+shiftE(kkk)
564 if((resh(kkk).eq.'GLY').and.(anameh(kkk).eq.'1HA '.or.
565 1 anameh(kkk).eq.'2HA '.or.anameh(kkk).eq.' HA1'.or.
566 2 anameh(kkk).eq.' HA2')) shift(kkk)=shift(kkk)+0.22
567 do 2050 L=1,179
568 IF ((datres(L).eq.resh(kkk)).and.(datnam(L)(2:4).eq.
569 1 anameh(kkk)(2:4))) THEN
570 C This next bit replaces HA shifts for aromatics by 4.45 ppm
571 C (gives roughly best fit to data)
572 if((resh(kkk).eq.'TYR'.or.resh(kkk).eq.'PHE'.or.
573 1 resh(kkk).eq.'TRP'.or.resh(kkk).eq.'HIS').and.anameh(kkk).
574 2 eq.' HA ') then
575 final(kkk)=shift(kkk)+4.45
576 shift(kkk)=shift(kkk)+4.45-datshift(L)
577 ELSE
578 final(kkk)=shift(kkk) + datshift(L)
579 ENDIF
580 ENDIF
581 2050 continue
582 2040 continue
583 9990 continue
585 C ***************** Output SHIFT to channel 3**********************
586 if(yn.ne.'Y'.and.yn.ne.'y') goto 2100
587 do 909 ii=1,iprot
588 DO 910 KK=1,iproton
589 IF(IEXP(ii).EQ.IRESH(KK).AND.pexp(ii).eq.prott.and.
590 1 atexp(ii)(1:2).eq.anameh(kk)(2:3)) THEN
591 exptln(kk)=eexp(ii)
592 C exptln is the experimental shift: now subtract random coil
593 do 2051 L=1,179
594 IF ((datres(L).eq.resh(kk)).and.(datnam(L)(1:3).eq.
595 1 anameh(kk)(1:3))) then
596 exptln(kk)=exptln(kk) - datshift(L)
597 ENDIF
598 2051 continue
599 exptl(kk)=exptln(kk)
600 goto 909
601 ENDIF
602 910 continue
603 909 continue
604 if(imodel.eq.1) goto 501
605 write (3,988)
606 988 format(' Proton name, followed by calc. and observed shift and
607 . difference')
608 write (3,2052)
609 2052 format(' (as shift - random coil shift)')
610 do 500 iprnt=1,iproton
611 if(exptln(iprnt).ne.0.00)
612 1 write(3,991) iprnt,iresh(iprnt),resh(iprnt),anameh(iprnt),
613 1 shift(iprnt),exptl(iprnt),(shift(iprnt)-exptl(iprnt))
614 991 format(I5,I5,1X,A3,2X,A4,3F10.6)
615 500 continue
616 501 continue
617 if(imodel.eq.1) then
618 write(3,775) nmodel
619 775 format(' Result for model number',I8)
620 endif
621 CALL STATS(shift,EXPTL,iproton,anameh)
622 type *,'Do you want output sorted? [N]'
623 read(5,970)ans
624 if(ans.ne.'Y'.and.ans.ne.'y') goto 1000
625 itemp=0
626 do 505 I=1,iproton
627 if(exptl(I).eq.0.0) goto 505
628 itemp=itemp+1
629 shiftt(itemp)=shift(I)
630 exptlt(itemp)=exptl(I)
631 505 continue
632 CALL INDEXX(itemp,shiftt,indx)
633 write (3,990)
634 C990 format(' Calc Exptl Diff')
635 990 format(' Calc Diff')
636 do 506 I=1,itemp
637 C write (3,989) shiftt(indx(I)),exptlt(indx(I)),
638 write (3,983) shiftt(indx(I)),
639 1 (shiftt(indx(I))-exptlt(indx(I)))
640 989 format(3F10.4)
641 983 format(2F10.4)
642 506 continue
643 goto 1000
644 C **************Normal output starts here***************************
645 2100 continue
646 C write (3,987) FN1
647 987 format(' Shift calculated for protons from ',A)
648 C write (3,986)
649 986 format(' Added 0.22 for Gly, subtracted 0.65 (HA only), added
650 1random coil shift')
651 C write (3,985)
652 985 format(' Proton ring anisCO anisCN
653 1sigmaE sum final')
654 do 510 ip=1,iproton
655 if(icalculate.eq.1.and.anameh(ip)(2:3).ne.'HA') goto 510
656 if(icalculate.eq.2.and.anameh(ip)(2:3).ne.'H ') goto 510
657 C Now do averaging for Phe,Tyr,methyls
658 if((resh(ip).eq.'VAL'.and.(anameh(ip).eq.'1HG1'.or.anameh(ip).
659 1eq.'1HG2')).or.(resh(ip).eq.'LEU'.and.(anameh(ip).eq.'1HD1'.or.
660 2anameh(ip).eq.'1HD2')).or.(resh(ip).eq.'ILE'.and.(anameh(ip).eq.
661 3'1HG2'.or.anameh(ip).eq.'1HD1')).or.(resh(ip).eq.'ALA'.and.
662 4anameh(ip).eq.'1HB ').or.(resh(ip).eq.'THR'.and.anameh(ip).eq.
663 5'1HG2')) THEN
664 final(ip)=final(ip)-sum(ip)
665 sum(ip)=(sum(ip)+sum(ip+1)+sum(ip+2))/3.0
666 anisco(ip)=(anisco(ip)+anisco(ip+1)+anisco(ip+2))/3.0
667 aniscn(ip)=(aniscn(ip)+aniscn(ip+1)+aniscn(ip+2))/3.0
668 shiftE(ip)=(shiftE(ip)+shiftE(ip+1)+shiftE(ip+2))/3.0
669 shift(ip)=(shift(ip)+shift(ip+1)+shift(ip+2))/3.0
670 final(ip)=final(ip)+sum(ip)
671 final(ip+1)=0.0
672 final(ip+2)=0.0
673 endif
674 if(resh(ip).eq.'TYR'.and.anameh(ip).eq.' HD1') then
675 if(anameh(ip+1).eq.' HD2') then
676 final(ip)=final(ip)-sum(ip)
677 sum(ip)=(sum(ip)+sum(ip+1))/2.0
678 anisco(ip)=(anisco(ip)+anisco(ip+1))/2.0
679 aniscn(ip)=(aniscn(ip)+aniscn(ip+1))/2.0
680 shiftE(ip)=(shiftE(ip)+shiftE(ip+1))/2.0
681 shift(ip)=(shift(ip)+shift(ip+1))/2.0
682 final(ip)=final(ip)+sum(ip)
683 final(ip+1)=0.0
684 else
685 type 940,resh(ip),iresh(ip)
686 940 format(' Ring protons in unexpected order for ',A3,I4)
687 endif
688 endif
689 if(resh(ip).eq.'TYR'.and.anameh(ip).eq.' HE1') then
690 if(anameh(ip+1).eq.' HE2') then
691 final(ip)=final(ip)-sum(ip)
692 sum(ip)=(sum(ip)+sum(ip+1))/2.0
693 anisco(ip)=(anisco(ip)+anisco(ip+1))/2.0
694 aniscn(ip)=(aniscn(ip)+aniscn(ip+1))/2.0
695 shiftE(ip)=(shiftE(ip)+shiftE(ip+1))/2.0
696 shift(ip)=(shift(ip)+shift(ip+1))/2.0
697 final(ip)=final(ip)+sum(ip)
698 final(ip+1)=0.0
699 else
700 type 940,resh(ip),iresh(ip)
701 endif
702 endif
703 if(resh(ip).eq.'PHE'.and.anameh(ip).eq.' HD1') then
704 if(anameh(ip+1).eq.' HD2') then
705 final(ip)=final(ip)-sum(ip)
706 sum(ip)=(sum(ip)+sum(ip+1))/2.0
707 anisco(ip)=(anisco(ip)+anisco(ip+1))/2.0
708 aniscn(ip)=(aniscn(ip)+aniscn(ip+1))/2.0
709 shiftE(ip)=(shiftE(ip)+shiftE(ip+1))/2.0
710 shift(ip)=(shift(ip)+shift(ip+1))/2.0
711 final(ip)=final(ip)+sum(ip)
712 final(ip+1)=0.0
713 else
714 type 940,resh(ip),iresh(ip)
715 endif
716 endif
717 if(resh(ip).eq.'PHE'.and.anameh(ip).eq.' HE1') then
718 if(anameh(ip+1).eq.' HE2') then
719 final(ip)=final(ip)-sum(ip)
720 sum(ip)=(sum(ip)+sum(ip+1))/2.0
721 anisco(ip)=(anisco(ip)+anisco(ip+1))/2.0
722 aniscn(ip)=(aniscn(ip)+aniscn(ip+1))/2.0
723 shiftE(ip)=(shiftE(ip)+shiftE(ip+1))/2.0
724 shift(ip)=(shift(ip)+shift(ip+1))/2.0
725 final(ip)=final(ip)+sum(ip)
726 final(ip+1)=0.0
727 else
728 type 940,resh(ip),iresh(ip)
729 endif
730 endif
731 C ******Write out results*********************
732 if(final(ip).ne.0.0) write(3,984)ip,iresh(ip),resh(ip),
733 1 anameh(ip),rcnet(ip),anisco(ip),aniscn(ip),shiftE(ip),
734 2 shift(ip),final(ip)
735 984 format(I5,I5,1X,A3,2X,A4,6F10.5)
736 510 CONTINUE
737 1000 continue
738 imodel=1 !to make it work for single structure
739 goto 776
740 C Hacked DvdS 10/98
741 777 continue
742 print *,'Closing unit 3'
743 close(3)
745 STOP
747 C *******************************************************
748 SUBROUTINE VEC(at1,at2,at3,vx,vy,vz,r)
749 COMMON X,Y,Z
750 DIMENSION X(5000),Y(5000),Z(5000),vx(3),vy(3),vz(3)
751 DIMENSION vvx(3),vvy(3),vvz(3)
752 INTEGER at1,at2,at3
753 x1=x(at1)
754 y1=y(at1)
755 z1=z(at1)
756 x2=x(at2)
757 y2=y(at2)
758 z2=z(at2)
759 x3=x(at3)
760 y3=y(at3)
761 z3=z(at3)
762 vvz(1)=x2-x1
763 vvz(2)=y2-y1
764 vvz(3)=z2-z1
765 CALL UNITV(vvz,vz,r)
766 vvz(1)=x3-x1
767 vvz(2)=y3-y1
768 vvz(3)=z3-z1
769 CALL VPROD(vz,vvz,vvy,sthet,tempab)
770 vvy(1)=tempab
771 CALL UNITV(vvy,vy,D)
772 CALL VPROD(vz,vy,vvx,sthet,tempab)
773 CALL UNITV(vvx,vx,D)
774 return
776 C ******************************************************
777 SUBROUTINE UNITV(U,U1,D)
778 DIMENSION U(3),U1(3)
779 D=0.0
780 DO 1 JJ=1,3
781 D=D+(U(JJ)*U(JJ))
782 1 CONTINUE
783 D=SQRT(D)
784 If (D.EQ.0.0) type *,' D is zero in UNITV'
785 DO 2 JJ=1,3
786 U1(JJ)=U(JJ)/D
787 2 CONTINUE
788 RETURN
790 C **********************************************************
791 SUBROUTINE VPROD(A,B,AB,STHET,tempab)
792 DIMENSION A(3),B(3),AB(3)
793 AB(2)=A(3)*B(1) - A(1)*B(3)
794 AB(1)=A(2)*B(3) - A(3)*B(2)
795 AB(3)=A(1)*B(2) - A(2)*B(1)
796 tempab=AB(1)
797 c This is a stupid thing to do, but it's the only way I can get it
798 c to behave!
799 R1=SQRT(AB(1)*AB(1) + AB(2)*AB(2) + AB(3)*AB(3))
800 RA=SQRT(A(1)*A(1) + A(2)*A(2) + A(3)*A(3))
801 RB=SQRT(B(1)*B(1) + B(2)*B(2) + B(3)*B(3))
802 IF(RA.EQ.0.0.OR.RB.EQ.0.0) THEN
803 type *,' VPROD Zero divide...ignore',RA,RB
804 STHET=0.0
805 ELSE
806 STHET=R1/(RA*RB)
807 ENDIF
808 RETURN
810 C *******************************************************
811 SUBROUTINE CENTRE(vz,a1,a2,a3,dist,cen)
812 DIMENSION vz(3),cen(3)
813 cen(1)=a1+(vz(1)*dist)
814 cen(2)=a2+(vz(2)*dist)
815 cen(3)=a3+(vz(3)*dist)
816 return
818 C ********************************************************
819 SUBROUTINE RHAT(ax,ay,az,cen,rh,rlen)
820 DIMENSION cen(3),rh(3)
821 rh(1)=ax-cen(1)
822 rh(2)=ay-cen(2)
823 rh(3)=az-cen(3)
824 rlen=sqrt(rh(1)*rh(1)+rh(2)*rh(2)+rh(3)*rh(3))
825 return
827 C ********************************************************
828 SUBROUTINE STATS(SSHIFT,EXPTL,iproton,anameh)
829 dimension sshift(3000),exptl(3000),anameh(3000)
830 dimension zshift(3000),zexptl(3000)
831 C Calculates mean and sd of iproton values of shift and exptl
832 C also mean and sd of (shift-exptl) and regression coeff
833 C Values of exptl of 0.00 presumably not found in protha.out
834 C and are excluded
835 itemp=0
836 do 5 I=1,iproton
837 if(exptl(I).eq.0.0) goto 5
838 itemp=itemp+1
839 if(anameh(I).eq.'1HA '.and.anameh(I+1).eq.'2HA ') then
840 sshift(I)=(sshift(I)+sshift(I+1))/2.0
841 endif
842 zshift(itemp)=sshift(I)
843 zexptl(itemp)=exptl(I)
844 5 continue
845 sm1=0.0
846 sm2=0.0
847 sms1=0.0
848 sms2=0.0
849 sm3=0.0
850 sms3=0.0
851 sm4=0.0
852 C sm1,sm2 are accumulated sums of shift and exptl
853 C sms1,sms2 are accumulated sums of shift**2 and exptl**2
854 do 600 L=1,itemp
855 sm1=sm1+zshift(L)
856 sm2=sm2+zexptl(L)
857 sm3=sm3+(zshift(L)-zexptl(L))
858 600 continue
859 sm1=sm1/float(itemp)
860 sm2=sm2/float(itemp)
861 sm3=sm3/float(itemp)
862 do 605 L=1,itemp
863 sms1=sms1+((zshift(L)-sm1)*(zshift(L)-sm1))
864 sms2=sms2+((zexptl(L)-sm2)*(zexptl(L)-sm2))
865 sms3=sms3+((zshift(L)-zexptl(L)-sm3)*(zshift(L)-zexptl(L)-sm3))
866 605 continue
867 sms1=sqrt(sms1/float(itemp))
868 sms2=sqrt(sms2/float(itemp))
869 sms3=sqrt(sms3/float(itemp))
870 do 610 L=1,itemp
871 sm4=sm4+((zshift(L)-sm1)*(zexptl(L)-sm2))
872 610 continue
873 sm4=sm4/(float(itemp)*sms1*sms2)
874 write (3,1000) sm1,sm2
875 1000 format(' Means of calc and exptl shifts: ',F6.4,
876 1 1X,F6.4)
877 write (3,1001) sms1,sms2
878 1001 format(' SD of calc and exptl shifts: ',F6.4,
879 1 1X,F6.4)
880 write (3,1002) sm3,sms3
881 1002 format(' Mean and SD of (calc-exptl shift): ',F6.4,
882 1 1X,F6.4)
883 write (3,1003) sm4,itemp
884 1003 format (' Correlation coefficient calc vs exptl: ',F7.5,
885 1 ' (',I4,' protons )')
886 return
888 C ************************************************
889 SUBROUTINE VEC2(iha,ica,vca,rca)
890 DIMENSION vca(3),x(5000),y(5000),z(5000)
891 DIMENSION xh(3000),yh(3000),zh(3000)
892 COMMON x,y,z,xh,yh,zh
893 vca(1)=xh(iha)-x(ica)
894 vca(2)=yh(iha)-y(ica)
895 vca(3)=zh(iha)-z(ica)
896 rca=sqrt((vca(1)*vca(1))+(vca(2)*vca(2))+(vca(3)*vca(3)))
897 return
899 C *******************************************
900 SUBROUTINE VSCAL(A,B,SC,CTHET)
901 DIMENSION A(3),B(3)
902 SC=A(1)*B(1)+A(2)*B(2)+A(3)*B(3)
903 RA=SQRT(A(1)*A(1)+A(2)*A(2)+A(3)*A(3))
904 RB=SQRT(B(1)*B(1)+B(2)*B(2)+B(3)*B(3))
905 CTHET=SC/(RA*RB)
906 RETURN
908 C **********************************************
909 SUBROUTINE INDEXX(N,ARRIN,INDX)
910 C Indexes an array ARRIN of length N, i.e. outputs array INDX
911 C such that ARRIN(INDX(J)) is in ascending order.
912 C Taken from 'Numerical Recipes', W.H.Press et al, CUP 1989
913 DIMENSION ARRIN(3000),INDX(3000)
914 DO 11 J=1,N
915 INDX(J)=J
916 11 CONTINUE
917 IF(N.EQ.1) RETURN
918 L=N/2+1
919 IR=N
920 10 CONTINUE
921 IF(L.GT.1) THEN
922 L=L-1
923 INDXT=INDX(L)
924 Q=ARRIN(INDXT)
925 ELSE
926 INDXT=INDX(IR)
927 Q=ARRIN(INDXT)
928 INDX(IR)=INDX(1)
929 IR=IR-1
930 IF(IR.EQ.1) THEN
931 INDX(1)=INDXT
932 RETURN
933 ENDIF
934 ENDIF
936 J=L+L
937 20 IF(J.LE.IR) THEN
938 IF(J.LT.IR) THEN
939 IF(ARRIN(INDX(J)).LT.ARRIN(INDX(J+1)))J=J+1
940 ENDIF
941 IF(Q.LT.ARRIN(INDX(J))) THEN
942 INDX(I)=INDX(J)
944 J=J+J
945 ELSE
946 J=IR+1
947 ENDIF
948 GO TO 20
949 ENDIF
950 INDX(I)=INDXT
951 GOTO 10
953 c**********************************************************
954 subroutine hm(ip,ir1,ir2,x,y,z,xh,yh,zh,rn,shhm)
956 c Subroutine Haigh-Mallion:
957 c -- given proton ip, and ring atoms ir1 and ir2, with
958 c coordinates x and ring normal vector rn;
959 c -- return Haigh-Maillion shift contribution shhm
961 dimension x(5000),y(5000),z(5000),xh(3000),yh(3000)
962 dimension rn(3),r1(3),r2(3),zh(3000)
964 c --- extract coordinates from array x,y,z
966 r1(1)=x(ir1) - xh(ip)
967 r1(2)=y(ir1) - yh(ip)
968 r1(3)=z(ir1) - zh(ip)
969 r2(1)=x(ir2) - xh(ip)
970 r2(2)=y(ir2) - yh(ip)
971 r2(3)=z(ir2) - zh(ip)
973 c -- compute triple scalar product: later versions could
974 c hard-code this for efficiency, but this form is
975 c easier to read. (Triple scalar product=vol. of
976 c parallelepiped, =area of desired triangle)
978 s12 = r1(1)*(r2(2)*rn(3) - r2(3)*rn(2))
979 . + r1(2)*(r2(3)*rn(1) - r2(1)*rn(3))
980 . + r1(3)*(r2(1)*rn(2) - r2(2)*rn(1))
982 c -- get radial factors
984 r1sq = r1(1)*r1(1) + r1(2)*r1(2) + r1(3)*r1(3)
985 r2sq = r2(1)*r2(1) + r2(2)*r2(2) + r2(3)*r2(3)
986 if (r1sq.eq.0.0 .or. r2sq.eq.0.0) then
987 write(6,*) 'Geometry error in hm: ',ip,r1,r2
988 stop
989 end if
990 temp = (1./r1sq**1.5 + 1./r2sq**1.5)*0.5 !distance bit
991 shhm = s12*temp
992 return
994 C****************************************************************
995 subroutine plane (i1, i2, i3, x,y,z, rn, cent)
996 c**************************************************************
997 c --- given three atoms i1,i2 and i3, and coordinates x,y,z
998 c - returns rn(i) [i=1,2,3] components of the normalized
999 c vector normal to the plane containing the three
1000 c points and cent(1,2,3), the centre of the three atom.
1002 dimension x(5000),y(5000),z(5000)
1003 dimension rn(3),cent(3)
1005 x1 = x(i1)
1006 y1 = y(i1)
1007 z1 = z(i1)
1008 x2 = x(i2)
1009 y2 = y(i2)
1010 z2 = z(i2)
1011 x3 = x(i3)
1012 y3 = y(i3)
1013 z3 = z(i3)
1015 c ----- coefficients of the equation for the plane of atoms 1-3
1017 ax = y1*z2 - y2*z1 + y3*z1 - y1*z3 + y2*z3 - y3*z2
1018 ay = -(x1*z2 - x2*z1 + x3*z1 - x1*z3 + x2*z3 - x3*z2)
1019 az = x1*y2 - x2*y1 + x3*y1 - x1*y3 + x2*y3 - x3*y2
1020 anorm = 1./sqrt(ax*ax + ay*ay + az*az)
1022 c ----- normalize to standard form for plane equation (i.e. such
1023 c ----- that length of the vector "a" is unity
1025 rn(1) = ax*anorm !ring normal unit vector
1026 rn(2) = ay*anorm !=(2-1)x(3-1)
1027 rn(3) = az*anorm !divided by its magnitude
1029 cent(1) = (x1+x2+x3)/3.
1030 cent(2) = (y1+y2+y3)/3.
1031 cent(3) = (z1+z2+z3)/3.
1033 return
1035 C ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1036 subroutine addprot(x,y,z,xh,yh,zh,Iheavyatom,Iproton,
1037 & aname,anameh,res,resh,ires,iresh)
1038 C Does not add most exchangeable protons: N-terminal NH3,
1039 C Glu,Gln,Asp,Asn sidechain, Arg sidechain,Tyr HH, His HD1,
1040 C Trp HE1, Ser & Thr OH, Cys SH, Lys NH3
1041 C Goes through heavy atom list and adds in simple geometric way
1042 C NB Looks in neighbourhood of attached heavy atom for bonding
1043 C atoms. If the atom ordering is odd, this could cause problems.
1044 C Usually this would mean that the proton does not get added;
1045 C very occasionally it could lead to a proton being put on wrong.
1046 DIMENSION x(5000),y(5000),z(5000),xh(3000),yh(3000),zh(3000)
1047 DIMENSION aname(5000),res(5000),ires(5000)
1048 DIMENSION anameh(3000),resh(3000),iresh(3000)
1049 CHARACTER aname*4,anameh*4,res*3,resh*3
1050 iproton=0
1051 C NB This effectively deletes any protons that already were in the file
1052 do 10 I=1,iheavyatom
1053 iat2=0
1054 iat3=0
1055 iat4=0
1056 if(aname(I).eq.' N '.and.ires(I).gt.1.and.res(I).
1057 & ne.'PRO') then
1058 iat1=I
1059 do 11 J=1,13
1060 if(aname(I-J).eq.' C '.and.ires(I-J).eq.ires(I)-1) then
1061 iat2=I-J
1062 goto 12
1063 endif
1064 11 continue
1065 12 continue
1066 do 13 J=1,15
1067 if(aname(I+J).eq.' CA '.and.ires(I+J).eq.ires(I)) then
1068 iat3=I+J
1069 goto 14
1070 endif
1071 13 continue
1072 14 continue
1073 if(iat2.gt.0.and.iat3.gt.0) then
1074 iproton=iproton+1
1075 iheavyatom=iheavyatom+1
1076 call addsp2(x,y,z,xh,yh,zh,iproton,iat1,iat2,iat3,1)
1077 anameh(iproton)=' H '
1078 resh(iproton)=res(iat1)
1079 iresh(iproton)=ires(iat1)
1080 x(iheavyatom)=xh(iproton)
1081 y(iheavyatom)=yh(iproton)
1082 z(iheavyatom)=zh(iproton)
1083 aname(iheavyatom)=' H '
1084 res(iheavyatom)=res(iat1)
1085 ires(iheavyatom)=ires(iat1)
1086 C The final 1 signals that it is an NH ie use NH bond distance
1087 endif
1088 else if (aname(I).eq.' CA '.and.res(I).ne.'GLY') then
1089 iat1=I
1090 do 21 J=-5,3
1091 if(aname(I+J).eq.' N '.and.ires(I+J).eq.ires(I)) then
1092 iat2=I+J
1093 goto 22
1094 endif
1095 21 continue
1096 22 continue
1097 do 23 J=1,15
1098 if(aname(I+J).eq.' C '.and.ires(I+J).eq.ires(I)) then
1099 iat3=I+J
1100 goto 24
1101 endif
1102 23 continue
1103 24 continue
1104 do 25 J=1,15
1105 if(aname(I+J).eq.' CB '.and.ires(I+J).eq.ires(I)) then
1106 iat4=I+J
1107 goto 26
1108 endif
1109 25 continue
1110 26 continue
1111 if(iat2.gt.0.and.iat3.gt.0.and.iat4.gt.0) then
1112 iproton=iproton+1
1113 call addonesp3(x,y,z,xh,yh,zh,iproton,iat1,iat2,iat3,iat4)
1114 anameh(iproton)=' HA '
1115 resh(iproton)=res(iat1)
1116 iresh(iproton)=ires(iat1)
1117 endif
1118 else if((aname(I).eq.' CB '.and.(res(I).eq.'THR'.or.
1119 & res(I).eq.'VAL'.or.res(I).eq.'ILE')).or.(aname(I).
1120 & eq.' CG '.and.res(I).eq.'LEU')) then
1121 iat1=I
1122 do 31 J=1,6
1123 if(aname(I-J).eq.' CA '.and.ires(I-J).eq.ires(I).
1124 & and.res(I).ne.'LEU') then
1125 iat2=I-J
1126 goto 32
1127 endif
1128 31 continue
1129 32 continue
1130 do 33 J=1,6
1131 if(res(I-J).eq.'LEU'.and.aname(I-J).eq.' CB ') then
1132 iat2=I-J
1133 goto 34
1134 endif
1135 33 continue
1136 34 continue
1137 do 35 J=1,3
1138 if(res(I+J).eq.'THR'.and.aname(I+J)(2:3).eq.'OG')
1139 $ iat3=I+J
1140 if(res(I+J).eq.'THR'.and.aname(I+J)(2:3).eq.'CG')
1141 $ iat4=I+J
1142 if(res(I+J).eq.'VAL'.and.aname(I+J).eq.' CG1') iat3=I+J
1143 if(res(I+J).eq.'VAL'.and.aname(I+J).eq.' CG2') iat4=I+J
1144 if(res(I+J).eq.'ILE'.and.aname(I+J).eq.' CG1') iat3=I+J
1145 if(res(I+J).eq.'ILE'.and.aname(I+J).eq.' CG2') iat4=I+J
1146 if(res(I+J).eq.'LEU'.and.aname(I+J).eq.' CD1') iat3=I+J
1147 if(res(I+J).eq.'LEU'.and.aname(I+J).eq.' CD2') iat4=I+J
1148 35 continue
1149 if(iat2.gt.0.and.iat3.gt.0.and.iat4.gt.0) then
1150 iproton=iproton+1
1151 call addonesp3(x,y,z,xh,yh,zh,iproton,iat1,iat2,iat3,iat4)
1152 if(res(I).eq.'LEU') then
1153 anameh(iproton)=' HG '
1154 else
1155 anameh(iproton)=' HB '
1156 endif
1157 resh(iproton)=res(iat1)
1158 iresh(iproton)=ires(iat1)
1159 endif
1160 else if(aname(I).eq.' CA '.and.res(I).eq.'GLY') then
1161 iat1=I
1162 do 41 J=-2,2
1163 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' N ')iat3=I+J
1164 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' C ')iat2=I+J
1165 41 continue
1166 if(iat2.gt.0.and.iat3.gt.0) then
1167 iproton=iproton+2
1168 call addtwosp3(x,y,z,xh,yh,zh,iproton,iat1,iat2,iat3)
1169 anameh(iproton-1)='1HA '
1170 anameh(iproton)='2HA '
1171 resh(iproton-1)=res(iat1)
1172 resh(iproton)=res(iat1)
1173 iresh(iproton-1)=ires(iat1)
1174 iresh(iproton)=ires(iat1)
1175 endif
1176 else if(aname(I).eq.' CB '.and.(res(I).eq.'CYS'.or.res(I).
1177 1 eq.'ASP'.or.res(I).eq.'GLU'.or.res(I).eq.'PHE'.or.res(I).
1178 2 eq.'HIS'.or.res(I).eq.'LYS'.or.res(I).eq.'LEU'.or.res(I).
1179 3 eq.'MET'.or.res(I).eq.'ASN'.or.res(I).eq.'PRO'.or.res(I).
1180 4 eq.'GLN'.or.res(I).eq.'ARG'.or.res(I).eq.'SER'.or.res(I).
1181 5 eq.'TRP'.or.res(I).eq.'TYR')) then
1182 iat1=I
1183 do 42 J=-3,3
1184 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CA ')iat2=I+J
1185 if(ires(I+J).eq.ires(I).and.aname(I+J)(3:3).eq.'G')
1186 & iat3=I+J
1187 42 continue
1188 if(iat2.gt.0.and.iat3.gt.0) then
1189 iproton=iproton+2
1190 call addtwosp3(x,y,z,xh,yh,zh,iproton,iat1,iat2,iat3)
1191 anameh(iproton-1)='1HB '
1192 anameh(iproton)='2HB '
1193 resh(iproton-1)=res(iat1)
1194 resh(iproton)=res(iat1)
1195 iresh(iproton-1)=ires(iat1)
1196 iresh(iproton)=ires(iat1)
1197 endif
1198 else if((aname(I).eq.' CG '.and.(res(I).eq.'GLU'.or.res(I).
1199 1 eq.'LYS'.or.res(I).eq.'MET'.or.res(I).eq.'PRO'.or.res(I).
1200 2 eq.'GLN'.or.res(I).eq.'ARG')).or.(aname(I).eq.' CG1'.and.
1201 3 res(I).eq.'ILE')) then
1202 iat1=I
1203 do 43 J=-3,3
1204 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CB ')iat2=I+J
1205 if(ires(I+J).eq.ires(I).and.aname(I+J)(3:3).eq.'D')
1206 & iat3=I+J
1207 43 continue
1208 if(iat2.gt.0.and.iat3.gt.0) then
1209 iproton=iproton+2
1210 call addtwosp3(x,y,z,xh,yh,zh,iproton,iat1,iat2,iat3)
1211 anameh(iproton-1)='1HG '
1212 anameh(iproton)='2HG '
1213 if(res(I).eq.'ILE')anameh(iproton-1)='1HG1'
1214 if(res(I).eq.'ILE')anameh(iproton)='2HG1'
1215 resh(iproton-1)=res(iat1)
1216 resh(iproton)=res(iat1)
1217 iresh(iproton-1)=ires(iat1)
1218 iresh(iproton)=ires(iat1)
1219 endif
1220 else if(aname(I).eq.' CD '.and.(res(I).eq.'LYS'.or.res(I).
1221 1 eq.'ARG'.or.res(I).eq.'PRO')) then
1222 iat1=I
1223 do 44 J=-6,3
1224 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CG ')iat2=I+J
1225 if(ires(I+J).eq.ires(I).and.aname(I+J)(3:3).eq.'E')
1226 & iat3=I+J
1227 if(ires(I+J).eq.ires(I).and.res(I).eq.'PRO'.and.
1228 & aname(I+J).eq.' N ')iat3=I+J
1229 44 continue
1230 if(iat2.gt.0.and.iat3.gt.0) then
1231 iproton=iproton+2
1232 call addtwosp3(x,y,z,xh,yh,zh,iproton,iat1,iat2,iat3)
1233 anameh(iproton-1)='1HD '
1234 anameh(iproton)='2HD '
1235 resh(iproton-1)=res(iat1)
1236 resh(iproton)=res(iat1)
1237 iresh(iproton-1)=ires(iat1)
1238 iresh(iproton)=ires(iat1)
1239 endif
1240 else if(aname(I).eq.' CE '.and.res(I).eq.'LYS') then
1241 iat1=I
1242 do 45 J=-3,3
1243 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CD ')iat2=I+J
1244 if(ires(I+J).eq.ires(I).and.aname(I+J)(3:3).eq.'Z')
1245 & iat3=I+J
1246 45 continue
1247 if(iat2.gt.0.and.iat3.gt.0) then
1248 iproton=iproton+2
1249 call addtwosp3(x,y,z,xh,yh,zh,iproton,iat1,iat2,iat3)
1250 anameh(iproton-1)='1HE '
1251 anameh(iproton)='2HE '
1252 resh(iproton-1)=res(iat1)
1253 resh(iproton)=res(iat1)
1254 iresh(iproton-1)=ires(iat1)
1255 iresh(iproton)=ires(iat1)
1256 endif
1257 else if(aname(I).eq.' CB '.and.res(I).eq.'ALA') then
1258 iat1=I
1259 do 51 J=1,5
1260 if(ires(I-J).eq.ires(I).and.aname(I-J).eq.' CA ')iat2=I-J
1261 if(ires(I-J).eq.ires(I).and.aname(I-J).eq.' N ')iat3=I-J
1262 51 continue
1263 if(iat2.gt.0.and.iat3.gt.0)goto 52
1264 else if((aname(I)(2:3).eq.'CG'.and.(res(I).eq.'VAL'.or.res(I).
1265 1 eq.'THR')).or.(aname(I).eq.' CG2'.and.res(I).eq.'ILE'))then
1266 iat1=I
1267 do 53 J=1,5
1268 if(ires(I-J).eq.ires(I).and.aname(I-J).eq.' CB ')iat2=I-J
1269 if(ires(I-J).eq.ires(I).and.aname(I-J).eq.' CA ')iat3=I-J
1270 53 continue
1271 if(iat2.gt.0.and.iat3.gt.0)goto 52
1272 else if(aname(I)(2:3).eq.'CD'.and.(res(I).eq.'LEU'.or.res(I).
1273 1 eq.'ILE'))then
1274 iat1=I
1275 do 54 J=1,5
1276 if(ires(I-J).eq.ires(I).and.aname(I-J)(2:3).eq.'CG')iat2=I-J
1277 if(ires(I-J).eq.ires(I).and.aname(I-J).eq.' CB ')iat3=I-J
1278 54 continue
1279 if(iat2.gt.0.and.iat3.gt.0)goto 52
1280 else if(aname(I)(2:3).eq.'CE'.and.res(I).eq.'MET')then
1281 iat1=I
1282 do 55 J=1,5
1283 if(ires(I-J).eq.ires(I).and.aname(I-J).eq.' SD ')iat2=I-J
1284 if(ires(I-J).eq.ires(I).and.aname(I-J).eq.' CG ')iat3=I-J
1285 55 continue
1286 if(iat2.gt.0.and.iat3.gt.0) then
1287 52 iproton=iproton+3
1288 call addthreesp3(x,y,z,xh,yh,zh,iproton,iat1,iat2,iat3)
1289 anameh(iproton-2)='1H '
1290 anameh(iproton-1)='2H '
1291 anameh(iproton)='3H '
1292 anameh(iproton-2)(3:4)=aname(iat1)(3:4)
1293 anameh(iproton-1)(3:4)=aname(iat1)(3:4)
1294 anameh(iproton)(3:4)=aname(iat1)(3:4)
1295 resh(iproton-2)=res(iat1)
1296 resh(iproton-1)=res(iat1)
1297 resh(iproton)=res(iat1)
1298 iresh(iproton-2)=ires(iat1)
1299 iresh(iproton-1)=ires(iat1)
1300 iresh(iproton)=ires(iat1)
1301 endif
1302 else if((res(I).eq.'TYR'.or.res(I).eq.'PHE'.or.res(I).eq.
1303 1 'TRP').and.aname(I).eq.' CD1')then
1304 iat1=I
1305 do 61 J=-5,5
1306 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CG ')iat2=I+J
1307 if(ires(I+J).eq.ires(I).and.aname(I+J)(3:4).eq.'E1')iat3=I+J
1308 61 continue
1309 if(iat2.gt.0.and.iat3.gt.0) goto 62
1310 else if((res(I).eq.'TYR'.or.res(I).eq.'PHE'.or.res(I).eq.
1311 1 'HIS').and.aname(I).eq.' CD2') then
1312 iat1=I
1313 do 63 J=-5,5
1314 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CG ')iat2=I+J
1315 if(ires(I+J).eq.ires(I).and.aname(I+J)(3:4).eq.'E2')iat3=I+J
1316 63 continue
1317 if(iat2.gt.0.and.iat3.gt.0) goto 62
1318 else if((res(I).eq.'TYR'.or.res(I).eq.'PHE').and.aname(I).
1319 1 eq.' CE1') then
1320 iat1=I
1321 do 64 J=-5,5
1322 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CD1')iat2=I+J
1323 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CZ ')iat3=I+J
1324 64 continue
1325 if(iat2.gt.0.and.iat3.gt.0) goto 62
1326 else if((res(I).eq.'TYR'.or.res(I).eq.'PHE').and.aname(I).
1327 1 eq.' CE2') then
1328 iat1=I
1329 do 65 J=-5,5
1330 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CD2')iat2=I+J
1331 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CZ ')iat3=I+J
1332 65 continue
1333 if(iat2.gt.0.and.iat3.gt.0) goto 62
1334 else if((res(I).eq.'PHE').and.aname(I).eq.' CZ ') then
1335 iat1=I
1336 do 66 J=-5,5
1337 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CE1')iat2=I+J
1338 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CE2')iat3=I+J
1339 66 continue
1340 if(iat2.gt.0.and.iat3.gt.0) goto 62
1341 else if(res(I).eq.'HIS'.and.aname(I).eq.' CE1') then
1342 iat1=I
1343 do 67 J=-5,5
1344 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' ND1')iat2=I+J
1345 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' NE2')iat3=I+J
1346 67 continue
1347 if(iat2.gt.0.and.iat3.gt.0) goto 62
1348 else if(res(I).eq.'TRP'.and.aname(I).eq.' CE3') then
1349 iat1=I
1350 do 68 J=-8,8
1351 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CD2')iat2=I+J
1352 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CZ3')iat3=I+J
1353 68 continue
1354 if(iat2.gt.0.and.iat3.gt.0) goto 62
1355 else if(res(I).eq.'TRP'.and.aname(I).eq.' CZ3') then
1356 iat1=I
1357 do 69 J=-8,8
1358 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CE3')iat2=I+J
1359 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CH2')iat3=I+J
1360 69 continue
1361 if(iat2.gt.0.and.iat3.gt.0) goto 62
1362 else if(res(I).eq.'TRP'.and.aname(I).eq.' CH2') then
1363 iat1=I
1364 do 70 J=-8,8
1365 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CZ3')iat2=I+J
1366 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CZ2')iat3=I+J
1367 70 continue
1368 if(iat2.gt.0.and.iat3.gt.0) goto 62
1369 else if(res(I).eq.'TRP'.and.aname(I).eq.' CZ2') then
1370 iat1=I
1371 do 71 J=-8,8
1372 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CH2')iat2=I+J
1373 if(ires(I+J).eq.ires(I).and.aname(I+J).eq.' CE2')iat3=I+J
1374 71 continue
1375 if(iat2.gt.0.and.iat3.gt.0) then
1376 62 iproton=iproton+1
1377 call addsp2(x,y,z,xh,yh,zh,iproton,iat1,iat2,iat3,2)
1378 anameh(iproton)=' H '
1379 anameh(iproton)(3:4)=aname(iat1)(3:4)
1380 resh(iproton)=res(iat1)
1381 iresh(iproton)=ires(iat1)
1382 endif
1383 else
1384 C presumably a heavy atom that doesn't have protons, or one
1385 C with exchangeable protons that I can't be bothered to do
1386 endif
1387 10 continue
1388 return
1390 C===================================================================
1391 subroutine addsp2(x,y,z,xh,yh,zh,Ih,Iat1,Iat2,Iat3,Ibond)
1392 DIMENSION x(5000),y(5000),z(5000)
1393 DIMENSION xh(3000),yh(3000),zh(3000)
1394 DIMENSION r12(3),u12(3),r13(3),u13(3),r14(3),u14(3)
1395 C If Ibond=1, it's a NH bond, if Ibond=2 it's a CH (aromatic) bond
1396 if(Ibond.eq.1)blength=0.98
1397 if(Ibond.eq.2)blength=1.08
1398 r12(1)=x(Iat1)-x(Iat2)
1399 r12(2)=y(Iat1)-y(Iat2)
1400 r12(3)=z(Iat1)-z(Iat2)
1401 call unitv(r12,u12,d)
1402 r13(1)=x(Iat1)-x(Iat3)
1403 r13(2)=y(Iat1)-y(Iat3)
1404 r13(3)=z(Iat1)-z(Iat3)
1405 call unitv(r13,u13,d)
1406 r14(1)=u12(1)+u13(1)
1407 r14(2)=u12(2)+u13(2)
1408 r14(3)=u12(3)+u13(3)
1409 call unitv(r14,u14,d)
1410 xh(Ih)=x(Iat1)+blength*u14(1)
1411 yh(Ih)=y(Iat1)+blength*u14(2)
1412 zh(Ih)=z(Iat1)+blength*u14(3)
1413 return
1415 C------------------------------------------------------------------
1416 subroutine addonesp3(x,y,z,xh,yh,zh,Ih,Iat1,Iat2,Iat3,Iat4)
1417 DIMENSION x(5000),y(5000),z(5000)
1418 DIMENSION xh(3000),yh(3000),zh(3000)
1419 DIMENSION r12(3),u12(3),r13(3),u13(3),r14(3),u14(3)
1420 DIMENSION r15(3),u15(3)
1421 blength=1.08
1422 r12(1)=x(Iat1)-x(Iat2)
1423 r12(2)=y(Iat1)-y(Iat2)
1424 r12(3)=z(Iat1)-z(Iat2)
1425 call unitv(r12,u12,d)
1426 r13(1)=x(Iat1)-x(Iat3)
1427 r13(2)=y(Iat1)-y(Iat3)
1428 r13(3)=z(Iat1)-z(Iat3)
1429 call unitv(r13,u13,d)
1430 r14(1)=x(Iat1)-x(Iat4)
1431 r14(2)=y(Iat1)-y(Iat4)
1432 r14(3)=z(Iat1)-z(Iat4)
1433 call unitv(r14,u14,d)
1434 r15(1)=u12(1)+u13(1)+u14(1)
1435 r15(2)=u12(2)+u13(2)+u14(2)
1436 r15(3)=u12(3)+u13(3)+u14(3)
1437 call unitv(r15,u15,d)
1438 xh(Ih)=x(Iat1)+blength*u15(1)
1439 yh(Ih)=y(Iat1)+blength*u15(2)
1440 zh(Ih)=z(Iat1)+blength*u15(3)
1441 return
1443 C------------------------------------------------------------------
1444 subroutine addtwosp3(x,y,z,xh,yh,zh,Ih,Iat1,Iat2,Iat3)
1445 C This is based on the GEN routine in VNMR (J. Hoch)
1446 DIMENSION x(5000),y(5000),z(5000)
1447 DIMENSION xh(3000),yh(3000),zh(3000)
1448 DIMENSION r12(3),r13(3),side(3),us(3)
1449 DIMENSION add(3),uadd(3),sub(3),usub(3)
1450 blength=1.08
1451 alpha=54.75*3.14159/180. !H-C-H=109.5
1452 r12(1)=x(Iat1)-x(Iat2)
1453 r12(2)=y(Iat1)-y(Iat2)
1454 r12(3)=z(Iat1)-z(Iat2)
1455 r13(1)=x(Iat1)-x(Iat3)
1456 r13(2)=y(Iat1)-y(Iat3)
1457 r13(3)=z(Iat1)-z(Iat3)
1458 sub(1)=r12(1)-r13(1)
1459 sub(2)=r12(2)-r13(2)
1460 sub(3)=r12(3)-r13(3)
1461 call unitv(sub,usub,d)
1462 add(1)=r12(1)+r13(1)
1463 add(2)=r12(2)+r13(2)
1464 add(3)=r12(3)+r13(3)
1465 call unitv(add,uadd,d)
1466 call vprod(usub,uadd,side,sintemp,tmp)
1467 call unitv(side,us,d)
1468 xh(Ih-1)=x(Iat1)+blength*(uadd(1)*cos(alpha)-us(1)*sin(alpha))
1469 yh(Ih-1)=y(Iat1)+blength*(uadd(2)*cos(alpha)-us(2)*sin(alpha))
1470 zh(Ih-1)=z(Iat1)+blength*(uadd(3)*cos(alpha)-us(3)*sin(alpha))
1471 xh(Ih)=x(Iat1)+blength*(uadd(1)*cos(alpha)+us(1)*sin(alpha))
1472 yh(Ih)=y(Iat1)+blength*(uadd(2)*cos(alpha)+us(2)*sin(alpha))
1473 zh(Ih)=z(Iat1)+blength*(uadd(3)*cos(alpha)+us(3)*sin(alpha))
1474 return
1476 C------------------------------------------------------------------
1477 subroutine addthreesp3(x,y,z,xh,yh,zh,Ih,Iat1,Iat2,Iat3)
1478 C This is based on the GEN routine in VNMR (J. Hoch)
1479 DIMENSION x(5000),y(5000),z(5000)
1480 DIMENSION xh(3000),yh(3000),zh(3000),twist(3),utw(3)
1481 DIMENSION r12(3),u12(3),r23(3),perp(3),side(3),uside(3)
1482 REAL perp
1483 blength=1.08
1484 beta=70.5*3.14159/180. !180-109.5
1485 cosbeta=cos(beta)
1486 sinbeta=sin(beta)
1487 cosgam=0.866 !cos(30)
1488 c The methyl protons should be staggered to Iat3
1489 r12(1)=x(Iat1)-x(Iat2)
1490 r12(2)=y(Iat1)-y(Iat2)
1491 r12(3)=z(Iat1)-z(Iat2)
1492 call unitv(r12,u12,d)
1493 r23(1)=x(Iat2)-x(Iat3)
1494 r23(2)=y(Iat2)-y(Iat3)
1495 r23(3)=z(Iat2)-z(Iat3)
1496 vert=(r12(1)*r23(1)+r12(2)*r23(2)+r12(3)*r23(3))/d
1497 perp(1)=u12(1)*vert
1498 perp(2)=u12(2)*vert
1499 perp(3)=u12(3)*vert
1500 side(1)=r23(1)-perp(1)
1501 side(2)=r23(2)-perp(2)
1502 side(3)=r23(3)-perp(3)
1503 call unitv(side,uside,d)
1504 call vprod(u12,uside,twist,sintemp,tmp)
1505 call unitv(twist,utw,d)
1506 u12(1)=u12(1)*cosbeta
1507 u12(2)=u12(2)*cosbeta
1508 u12(3)=u12(3)*cosbeta
1509 xh(Ih-2)=x(Iat1)+blength*(u12(1)+uside(1)*sinbeta)
1510 yh(Ih-2)=y(Iat1)+blength*(u12(2)+uside(2)*sinbeta)
1511 zh(Ih-2)=z(Iat1)+blength*(u12(3)+uside(3)*sinbeta)
1512 xh(Ih-1)=x(Iat1)+blength*(u12(1)-sinbeta*(
1513 & uside(1)/2.0-utw(1)*cosgam))
1514 yh(Ih-1)=y(Iat1)+blength*(u12(2)-sinbeta*(
1515 & uside(2)/2.0-utw(2)*cosgam))
1516 zh(Ih-1)=z(Iat1)+blength*(u12(3)-sinbeta*(
1517 & uside(3)/2.0-utw(3)*cosgam))
1518 C NB The /2.0 is actually *sin(30)
1519 xh(Ih)=x(Iat1)+blength*(u12(1)-sinbeta*(
1520 & uside(1)/2.0+utw(1)*cosgam))
1521 yh(Ih)=y(Iat1)+blength*(u12(2)-sinbeta*(
1522 & uside(2)/2.0+utw(2)*cosgam))
1523 zh(Ih)=z(Iat1)+blength*(u12(3)-sinbeta*(
1524 & uside(3)/2.0+utw(3)*cosgam))
1525 return