def fix_carbonyl(residue_id, cg, at, cross_vector): chiral = {} carbonyl = {} for atom in at: if at[atom]['atom'] in ['N', 'CA', 'C', 'O']: carbonyl[at[atom]['atom']] = atom if at[atom]['atom'] in g_var.res_top[at[atom] ['res_type']]['CHIRAL']['atoms']: chiral[at[atom]['atom']] = atom if not np.any(cross_vector): ca = [] res_off = 0 for x in range(2): for bead in cg[residue_id + res_off]: resname = cg[residue_id + res_off][next( iter(cg[residue_id + res_off]))]['residue_name'] if bead in g_var.res_top[resname]['CONNECT']: if x == 0: ca.append(cg[residue_id + res_off][bead]['coord']) for con_val, con_dir in enumerate( g_var.res_top[resname]['CONNECT'][bead]['dir']): if con_dir > 0: ca.append(cg[residue_id + con_dir + res_off] [g_var.res_top[resname]['CONNECT'][bead] ['Con_Bd'][con_val]]['coord']) res_off = con_dir cross_vector = at_mod.find_cross_vector(ca) rotation = at_mod.align_to_vector( at_mod.noramlised_vector(at[carbonyl['O']]['coord'], at[carbonyl['C']]['coord']), cross_vector) at[carbonyl['O']]['coord'] = ( at[carbonyl['O']]['coord'] - at[carbonyl['C']]['coord']).dot(rotation) + at[carbonyl['C']]['coord'] at[carbonyl['C']]['coord'] = at[ carbonyl['C']]['coord'] + cross_vector * 0.2 at[carbonyl['N']]['coord'] = at[ carbonyl['N']]['coord'] - cross_vector * 0.5 if len(g_var.res_top[at[1]['res_type']]['CHIRAL']) >= 2: for chiral_group in g_var.res_top[at[1]['res_type']]['CHIRAL']: if chiral_group != 'atoms': p1 = chiral[chiral_group] c1 = chiral[g_var.res_top[at[1]['res_type']]['CHIRAL'] [chiral_group]['c1']] c2 = chiral[g_var.res_top[at[1]['res_type']]['CHIRAL'] [chiral_group]['c2']] c3 = chiral[g_var.res_top[at[1]['res_type']]['CHIRAL'] [chiral_group]['c3']] cross_vector_chiral = at_mod.find_cross_vector( [at[c3]['coord'], at[c2]['coord'], at[c1]['coord']]) at[p1]['coord'] = at[p1]['coord'] + cross_vector_chiral * 0.5 if g_var.res_top[at[1]['res_type']]['CHIRAL'][chiral_group][ 'm'] in chiral: m = chiral[g_var.res_top[at[1]['res_type']]['CHIRAL'] [chiral_group]['m']] at[m]['coord'] = at[m]['coord'] + cross_vector_chiral * 1 return at, cross_vector
def fix_carbonyl_chiral(residue_id, cg, at, cross_vector): chiral, carbonyl = get_chiral_carbonyl(at) if not np.any(cross_vector): ca = get_crossvector(cg, residue_id) cross_vector = at_mod.find_cross_vector(ca) at = correct_carbonyl_alignment(at, cross_vector, carbonyl) if len(g_var.res_top[at[1]['res_type']]['CHIRAL']) >= 2: at = correct_protein_chiral(at, chiral) return at, cross_vector
def correct_protein_chiral(at, chiral): for chiral_group in g_var.res_top[at[1]['res_type']]['CHIRAL']: if chiral_group != 'atoms': atom_list = [chiral[chiral_group]] for chiral_atoms in ['c1','c2','c3']: atom_list.append(chiral[g_var.res_top[at[1]['res_type']]['CHIRAL'][chiral_group][chiral_atoms]]) cross_vector_chiral = at_mod.find_cross_vector( [at[atom_list[3]]['coord'], at[atom_list[2]]['coord'], at[atom_list[1]]['coord']]) at[atom_list[0]]['coord'] = at[atom_list[0]]['coord'] + cross_vector_chiral*0.5 if g_var.res_top[at[1]['res_type']]['CHIRAL'][chiral_group]['m'] in chiral: m = chiral[g_var.res_top[at[1]['res_type']]['CHIRAL'][chiral_group]['m']] at[m]['coord'] = at[m]['coord'] + cross_vector_chiral*1 return at
def fix_carbonyl(residue_id, cg, at): ca=[] for index in range(3): ca.append(cg[residue_id+index]['BB']['coord']) for atom in at: if at[atom]['atom'] == 'C': C = atom if at[atom]['atom'] in 'O': O = atom initial_vector, cross_vector = at_mod.find_cross_vector( ca, at[C]['coord'], at[O]['coord']) rotation = at_mod.align_to_vector(initial_vector, cross_vector) center = ca[0]+(ca[1]-ca[0])/3 at[C]['coord'] = (at[C]['coord']-center).dot(rotation)+center at[O]['coord'] = (at[O]['coord']-center).dot(rotation)+center return at