11 from ost
import settings
13 def _FindLGABinary(lga_bin):
14 return settings.Locate(
'lga', explicit_file_name=lga_bin,
15 env_name=
'LGA_BINARY')
17 def _PrepareInput(pdb1, pdb2, output_pdb):
19 Deal with the brain-dead input requirements of LGA.
21 mol1=os.path.basename(os.path.splitext(pdb1)[0])
22 mol2=os.path.basename(os.path.splitext(pdb2)[0])
23 os.system(
'echo MOLECULE %s > %s' % (mol1, output_pdb))
24 os.system(
'cat %s >> %s' % (pdb1, output_pdb))
25 os.system(
'echo "\n" >> %s' % (output_pdb))
26 os.system(
'echo MOLECULE %s >> %s' % (mol2, output_pdb))
27 os.system(
'cat %s >> %s' % (pdb2, output_pdb))
30 def __init__(self, rotation, shift, gdt_ts, gdt_ha):
37 transform.PasteTranslation(self.
shift)
40 def _ParseRotationAndShift(lines):
41 t=[l.split()
for l
in lines]
44 for i, x
in enumerate(t):
45 rot[(i, 0)]=+float(x[2])
46 rot[(i, 1)]=+float(x[6])
47 rot[(i, 2)]=+float(x[10])
51 def _ParseGDTSection(section, residue_count):
52 cutoffs=[float(e)
for e
in section[0].split()[2:]]
53 num_ca=[int(e)
for e
in section[1].split()[2:]]
54 gdt_ts=[float(e)
for e
in section[2].split()[2:]]
55 scores=dict(zip(cutoffs, gdt_ts))
56 numbers=dict(zip(cutoffs, num_ca))
57 factor=(1.0/(4*residue_count))*100
58 ts_cutoffs=(1.0, 2.0, 4.0, 8.0)
59 ha_cutoffs=(0.5, 1.0, 2.0, 4.0)
60 gdt_ts=(sum([numbers[c]
for c
in ts_cutoffs]))*factor
61 gdt_ha=(sum([numbers[c]
for c
in ha_cutoffs]))*factor
64 def _ParseLGAOutput(output, residue_count):
66 found_gdt_section=
False
67 found_transform_section=
False
68 for index, line
in enumerate(output):
69 if line.startswith(
'GLOBAL_DISTANCE_TEST'):
70 next_lines=output[index+1:index+5]
71 result.gdt_ts, result.gdt_ha=_ParseGDTSection(next_lines, residue_count)
72 found_gdt_section=
True
73 if line.startswith(
'Unitary ROTATION matrix'):
74 next_lines=output[index+1:index+4]
75 result.rotation, result.shift=_ParseRotationAndShift(next_lines)
76 found_transform_section=
True
78 assert found_transform_section
and found_gdt_section
81 def GDT(pdb1, pdb2, chain1='', chain2='', reference_length=None, lga_bin=None):
83 Calculate GDT value between pdb1 and pdb2. It is assumed that the
84 corresponding residues in pdb1 and pdb2 have the same residue numbers.
86 lga_bin=_FindLGABinary(lga_bin)
87 temp_d=tempfile.mkdtemp(prefix=
'lga_gdt_ts_')
88 for d
in (
'MOL2',
'TMP',
'RESULTS'):
89 os.mkdir(os.path.join(temp_d, d))
92 chain1=pdb1.chains[0].name
94 chain2=pdb2.chains[0].name
95 pdb_one_name=os.path.join(temp_d,
'MOL2',
'one.pdb')
96 pdb_two_name=os.path.join(temp_d,
'MOL2',
'two.pdb')
97 io.SaveEntity(pdb1, pdb_one_name)
98 io.SaveEntity(pdb2, pdb_two_name)
99 _PrepareInput(pdb_one_name, pdb_two_name,
100 os.path.join(temp_d,
'MOL2',
'input.pdb'))
101 output_file=os.path.join(temp_d,
'out.txt')
103 if len(chain1.strip()): ch1=
' -ch1:%s ' % chain1
104 if len(chain2.strip()): ch2=
' -ch2:%s ' % chain2
106 params=(temp_d, lga_bin,
'input.pdb', ch1, ch2)
107 command=
'cd %s; %s %s %s%s-ie -3 -d:4 -sda'
109 expanded_cmd=command % params
110 lga_proc=subprocess.Popen(expanded_cmd, shell=
True,
111 stdout=subprocess.PIPE)
112 length=reference_length
or max(pdb1.residue_count, pdb2.residue_count)
113 result=_ParseLGAOutput(lga_proc.stdout.readlines(), reference_length)
114 os.system(
'rm -r %s' % temp_d)