## SUMMARY: PDB/chain identifiers and structural alignment statistics
NR. STRID1 STRID2 Z RMSD LALI LSEQ2 %IDE
REVERS PERMUT NFRAG TOPO PROTEIN
1: 1spf 1spf 5.8
0.0 35 35 100
0 0 1 S
Pulmonary surfactant-associated polypeptide c(sp-c) (NM
2: 1spf 1a93B 3.6 1.9
30 32 11 0
0 1 S c-myc-max fragment (coiled
coil, lz) biological_unit
3: 1spf 1a93A 3.5 2.3
31 32 8
0 0 2 S
c-myc-max fragment (coiled coil, lz) biological_unit
4: 1spf 1afoA 3.5 2.0
34 40 13 0
0 1 S glycophorin a fragment
5: 1spf 2sivB 3.4 2.6
32 34 4
0 0 1 S
siv gp41 glycoprotein fragment (n36C34 CORE) biological
6: 1spf 1ce0A 3.4 2.5
33 35 7
0 0 1 S
leucine zipper model h38-p1 biological_unit
7: 1spf 1bb1A 3.4 2.2
32 34 1
0 0 2 S
designed, thermostable heterotrimeric coiled coil
8: 1spf 1wfbA 3.4 4.0
34 37 7
0 0 2 S
Antifreeze protein isoform hplc6 (-180 degrees c)
9: 1spf 1aikN 3.4 3.1
33 36 19 0
0 2 S hiv-1 gp41 glycoprotein
fragment
10: 1spf 1tiiC 3.4 3.0
33 36 10 0
0 2 S heat labile enterotoxin
type iib (lt-iib)
11: 1spf 1ce9C 3.3 3.2
34 34 10 0
0 1 S gcn4-pmse Mutant
12: 1spf 1am9A 3.3 3.6
33 80 4
0 0 2 S
sterol regulatory element binding protein 1a fragment (
13: 1spf 1c94A 3.3 3.1
33 37 10 0
0 2 S retro-gcn4 leucine zipper
14: 1spf 1lghB 3.3 2.3
34 43 4
0 0 2 S
light harvesting complex ii (lh ii, b800850) biological
15: 1spf 1dxzA 3.2 2.6
29 32 8
0 0 1 S
acetylcholine receptor protein, alpha chain fragment
16: 1spf 2ztaA 3.2 2.3
31 31 11 0
0 1 S GCN4 leucine zipper
17: 1spf 1qgkB 3.2 3.0
34 44 7
0 0 2 S
importin beta subunit (karyopherin beta-1, nuclear fact
18: 1spf 1dp5B 3.1 1.6
29 31 8
0 0 1 S
proteinase a (aspartate protease) proteinase inhibitor
19: 1spf 1aa0 3.1 4.1
33 113 10 0
0 2 S fibritin fragment (gpwac
e) biological_unit
20: 1spf 1a2xB 3.1 2.0
31 31 4
0 0 1 S
troponin c biological_unit troponin i fragment
21: 1spf 1junA 3.0 3.2
33 43 1
0 0 2 S
c-jun homodimer fragment (junlz, junp1n) Mutant
22: 1spf 1czqA 3.0 3.2
33 45 10 0
0 2 S fusion protein between
the hydrophobic pocket of hiv gp
23: 1spf 1vdfA 2.9 3.2
33 46 10 0
0 2 S cartilage oligomeric matrix
protein fragment (comp) bio
24: 1spf 1kzuB 2.9 4.0
35 41 12 0
0 1 S light harvesting protein
b-800850 (lh2)
25: 1spf 1b9uA 2.9 3.7
33 34 10 0
0 2 S atp synthase fragment
26: 1spf 1aq5A 2.9 2.8
34 47 7
0 0 1 S
cartilage matrix protein fragment (matrilin-1, cmp) Mut
27: 1spf 1zbdB 2.9 2.1
34 124 10 0
0 1 S rab-3a fragment (ras-related
protein rab3a) Mutant rabp
28: 1spf 1b9pA 2.9 3.0
34 34 4
0 0 1 S
collagen alpha 1 fragment (alpha 1 type xiv collagen) M
29: 1spf 1qeyA 2.9 2.1
30 31 8
0 0 1 S
regulatory protein mnt fragment (mnt-c)
30: 1spf 1kzuA 2.8 2.9
34 49 16 0
0 2 S light harvesting protein
b-800850 (lh2)
31: 1spf 1tmzA 2.8 3.0
31 32 11 0
0 1 S tmzip biological_unit
32: 1spf 1bde 2.7 2.9
32 33 4
0 0 2 S
vpr protein fragment
33: 1spf 1fbmC 2.7 3.2
34 46 10 0
0 1 S cartilage oligomeric matrix
protein fragment (comp)
34: 1spf 1svfB 2.7 1.6
29 38 8
0 0 2 S
fusion glycoprotein fragment Mutant fusion glycoprotein
35: 1spf 1envA 2.7 3.5
33 115 16 0
0 2 S hiv-1 envelope protein
chimera consisting of a fragment
36: 1spf 1debA 2.7 3.7
33 54 4
0 0 2 S
adenomatous polyposis coli protein fragment (apc protei
37: 1spf 1qbzA 2.7 2.9
33 102 16 0
0 2 S siv gp41 ectodomain fragment
Mutant
38: 1spf 1an2A 2.6 3.5
34 86 10 0
0 2 S max protein fragment (myn
protein) biological_unit DNA
39: 1spf 2dgcA 2.6 3.4
34 49 7
0 0 1 S
gcn4 fragment atfCREB SITE DNA
40: 1spf 1ifi 2.6 3.7
34 50 16 0
0 2 S Inovirus (filamentous bacteriophage)
strain fd major co
41: 1spf 1a02J 2.6 3.4
34 52 10 0
0 2 S nfat fragment (nf-at) biological_unit
c-fos Mutant c-ju
42: 1spf 1a92A 2.6 3.0
33 50 7
0 0 2 S
delta antigen fragment (hepatitis delta antigen) Mutant
43: 1spf 1ltsC 2.6 1.9
29 41 5
0 0 1 S
Heat-labile enterotoxin (lt)
44: 1spf 1a02F 2.6 3.7
33 53 13 0
0 2 S nfat fragment (nf-at) biological_unit
c-fos Mutant c-ju
45: 1spf 1qleD 2.5 4.0
31 43 4
0 0 2 S
cytochrome c oxidase polypeptide i-beta (cytochrome aa3
46: 1spf 1aoiC 2.5 2.8
34 115 7 0
0 1 S histone h3 histone h4 histone
h2a histone h2b Mutant DN
47: 1spf 1ecmA 2.5 4.2
33 91 7
0 0 2 S
endo-oxabicyclic transition state analogue
48: 1spf 2occM 2.5 3.5
33 43 4
0 0 3 S
cytochrome c oxidase (ferrocytochrome c:oxygen oxidored
49: 1spf 1dkgA 2.5 3.2
33 158 10 0
0 2 S nucleotide exchange factor
grpe Mutant molecular chaper
50: 1spf 1lghA 2.4 3.4
35 56 15 0
0 2 S light harvesting complex
ii (lh ii, b800850) biological
51: 1spf 1mof 2.4 3.7
34 53 16 0
0 2 S moloney murine leukemia
virus p15 fragment residues 45
52: 1spf 1fumC 2.4 2.0
33 130 7 0
0 2 S fumarate reductase flavoprotein
subunit fragment (compl
53: 1spf 1svfA 2.4 3.3
33 64 16 0
0 2 S fusion glycoprotein fragment
Mutant fusion glycoprotein
54: 1spf 1tafA 2.4 3.0
34 67 7
0 0 1 S
tfiid tbp associated factor 42 fragment Mutant tfiid tb
55: 1spf 1qcrK 2.4 3.2
34 45 7
0 0 3 S
ubiquinol cytochrome c oxidoreductase (cytochrome bc1,
56: 1spf 1bmx 2.4 3.9
31 31 1
0 0 2 S
human immunodeficiency virus type 1 capsid fragment (hi
57: 1spf 1hgeB 2.4 3.5
34 175 10 0
0 1 S Hemagglutinin (bromelain
digested) mutant with gly 135
58: 1spf 1ifp 2.4 3.4
34 44 7
0 0 1 S
major coat protein assembly (pf3 inovirus)
59: 1spf 1be3J 2.4 2.1
34 62 4
0 0 2 S
cytochrome bc1 complex (ubiquinol cytochrome c oxidored
60: 1spf 1eq7A 2.4 3.9
34 56 13 0
0 2 S outer membrane lipoprotein
fragment
61: 1spf 1ltaC 2.4 2.2
30 45 5
0 0 1 S
Heat-labile enterotoxin (lt) complex with galactose
62: 1spf 2ifo 2.4 4.0
33 46 10 0
0 2 S Inovirus (filamentous bacteriophage)
strain xf major co
63: 1spf 1aoiD 2.3 1.3
30 99 11 0
0 2 S histone h3 histone h4 histone
h2a histone h2b Mutant DN
64: 1spf 1a7w 2.3 3.0
34 68 7
0 0 1 S
histone hmfb biological_unit
65: 1spf 1ba4 2.3 5.1
33 40 10 0
0 2 S amyloid beta-peptide fragment
66: 1spf 1pfiA 2.3 3.3
34 46 13 0
0 2 S Major coat protein of pf1
virus (model for pf1 virus) c
67: 1spf 1d8cA 2.2 3.8
35 709 7 0
0 1 S malate synthase g Mutant
68: 1spf 1dx7A 2.2 4.3
33 48 13 0
0 2 S light-harvesting protein
b-875-beta chain (lh1b, antenn
69: 1spf 1tafB 2.2 3.7
33 69 7
0 0 2 S
tfiid tbp associated factor 42 fragment Mutant tfiid tb
70: 1spf 1dipB 2.2 3.5
35 77 12 0
0 1 S delta-sleep-inducing peptide
immunoreactive peptide (ds
71: 1spf 1aoiA 2.2 4.2
35 98 18 0
0 1 S histone h3 histone h4 histone
h2a histone h2b Mutant DN
72: 1spf 1ezeA 2.2 3.7
34 38 7
0 0 1 S
cholesteryl ester transferase inhibitor protein (cetip,
73: 1spf 1sfcE 2.2 3.6
33 69 7
0 0 2 S
synaptobrevin 2 fragment (vamp 2) syntaxin 1a fragment
74: 1spf 1nkd 2.2 2.6
32 59 1
0 0 1 S
rop (cole1 repressor of primer) Mutant biological_unit
75: 1spf 1bh9A 2.2 3.0
30 45 11 0
0 2 S tafii18 fragment (transcription
initiation factor tfiid
76: 1spf 1psm 2.2 3.7
32 38 1
0 0 3 S
Spam-h1 (residues 90 - 127 of the secreted polymorphic
77: 1spf 1lyp 2.2 3.9
31 32 1
0 0 3 S
Cap18 (residues 106 - 137) (NMR, minimized best structu
78: 1spf 1gd2I 2.2 0.0
29 40 1
0 0 2 S
DNA (5'-d(ApGpGpTpTpApCpGpTpApApCpC) -3') transcription
79: 1spf 1sfcA 2.2 3.1
33 69 7
0 0 2 S
synaptobrevin 2 fragment (vamp 2) syntaxin 1a fragment
80: 1spf 1peh 2.1 3.5
30 33 5
0 0 4 S
pepnh1 fragment (cytidylyltransferase membrane binding
81: 1spf 2occJ 2.1 2.6
33 58 4
0 0 2 S
cytochrome c oxidase (ferrocytochrome c:oxygen oxidored
82: 1spf 1bgyE 2.1 2.2
33 75 13 0
0 2 S cytochrome bc1 complex
(ubiquinol cytochrome c oxidored
83: 1spf 1mdyA 2.1 3.4
34 68 1
0 0 1 S
Myod basic-helix-loop-helix (bhlh) domain (residues 102
84: 1spf 1cw5A 2.1 3.8
32 48 1
0 0 2 S
type iia bacteriocin carnobacteriocin b2
85: 1spf 1avoA 2.1 3.7
34 60 10 0
0 3 S 11s regulator (reg(alpha),
pa28(alpha)) biological_unit
86: 1spf 1wdcA 2.1 2.9
33 64 16 0
0 2 S scallop myosin fragment
87: 1spf 1a36A 2.1 1.7
31 544 8 0
0 1 S topoisomerase i fragment
Mutant biological_unit DNA
88: 1spf 1ql1A 2.1 3.4
32 46 7
0 0 3 S
pf1 bacteriophage coat protein b (pf1 inovirus)
89: 1spf 2ilk 2.1 3.0
29 155 1 0
0 1 S interleukin-10
90: 1spf 1be3G 2.1 1.7
32 81 14 0
0 2 S cytochrome bc1 complex
(ubiquinol cytochrome c oxidored
91: 1spf 1bnxA 2.0 3.7
30 33 8
0 0 2 S
band 3 fragment (sao, anion exchange protein 1) Mutant
92: 1spf 1aqt 2.0 2.2
28 135 12 0
0 1 S atp synthase fragment Mutant
93: 1spf 1grj 2.0 2.1
32 151 7 0
0 2 S Grea transcript cleavage
factor from escherichia coli
94: 1spf 1sesA 2.0 3.1
33 421 13 0
0 2 S Seryl-trna synthetase (serine-trna
ligase) complexed wi
95: 1spf 1sfcD 2.0 4.1
34 74 4
0 0 2 S
synaptobrevin 2 fragment (vamp 2) syntaxin 1a fragment
96: 1spf 2cpb 2.0 3.3
33 50 7
0 0 2 S
m13 major coat protein (m13 gene-viii-protein or m13 gv
97: 1spf 1sfcC 2.0 3.5
33 77 13 0
0 2 S synaptobrevin 2 fragment
(vamp 2) syntaxin 1a fragment
98: 1spf 2occK 2.0 3.0
30 49 11 0
0 1 S cytochrome c oxidase (ferrocytochrome
c:oxygen oxidored
99: 1spf 1fzgD 2.0 1.2
28 53 12 0
0 1 S fibrinogen fragment
## ALIGNMENTS 1 - 30
SeqNo PDBNo AA STRUCTURE BP1 BP2 ACC OCC . .
. . : . . . . : .
. . . : . . . . :
. . . . : . . . .
:
1 1 L
0 0 224 69 L .. .. As .. .. .. D S
.. .. N G Ss .. .. R .. Lh .. Rh Dh Lh Eh M Ps
E C .. Kg
2 2 R
- 0 0 226 74 R ..
.. H .. R .. Th Gh T M Kh Rs Gs .. .. Lg .. Th
.. Lh Kh Rh Qh N as L A .. Ig
3 3 I
- 0 0 105 81 I ..
.. H W Lh A Ah Ih T S Sh E L
.. R Hg .. Nh .. Eh Ih Eh Sh L E T V .. Wg
4 4 P S
S- 0 0 86 87 Ps ..
a Fs Qh Lh Eh Sh Vh fh Vh Ah Gh T .. Mh Rg .. Sh E Eh
Eh Lh Eh Nh bt Ds Et N Tg
5 5 C S
S- 0 0 116 61 Cs a
G Ss Eh Qh Ih Dh .. Ah Kh .. .. Eh .. Kh Kt .. .. E .. .. ..
Eh .. Kt Es Lt Dh Vt
6 6 C S
S- 0 0 88 93 Cs G
Gs E Wh Rh Ah Ah Qh Sh Eh Rh Vh Eh P Qh Gt Th Kh Kh Vh Ih Eh
Lh Th Sh Eh R Ah N
7 7 P
- 0 0 40 98 P
G Vh P Eh Ih Ih Ah Qh Th Lh Kh Lh Ah T Lh K Dh
Ah Rh Kh Eh Th Hh Ih Ih Kh S Eh Ph
8 8 V S >> S-
0 0 104 96 Vs Mh Qh Eh Rh Kh Eh Ah Nh Nh Eh Ah
Kh Ih Ds Eh Ds Qh Nh Nh Th Sh Nh Kh Lh Vh Eh Pt Rh Ah
9 9 N H 3> S+
0 0 96 97 Nh Rh Eh Ih Kh Qh Yh Ah Nh Kh Dh
Ih Kh Ah Ss Dh Sh Qh Eh Rh Lh Kh Ah Yh Gh Kh Ih Gt Lh Ih
10 10 L H 3> S+
0 0 111 97 Lh Rh Eh Th Vh Qh Eh Ah Lh Lh Kh Dh
Lh Vh Gs Kh Th Kh Th Ah Kh Qh Ah Vh Qh Fh Ih It Ah Gh
11 11 K H <> S+
0 0 122 97 Kh Kh Qh Lh Dh Eh Qh Lh Lh Sh Vh Yh
Rh Hh Eh Vh Eh Vh Nh Ih Ah Kh Lh Ih Ah Qh Nh Sh Dh Ih
12 12 R H X S+
0 0 205 98 Rh Nh Kh Ih Fh Dh Ah Th Rh Qh Eh Ih
Ah Dh Kh Eh Mh Sh Ih Th Qh Kh Qh Dh Ih Th Rh Rh Eh Ph
13 13 L H X S+
0 0 94 99 Lh Dh Lh Ih Lh Kh Ah Ah Ah Hh Eh
Rh Vh Qh Mh Eh Rh Eh Ah Ah Nh Ih Dh Gh Ah Kh Vh Fh Qh Ah
14 14 L H X S+
0 0 105 99 Lh Th Ih Fh Eh Lh Ih Ah Ih Dh Lh Fh
Eh Fh Th Lh Rh Ih Sh Rh Sh Eh Vh Th Fh Vh Ih Rh Sh Lh
15 15 V H X S+
0 0 79 98 Vh Hh Sh Gh Eh Eh Kh Nh Eh Lh Lh
Lh Nh Kh Lh Lh Rh Fh Vh Rh Eh Nh Rh Rh Vh Eh Ah Rh Eh Lh
16 16 V H X S+
0 0 92 98 Vh Qh Eh Vh Nh Eh Eh Ah Ah Ah Sh
Qh Eh Th Sh Sh Rh Qh Th Qh Lh Eh Eh Vh Lh Eh Rh Kh Lh Gh
17 17 V H X S+
0 0 70 98 Vh Qh Eh Mh Ih Th Eh Kh Qh Dh Kh
Hh Lh Th Ih Kh Ih Sh Qh Hh Ah Ih Lh Fh Fh Lh Ah Ih Vh Sh
18 18 V H X S+
0 0 92 99 Vh Dh Dh Ah Th Lh Ih Ah Qh Fh Nh
Sh Hh Fh Sh Nh Eh Sh Eh Lh Sh Ah Lh Lh Vh Ih Eh Ah Kh Vh
19 19 V H X S+
0 0 72 99 Vh Ih Lh Gh Ah Sh Ah Ah Hh Kh Yh
Nh Yh Sh Vh Yh Vh Kh Vh Kh Th Rh Rh Gh Lh Nh Kh Kh Kh Th
20 20 V H X S+
0 0 86 99 Vh Dh Lh Vh Lh Kh Ah Ah Lh Kh Hh
Qh Nh Ah Lh Hh Nh Eh Nh Sh Ah Ih Qh Lh Fh Th Xh Rh Mh Vh
21 21 V H X S+
0 0 87 98 Vh Dh Rh Ih Lh Ih Ih Eh Lh Yh Lh
Kh Kh Fh Lh Lh Vh Kh Th Vh Nh Kh Qh Ah Ch Lh Eh Sh Vh Ih
22 22 L H X S+
0 0 98 98 Lh Lh Kh Gh Eh Yh Kh Lh Qh Ih Eh
Lh Sh Ih Sh Eh Eh Lh Ah Mh Mh Kh Vh Lh Mh Qh Th Ih Fh Ah
23 23 V H X S+
0 0 75 99 Vh Kh Rh Th Eh Hh Dh Th Lh Kh Nh
Kh Lh Ih Lh Nh Lh Qh Kh Lh Lh Lh Kh Vh Kh Qh Xh Kh Dh Ih
24 24 V H X S+
0 0 78 99 Vh Rh Rh Ih Ah Lh Kh Ah Th Rh Eh
Qh Lh Lh Th Eh Rh Gh Gh Qh Rh Lh Eh Ah Yh Kh Eh Th Th Lh
25 25 V H X S+
0 0 97 99 Vh Qh Eh Lh Qh Eh Ih Ah Vh Kh Vh
Eh Eh Ah Vh Vh Kh Dh Nh Ih Eh Qh Ih Hh Vt Lh Qh Lh Lh Vh
26 26 V H X S+
0 0 90 98 Vh Nh Qh Lh Ih Nh Ah Nh Wh Fh Ah
Nh Eh Ah Fh Ah Ah Ah Ih Ah Qh Lh Th Fh Wh Eh Eh Eh Kh Hh
27 27 I H X S+
0 0 104 99 Ih Ah Lh Ih Qh Eh Ah Ah Gh Th Rh Lh
Vh Vh Lh Rh Kh Kh Sh Ah Vh Th Fh Lh Ph Ah Rh Hh Dh Lh
28 28 V H X S+
0 0 68 99 Vh Lh Kh Sh Qh Ih Ih Ah Ih Lh Lh
Sh Kh Ah Lh Lh Kh Vh Sh Th Ah Vh Lh Ah Ph Vh Ih Kh Lh Ah
29 29 G H X S+
0 0 39 99 Gh Lh Hh Yh Eh Ah Kh Ah Kh Mh Kh
Lh Dh Hh Vh Kh Dh Vh Lh Eh Qh Wh Kh Fh Lh Ah Gh Rh Yh Ih
30 30 A H X S+
0 0 33 98 Ah Eh Kh Gh Kh Rh Eh Ah Qh Th Kh
Rh Eh Vh Ih Kh Dh Sh Qh Lh Lh Gh Nh Sh Mh Kh Rh Et Kh Lh
31 31 L H < S+
0 0 112 96 Lh Qh Lh Ih Nh Vh Yh Ah Lh Lh Lh Th
Lh Lh Vh Lh Qh Dh Gh Eh Kh Ih Th Ah Ah Rh Lh Nt Kh Sh
32 32 L H < S+
0 0 154 99 Lh Qh Eh Rh Mh Ks Ih Ah Qh Lh Vt Ah
Qt Vh Eh Vh Mh Ah Dh Kh Qh Kh Vh Ts Ah Ih Vh As Th Hs
33 33 M H < S-
0 0 187 97 Mh Vh Qh Rh Yh Ks Ah Ah Ah Sh Gt Vh
Kt Wh Lh G Lh Fh Vh Et Kh Qh Mh Ps Ih Eh Dh K T T
34 34 G
< 0 0
45 94 G Rh L Lh Eh Ls Ah Th Rt Ih E Hh Ms Vh It
.. Kh Mt Qh E Vh Lh Et Wt X Ah Rh E .. Ts
35 35 L
0 0 197 15 L .. .. .. .. .. .. .. .. .. R
.. .. .. .. .. .. .. .. .. .. .. .. Lt .. .. .. .. .. ..
## ALIGNMENTS 31 - 60
SeqNo PDBNo AA STRUCTURE BP1 BP2 ACC OCC . .
. . : . . . . : .
. . . : . . . . :
. . . . : . . . .
:
1 1 L
0 0 224 69 .. .. Lh .. Lh Lh Ah Lh Ah Ah Ah ..
.. Nh K Nt Th P Eh Kg Eh Gh Ah Lt Rs .. Es Th Lh Qh
2 2 R
- 0 0 226 74 .. .. Rh ..
Sh Lh Ih Dh Rh Ah Ah .. .. Kh Ht Ys Lh A Ah Ih Vh Fh Ah Nt F
C V Dh Lh Lh
3 3 I
- 0 0 105 81 .. Y
Eh .. Gh Kh Eh Kh Nh Fh Sh Eh .. Mh Gt As Gh Ks Qh Wh Eh Vh Ih V
L S E Vh Ft Sh
4 4 P S
S- 0 0 86 87 .. G
Lh D Ih Qh Kh Ah Th Dh Kh Qh .. Ah E Es Kh Ts Lh Lh Kh Dh Lh
Q Gs Is G Th Rs Sh
5 5 C S
S- 0 0 116 61 Dt Dh Qh
P .. .. .. Th Eh Sh Sh Wh .. .. .. Re Ht .. .. Vh .. .. .. E
Ph Ls Rh Gh Rs Dh
6 6 C S
S- 0 0 88 93 At Th
Eh L Qh Eh T Eh Ah Qh Kh Vh Dh Kh .. Ve L P Eh
Is Ih Qh Lh Yb Rh Ds Ih Qh Th Qh
7 7 P
- 0 0 40 98 Ih Ah
Th D Qh Ah Ph Ih Ah Ah Rh Gh Th Sh .. G D T Ah
N Sh Ns Kh E Rh I Qh Lh Fh Th
8 8 V S >> S-
0 0 104 96 Kh Gh Nh .. Qh Lh Kh Qh Rh Sh Kh Rh
fh Rh D At Ah S Qh Ph Nh Ph Nh Pt Qh R Dh Th Ah Lh
9 9 N H 3> S+
0 0 96 97 Kh Vh Ah .. Nh Kh Wh Yh Rh Ah Lh
Kh Nh Nh I Gh Hh Ph Th Th Lh Vh Ah Rh Lh Q Lh Ah Lh Nh
10 10 L H 3> S+
0 0 111 97 Kh Eh Ah I Nh Mh Nh Mh Sh Th Eh
Kh Eh Rh Rh Ah Yh Eh Rh Wh Eh Ih Ih Vh Ah .. Eh Vh Th Ah
11 11 K H <> S+
0 0 122 97 Mh Ah Lh Sh Lh Eh Nh Rh Rh Eh Rh Lh
Eh Rh Hh Ph Ih Qh Eh Lh Kh Vh Qh Vh Rh .. Kh Qh Ih Kh
12 12 R H X S+
0 0 205 98 Qh Ih Qh Qh Lh Nh Eh Rh Ah Yh Ih Eh
Th Rh Qh Vh Th Ah Rh Ph Sh Ih Kh Nh Nh .. Yh Ah Vh Vh
13 13 L H X S+
0 0 94 99 Mh Ih Dh Nh Rh Sh Th Kh Rh Ih Ah
Eh Qh Eh Qh Yh Rh Ih Dh Vh Lh Ih Th Qh Wh G Vh Dh Vh Dh
14 14 L H X S+
0 0 105 99 Lh Rh Vh Lh Ah Nh Wh Nh Kh Gh Rh Lh
Nh Lh Ah Lh Lh Gh Gh Ih Th Nh Nh Lh Vh P Eh Ih Gh Qh
15 15 V H X S+
0 0 79 98 Kh Ih Rh Ah Ih Lh Qh Hh Lh Yh Lh
Eh Lh Th Th Ah Fh Lh Ih Wh Sh Lh Ah Lh Ph K Dh Th Ah Lh
16 16 V H X S+
0 0 92 98 Lh Lh Eh Ah Eh Rh Eh Th Qh Ah Eh
Rh Sh Dh Fh Ah Qh Sh Lh Ih Lh Ih Ah Eh Th Eh Th Th Lh Sh
17 17 V H X S+
0 0 70 98 Dh Qh Lh Vh Ah Qh Wh Hh Rh Wh Eh
Dh Th Th Ah Vh Lh Vh Rh Vh Sh Th Vh Fh Ah Ph Kh Ih Fh Nh
18 18 V H X S+
0 0 92 99 Nh Qh Lh Nh Qh Eh Eh Qh Mh Ah Kh
Lh Ih Lh Gh Lh Ih Th Vh Ah Eh Lh Ah Th Qh Fh Ih Gh Fh Dh
19 19 V H X S+
0 0 72 99 Yh Lh Rh Kh Qh Lh Rh Qh Kh Mh Vh
Rh Yh Qh Fh Eh Ih Fh Kh Th Vh Ah Dh Fh Lh Rh Dh Gh Eh Vh
20 20 V H X S+
0 0 86 99 Hh Lh Qh Sh Hh Eh Kh Dh Qh Vh Kh
Kh Lh Ah Ih Yh Eh Lh Ah Vh Vh Ah Vh Rh Wh Dh Lh Ah Rh Nh
21 21 V H X S+
0 0 87 98 Lh Fh Qh Lh Lh Dh Vh Ih Lh Vh Th
Lh Rh Eh Kh Lh Dh Sh Eh Vh Lh Ah Vh Yh Gh Yh Wh Ih Ah Ah
22 22 L H X S+
0 0 98 98 Eh Ih Vh Sh Lh Nh Dh Dh Eh Vh Lh
Kh Eh Th Gh Th Sh Fh Mh Ah Qh Lh Qh Vh Ah Vh Sh Ih Fh Mh
23 23 V H X S+
0 0 75 99 Nh Hh Kh Dh Qh Sh Fh Dh Dh Ih Kh
Kh Yh Dh Ah Ah Vh Lh Eh Ih Nh Lh Ah Th Vh Dh Yh Vh Dh Rh
24 24 V H X S+
0 0 78 99 Eh Fh Eh Ah Lh Nh Lh Lh Kh Vh Ah
Kh Qh Qh Th Eh Lh Lh Nh Ah Rh Hh Th Sh Gh Rh Nh Lh Qh Sh
25 25 V H X S+
0 0 97 99 Vh Rh Ih Lh Th Hh Eh Kh Vh Gh Qh
Ih Sh Lh Wh Ih Th Ph Lh Vh Rh Th Qh Ih Ah Fh Ah Ah Gh Dh
26 26 V H X S+
0 0 90 98 Ah Ih Th Qh Vh Lh Eh Rh Eh Ah Nh
Kh Kh Eh Vh Lh Qh Ah Rh Hh Gh Kh Sh Lh Vh Yh Eh Ah Ah Vh
27 27 I H X S+
0 0 104 99 Rh Gh Fh Hh Wh Th Nh Qh Eh Th Sh Kh
Vh Dh Sh Eh Qh Gh Rh Ah Lh Th Lh Dh Gh Kh Lh Vh Dh Qh
28 28 V H X S+
0 0 68 99 Lh Ch Lh Lh Gh Kh Ih Nh Lh Ih Eh
Lh Kh Eh Ih Lh Ah Wh Rh Ah Dh Wh Gh Dh Lh Th Lh Vh Ah Ah
29 29 G H X S+
0 0 39 99 Kh Rh Kh Ah Ih Lh Th Ah Lh Gh Lh
Eh Rh Kh Lh Ah Lh Vh Th Vh Lh Fh Th Ah Vg Lh Vh Lh Ih Ah
30 30 A H X S+
0 0 33 98 Kt Hh Nh Qh Kh Eh Ah Lh Sh Ih Ah
Eh Qh Sh Sh Gh Lh Lh Eh Lh Lh Eh Ah Kh Sg Rh Ah Gh Yh Kh
31 31 L H < S+
0 0 112 96 Lt Ss Th Sh Qh Th Lh Lh Kh Kh Sh Dh
Ih Ah Ih Nh Qh Yh Lh Ah Ft Lh Vh Vh .. Ah Lh Ih Eh Dh
32 32 L H < S+
0 0 154 99 Vs R Vh Dh Lh Eh Lh Eh Nh Lh Th
N Fg Lh Ah Ah Qt Ht Dh As Lg Ag Qh Yh Ag Eh Eh Rh Hh Dh
33 33 M H < S-
0 0 187 97 Gs I Mh Th Qh Ah Eh Qh Yh Fh Ah
Pt Sg Qh Vh Ah H Lh Ih Pg Kg Pg Ah Ah Tt Qs Nh Wh Ih Ah
34 34 G
< 0 0
45 94 E G Et Yh Ah Sh Eh Qh Hh Kh Nh Wt Dg Th Lh Rh ..
Dh Eh Gg Eg Kg Vh Nh D A Qh Ih Nt Ah
35 35 L
0 0 197 15 R .. .. .. .. .. .. .. .. .. ..
Lh .. .. .. .. .. .. .. Fg Gt .. .. .. Ss S .. .. .. ..
## ALIGNMENTS 61 - 90
SeqNo PDBNo AA STRUCTURE BP1 BP2 ACC OCC . .
. . : . . . . : .
. . . : . . . . :
. . . . : . . . .
:
1 1 L
0 0 224 69 .. Gh .. At D Sh Eh Dh G
V L Dg Mh Eh .. .. G .. Vh Kt Ah R K Ss Q
Ih .. Ah .. Nh
2 2 R
- 0 0 226 74 .. Vh .. Gt
S Ah Ih Eh S R Re Vg Rh Lt .. E Lh .. Vh Kt Eh
Pg T a Ph Rh .. Vh .. Vh
3 3 I
- 0 0 105 81 .. Dh .. A
G Vh Vh Qh Lb E Fe Sg Vh Ag Ds A Rh .. Dh Yt Kh Eg Th
Ss Eh Gh .. Eh .. Lh
4 4 P S
S- 0 0 86 87 .. Vh
.. Es Y Eh Hh Ah S Es Q Sg Nh Dg D Ys Kh .. Ih
H Qh Vg Nh Kt Ah Yh E Sh .. Rh
5 5 C S
S- 0 0 116 61 G ..
T R .. Sh Dh .. .. Vh Sh As .. Ag Qs Ks .. .. .. .. Kh .. Ah
Tt Qh .. Kt .. .. ..
6 6 C S
S- 0 0 88 93 Dh Dh
Ge V E Ih Lh Lh Dh Eh Sh Ls Dh Ag Ns Ks .. .. Vh .. Lh St Dh
K Kh Ih Sh Ih Lt ..
7 7 P
- 0 0 40 98 Th Vh
Ie S Vs Th Ah Ht Dh Ih Ah Dh Kh Dh P A Lh Nh L
Fh Sh Rh a Vh Rh Mh Th Qt Rh
8 8 V S >> S-
0 0 104 96 fh Vh S Dh Hs Dh Ph Sh Ah Lh Vh
Kh Vh Eh .. Ks Rh Vh Qs .. Eh Rh Ss Dh Kh Mh Dh Eh Ah
9 9 N H 3> S+
0 0 96 97 Nh Sh Kh Dh Hs Gh Eh Vh Ah Kh Mh
Lh Lh Qh .. Qs Kh Dh Es Kt Ah Kh V Vh Ah Nh Gh Kh Ch
10 10 L H 3> S+
0 0 111 97 Eh Ah Ah Ah Qh Qt Nh Yh Kh Eh Ah Kh
Eh Ah Y As Fh Kh Rs Gt Rh Ah .. Fh Yh Lh Qh Gh Ih
11 11 K H <> S+
0 0 122 97 Eh Ih Mh Rh Kh Gh Rh Mh Eh Qh Lh Eh
Rh Dh Th Ss Rh Vh Vt G Kh Ah .. Rh Kh Qh Gh Ih Lh
12 12 R H X S+
0 0 205 98 Th Qh Sh Ih Lh Dh Qh Sh Lh Ih Qh Fh
Dh Ih Eh Qh Nh Lh Dt Ah Gh Th N Eh Kh Th Dh Yh Rh
13 13 L H X S+
0 0 94 99 Qh Gh Ih Th Vh Mh Lh Gh Ah Rh Eh
Gt Qh Ch Sh Dh Kh Eh Kg Th Fh Mh Wh Dh Lh Kh Mh Kh Vh
14 14 L H X S+
0 0 105 99 Nh Ah Mh Lh Fh Kh Lh Lh Eh Eh Ah Nt
Kh Eh Vh Ah Ih Rh Vg Dh Sh Rh Gh Lh Qh Ih Kh Ah Ah
15 15 V H X S+
0 0 79 98 Lh Ah Nh Ah Fh Ah Ah Wh Dh Lh Sh
Th Lh Sh Dh Eh Kh Dh Kg Nh Yh Eh Qh Ch Dh Dh Ah Mh Ph
16 16 V H X S+
0 0 92 98 Sh Gh Sh Kh Ah Ih Eh Lh Vh Vh Eh
Lh Sh Lh Ih Qs Eh Qh .. Ih Lh Rh Ah Th Qh Ah Ih Sh Ph
17 17 V H X S+
0 0 70 98 Th Ph Fh Ih Eh Gh Rh Fh Sh Eh Ah
Eh Eh Hh Lh At Kh Kh Kg Lh Vh Rh Fh Kh Rh Kh .. Et Fh
18 18 V H X S+
0 0 92 99 Ih Ih Vh Lh Dh Gh Dh St Ih Kh Yh
Dh Lh Dh Eh At Lh Lh Kg Yh Th Rh Qh Th Ih Kh Gh Fh Vh
19 19 V H X S+
0 0 72 99 Yh Ah Nh Eh Vh Yh Rh At Kh Nh Lh
Kh Dh Hh Dh Kt Kh Sh Vt Rh Ah Lh Eh Eh Gh Eh Gh Dh Ah
20 20 V H X S+
0 0 86 99 Lh Ah Dh Eh Gh Ih Ih Vh Lh Sh Vh
Ah Dh Ah Lh Dt Kh Eh Kt Vh Th Sh Rh Nh Lh Qh Yh Ih Fh
21 21 V H X S+
0 0 87 98 Rh Ih Vh Mh Sh Vh Qh Ah Kh Qh Ah
Wh Rh Dh Vh At .. Lh Dg Th Th Kh Yh Lh Sh Lh Ih Fh Yh
22 22 L H X S+
0 0 98 98 Eh Gh Fh Gh Nh Gh Ah Ih Rh Lh Lh
Eh Ah Eh Ih .. Ih Dh Vg Mh Th Vh Th Lh Vh Ah Vh Ih Lh
23 23 V H X S+
0 0 75 99 Yh Gh Eh Rh Kh Ah Ah Vh Ih Eh Fh
Vh Dh Lh Eh Et Gh Dh Eg Th Vh Nh Ah St Ih Dh Gh Nh Vh
24 24 V H X S+
0 0 78 99 Qh Ah Rh Dh Gh Lh Lh Ah Vh Rh Eh
Ih Ah Yh Fh Nh Qh Rh Et Lh Gh Eh Gh Yh Qh Ah Ah Yh Yh
25 25 V H X S+
0 0 97 99 Sh Vh Ih Ih Ah Vh Dh Hh Qh Eh Dh
Nh Lh Rh Ih Ah Kh Ah Kt Ch Vh Ah Ih Fh Rh Rh Lh Ih Th
26 26 V H X S+
0 0 90 98 Kh Lh Ah Ah Ih Ih Eh Lh Dh Nh Th
Rh Qh Sh Th Sh Ih Dh .. Lh Ah Fh Nh Ph Nh Rh Vh Eh Wh
27 27 I H X S+
0 0 104 99 Vh Th Gh Sh Ih Lh Wh Ah Ah Th Nh Ih
Ah Ch Eh Kh Qh Ah St Gh Yh Eh Sh Kh Ih Dh Ih Ah Gh
28 28 V H X S+
0 0 68 99 Kh Vh Eh Eh Gh Ah Hh Vh Ah Lh Lh
Kh Gh Lh Mh Eh Gh Lh Kh Gh Ah Th Fh Kh Rh Lh Lh Yh Th
29 29 G H X S+
0 0 39 99 Rh Mh Ah Ah Lh Vh Rh Yh Kh Lh Ch
Qt Ah Ah Th At Lh Qh Eh Th Ah Lh Vh Ih Kh Kh Ah Mh Qh
30 30 A H X S+
0 0 33 98 Qh Vh Sh Ih Mh Ah Sh Ih Fh Kh Ah
St Sh Rh Hh Et Lh Ah Wh Lh Kh Kh Sh Sh Wh Sh Vh Th Eh
31 31 L H < S+
0 0 112 96 Ih Gh Rh Kh Vh Gh Ns Ws Mh Th Ih Et
Qh Fh Kh .. Ph Gh Vh Yh Nh Rt Gh Eh Lh Ah Ah Mh Fh
32 32 L H < S+
0 0 154 99 Fg Ih Lh Lh G Lh P Rs Nh
Lh Hh F Fh G Ah Et Kh Ah Qh Sh Vh St Vh Lh Vh Kh Gh Kh
Eh
33 33 M H < S-
0 0 187 97 Sg Kh Ah Ah Gt Ih Gs P Hh Ah At
P Eh .. Mh At Lh Sh Kh Lh Vh Ts Ah Dh Lh Ah Lh Ih Kh
34 34 G
< 0 0
45 94 Dg Vh Hh Rh Vt Yh Ps W At S Kt A Th .. Sh
At A Qh Vh Yh Sh S Sh Ah Rh Dh Ih R Sh
35 35 L
0 0 197 15 .. .. .. .. .. .. V .. .. P
R .. .. .. .. K .. .. .. .. .. .. .. .. .. .. .. .. ..
## ALIGNMENTS 91 - 99
SeqNo PDBNo AA STRUCTURE BP1 BP2 ACC OCC . .
. . : . . . .
1 1 L
0 0 224 69 .. .. .. Nh Eh Ds Th .. ..
2 2 R
- 0 0 226 74 .. .. .. Qh
Mh D Rh .. ..
3 3 I
- 0 0 105 81 .. .. Et Vh
Dh Ph Rh .. ..
4 4 P S
S- 0 0 86 87 Y
.. Ht Ah Eh Ah Mh .. ..
5 5 C S
S- 0 0 116 61 Ps Hs G
.. Nh Kh .. A ..
6 6 C S
S- 0 0 88 93 Yt Gs
D Rh Eh Ah Qh P ..
7 7 P
- 0 0 40 98 Yt Ds
Lg Gh Qh Ah Lh D L
8 8 V S >> S-
0 0 104 96 Lt Vh N Kh Vh Fh Vh Fh Lh
9 9 N H 3> S+
0 0 96 97 Sh Dh Ah Ah Sh Nh Eh Hh Qh
10 10 L H 3> S+
0 0 111 97 Dh Yh Eh Lh Gh Sh Eh Dh Kh
11 11 K H <> S+
0 0 122 97 Ih Ah Yh Gh Ih Lh Sh Kh Nh
12 12 R H X S+
0 0 205 98 Th Qh Hh Eh Ih Qh Kh Yh Vh
13 13 L H X S+
0 0 94 99 Dh Ah Ah Eh Gh Ah Dh Gh Rh
14 14 L H X S+
0 0 105 99 Vh Sh Ah Ah Nh St Ah Nh Ah
15 15 V H X S+
0 0 79 98 Ih Ah Rh Kh Lh .. Gh Ah Qh
16 16 V H X S+
0 0 92 98 Fh Eh Eh Rh Rh Ah Ih Vh Lh
17 17 V H X S+
0 0 70 98 Ih Lh Qh Lh Hh Th Rh Lh Vh
18 18 V H X S+
0 0 92 99 Yh Ah Qh Eh Mh Eh Th Ah Dh
19 19 V H X S+
0 0 72 99 Fh Kh Gh Eh Ah Yh Lh Sh Mh
20 20 V H X S+
0 0 86 99 Ah Ah Fh Ah Lh Ih Vh Gh Kh
21 21 V H X S+
0 0 87 98 Ah Ih Ch Lh Dh Gh Mh Ah Rh
22 22 L H X S+
0 0 98 98 Lh Ah Eh Rh Mh Yt Lh Th Lh
23 23 V H X S+
0 0 75 99 Sh Qh Gh Eh Gh Ah Dh Fh Eh
24 24 V H X S+
0 0 78 99 Ph Lh Rh Kh Nh Wh Eh Ch Vh
25 25 V H X S+
0 0 97 99 Ah Rh Ih Eh Eh Ah Qh Vh Dh
26 26 V H X S+
0 0 90 98 Ih Vh Kh Ah Ih Mh Gh Ah Ih
27 27 I H X S+
0 0 104 99 Th Ih Dh Rh Dh Vh Eh Vh Dh
28 28 V H X S+
0 0 68 99 Fs Eh Ih Lh Th Vh Qh Wh Ih
29 29 G H X S+
0 0 39 99 Gs Lh Eh Eh Qh Vh Lh Vh Kh
30 30 A H X S+
0 0 33 98 .. Th Ah Ah Nh Ih Dh Yh Ih
31 31 L H < S+
0 0 112 96 .. Kh Kh Lh Rh Vh Rh Mh Rh
32 32 L H < S+
0 0 154 99 G K Lh Lh Qh Gh Vh Ah St
33 33 M H < S-
0 0 187 97 Ls .. Sh Lt Ih Ah Eh Th it
34 34 G
< 0 0
45 94 Ls .. Nh Qt Dh Th Eh Qh Rt
35 35 L
0 0 197 15 G .. .. .. .. .. .. .. ..
## EQUIVALENCES: ranges of aligned residues
NR. STRID1 STRID2 STRID1 <=>
STRID2
STRID1 <=> STRID2
1: 1spf 1spf
1 - 35 <=> 1 - 35 (LEU
1 - LEU 35 <=> LEU 1 - LEU
35)
2: 1spf 1a93B
5 - 34 <=> 1 - 30 (CYS
5 - GLY 34 <=> CYS 3 - ARG
32)
3: 1spf 1a93A
4 - 8 <=> 1 - 5
(PRO 4 - VAL 8 <=> CYS
3 - GLN 7)
3: 1spf 1a93A
9 - 34 <=> 7 - 32 (ASN
9 - GLY 34 <=> GLU 9 - LEU
34)
4: 1spf 1afoA
1 - 34 <=> 4 - 37 (LEU
1 - GLY 34 <=> ALA 65 - LEU
98)
5: 1spf 2sivB
3 - 34 <=> 1 - 32 (ILE
3 - GLY 34 <=> TRP 628 - GLU
659)
6: 1spf 1ce0A
2 - 34 <=> 1 - 33 (ARG
2 - GLY 34 <=> ARG 1 - LEU
33)
7: 1spf 1bb1A
3 - 6 <=> 1 - 4
(ILE 3 - CYS 6 <=> ALA
1 - ALA 4)
7: 1spf 1bb1A
7 - 34 <=> 6 - 33 (PRO
7 - GLY 34 <=> ILE 6 - ALA
33)
8: 1spf 1wfbA
1 - 5 <=> 1 - 5
(LEU 1 - CYS 5 <=> ASP
1 - ASP 5)
8: 1spf 1wfbA
6 - 34 <=> 7 - 35 (CYS
6 - GLY 34 <=> ALA 7 - THR
35)
9: 1spf 1aikN
1 - 4 <=> 1 - 4
(LEU 1 - PRO 4 <=> SER
546 - VAL 549)
9: 1spf 1aikN
6 - 34 <=> 6 - 34 (CYS
6 - GLY 34 <=> GLN 551 - ARG
579)
10: 1spf 1tiiC
2 - 6 <=> 1 - 5
(ARG 2 - CYS 6 <=> THR
195 - SER 199)
10: 1spf 1tiiC
7 - 34 <=> 7 - 34 (PRO
7 - GLY 34 <=> THR 201 - ILE
228)
11: 1spf 1ce9C
2 - 35 <=> 1 - 34 (ARG
2 - LEU 35 <=> MET 1 - ARG
34)
12: 1spf 1am9A
1 - 4 <=> 40 - 43 (LEU
1 - PRO 4 <=> ASN 358 - ALA
361)
12: 1spf 1am9A
6 - 34 <=> 46 - 74 (CYS
6 - GLY 34 <=> ARG 364 - HIS
392)
13: 1spf 1c94A
1 - 4 <=> 2 - 5
(LEU 1 - PRO 4 <=> GLY
3 - GLY 6)
13: 1spf 1c94A
6 - 34 <=> 6 - 34 (CYS
6 - GLY 34 <=> VAL 7 - MET
35)
14: 1spf 1lghB
1 - 5 <=> 4 - 8
(LEU 1 - CYS 5 <=> SER
6 - GLU 10)
14: 1spf 1lghB
6 - 34 <=> 10 - 38 (CYS
6 - GLY 34 <=> GLU 12 - VAL
40)
15: 1spf 1dxzA
6 - 34 <=> 1 - 29 (CYS
6 - GLY 34 <=> PRO 236 - ILE
264)
16: 1spf 2ztaA
3 - 33 <=> 1 - 31 (ILE
3 - MET 33 <=> ARG 1 - GLY
31)
17: 1spf 1qgkB
1 - 4 <=> 3 - 6
(LEU 1 - PRO 4 <=> ARG
13 - ARG 16)
17: 1spf 1qgkB
5 - 34 <=> 10 - 39 (CYS
5 - GLY 34 <=> LYS 20 - LYS
49)
18: 1spf 1dp5B
6 - 34 <=> 2 - 30 (CYS
6 - GLY 34 <=> THR 3 - MET
31)
19: 1spf 1aa0
1 - 4 <=> 48 - 51 (LEU
1 - PRO 4 <=> LEU 418 - SER
421)
19: 1spf 1aa0
6 - 34 <=> 53 - 81 (CYS
6 - GLY 34 <=> LYS 423 - GLN
451)
20: 1spf 1a2xB
4 - 34 <=> 1 - 31 (PRO
4 - GLY 34 <=> GLU 3 - GLU
33)
21: 1spf 1junA
1 - 4 <=> 7 - 10 (LEU
1 - PRO 4 <=> ARG 279 - GLU
282)
21: 1spf 1junA
6 - 34 <=> 12 - 40 (CYS
6 - GLY 34 <=> VAL 284 - VAL
312)
22: 1spf 1czqA
1 - 4 <=> 7 - 10 (LEU
1 - PRO 4 <=> ASP 7
- GLU 10)
22: 1spf 1czqA
6 - 34 <=> 12 - 40 (CYS
6 - GLY 34 <=> ILE 12 - LEU
40)
23: 1spf 1vdfA
1 - 4 <=> 8 - 11 (LEU
1 - PRO 4 <=> LEU 34 - LEU
37)
23: 1spf 1vdfA
6 - 34 <=> 13 - 41 (CYS
6 - GLY 34 <=> GLU 39 - GLU
67)
24: 1spf 1kzuB
1 - 35 <=> 6 - 40 (LEU
1 - LEU 35 <=> GLU 6 - LEU
40)
25: 1spf 1b9uA
1 - 4 <=> 1 - 4
(LEU 1 - PRO 4 <=> MET
1 - ASN 4)
25: 1spf 1b9uA
6 - 34 <=> 6 - 34 (CYS
6 - GLY 34 <=> THR 6 - UNK
34)
26: 1spf 1aq5A
1 - 34 <=> 8 - 41 (LEU
1 - GLY 34 <=> PRO 8 - ALA
41)
27: 1spf 1zbdB
1 - 34 <=> 2 - 35 (LEU
1 - GLY 34 <=> GLU 45 - ARG
78)
28: 1spf 1b9pA
1 - 34 <=> 1 - 34 (LEU
1 - GLY 34 <=> CYS 1 - GLU
34)
29: 1spf 1qeyA
4 - 33 <=> 2 - 31 (PRO
4 - MET 33 <=> ASN 53 - THR
82)
30: 1spf 1kzuA
1 - 5 <=> 5 - 9
(LEU 1 - CYS 5 <=> LYS
5 - VAL 9)
30: 1spf 1kzuA
6 - 34 <=> 11 - 39 (CYS
6 - GLY 34 <=> ASN 11 - THR
39)
31: 1spf 1tmzA
5 - 35 <=> 2 - 32 (CYS
5 - LEU 35 <=> ASP 2 - ARG
32)
32: 1spf 1bde
3 - 6 <=> 1 - 4
(ILE 3 - CYS 6 <=> TYR
50 - THR 53)
32: 1spf 1bde
7 - 34 <=> 6 - 33 (PRO
7 - GLY 34 <=> ALA 55 - GLY
82)
33: 1spf 1fbmC
1 - 34 <=> 8 - 41 (LEU
1 - GLY 34 <=> LEU 34 - GLU
67)
34: 1spf 1svfB
4 - 7 <=> 6 - 9
(PRO 4 - PRO 7 <=> ASP
445 - ASP 448)
34: 1spf 1svfB 10 -
34 <=> 10 - 34 (LEU
10 - GLY 34 <=> ILE 449 - TYR
473)
35: 1spf 1envA
1 - 4 <=> 34 - 37 (LEU
1 - PRO 4 <=> LEU 34 - ILE
37)
35: 1spf 1envA
6 - 34 <=> 39 - 67 (CYS
6 - GLY 34 <=> GLN 39 - ALA
67)
36: 1spf 1debA
1 - 4 <=> 8 - 11 (LEU
1 - PRO 4 <=> LEU 9
- GLN 12)
36: 1spf 1debA
6 - 34 <=> 13 - 41 (CYS
6 - GLY 34 <=> GLU 14 - SER
42)
37: 1spf 1qbzA
1 - 4 <=> 43 - 46 (LEU
1 - PRO 4 <=> ALA 70 - LYS
73)
37: 1spf 1qbzA
6 - 34 <=> 59 - 87 (CYS
6 - GLY 34 <=> THR 104 - GLU
132)
38: 1spf 1an2A
1 - 6 <=> 43 - 48 (LEU
1 - CYS 6 <=> LEU 64 - GLU
69)
38: 1spf 1an2A
7 - 34 <=> 50 - 77 (PRO
7 - GLY 34 <=> ILE 71 - GLN
98)
39: 1spf 2dgcA
1 - 34 <=> 5 - 38 (LEU
1 - GLY 34 <=> ALA 233 - HIS
266)
40: 1spf 1ifi
1 - 5 <=> 9 - 13 (LEU
1 - CYS 5 <=> ALA 9
- SER 13)
40: 1spf 1ifi
6 - 34 <=> 15 - 43 (CYS
6 - GLY 34 <=> GLN 15 - LYS
43)
41: 1spf 1a02J
1 - 5 <=> 9 - 13 (LEU
1 - CYS 5 <=> ALA 275 - SER
279)
41: 1spf 1a02J
6 - 34 <=> 15 - 43 (CYS
6 - GLY 34 <=> LYS 281 - ASN
309)
42: 1spf 1a92A
3 - 6 <=> 7 - 10 (ILE
3 - CYS 6 <=> GLU 18 - VAL
21)
42: 1spf 1a92A
7 - 35 <=> 12 - 40 (PRO
7 - LEU 35 <=> GLY 23 - LEU
51)
43: 1spf 1ltsC
6 - 34 <=> 2 - 30 (CYS
6 - GLY 34 <=> ASP 197 - ASP
225)
44: 1spf 1a02F
1 - 4 <=> 8 - 11 (LEU
1 - PRO 4 <=> ASN 147 - ALA
150)
44: 1spf 1a02F
6 - 34 <=> 14 - 42 (CYS
6 - GLY 34 <=> LYS 153 - THR
181)
45: 1spf 1qleD
1 - 4 <=> 4 - 7
(LEU 1 - PRO 4 <=> LYS
10 - GLU 13)
45: 1spf 1qleD
8 - 34 <=> 9 - 35 (VAL
8 - GLY 34 <=> ASP 15 - LEU
41)
46: 1spf 1aoiC
1 - 34 <=> 35 - 68 (LEU
1 - GLY 34 <=> ASN 38 - ARG
71)
47: 1spf 1ecmA
1 - 4 <=> 57 - 60 (LEU
1 - PRO 4 <=> THR 61 - LYS
64)
47: 1spf 1ecmA
5 - 33 <=> 63 - 91 (CYS
5 - MET 33 <=> HIS 67 - HIS
95)
48: 1spf 2occM
1 - 4 <=> 5 - 8
(LEU 1 - PRO 4 <=> PRO
5 - THR 8)
48: 1spf 2occM
6 - 9 <=> 9 - 12 (CYS
6 - ASN 9 <=> PRO 9
- PRO 12)
48: 1spf 2occM 10 -
34 <=> 14 - 38 (LEU
10 - GLY 34 <=> GLU 14 - ASP
38)
49: 1spf 1dkgA
1 - 4 <=> 15 - 18 (LEU
1 - PRO 4 <=> GLU 48 - LEU
51)
49: 1spf 1dkgA
6 - 34 <=> 20 - 48 (CYS
6 - GLY 34 <=> GLU 53 - GLU
81)
50: 1spf 1lghA
1 - 8 <=> 8 - 15 (LEU
1 - VAL 8 <=> LYS 8
- PRO 15)
50: 1spf 1lghA
9 - 35 <=> 17 - 43 (ASN
9 - LEU 35 <=> THR 17 - PHE
43)
51: 1spf 1mof
1 - 4 <=> 4 - 7
(LEU 1 - PRO 4 <=> GLU
49 - LYS 52)
51: 1spf 1mof
6 - 35 <=> 9 - 38 (CYS
6 - LEU 35 <=> ILE 54 - GLY
83)
52: 1spf 1fumC
1 - 4 <=> 58 - 61 (LEU
1 - PRO 4 <=> GLY 58 - ASP
61)
52: 1spf 1fumC
6 - 34 <=> 64 - 92 (CYS
6 - GLY 34 <=> GLN 64 - LYS
92)
53: 1spf 1svfA
1 - 4 <=> 14 - 17 (LEU
1 - PRO 4 <=> ALA 135 - LEU
138)
53: 1spf 1svfA
6 - 34 <=> 19 - 47 (CYS
6 - GLY 34 <=> LEU 140 - VAL
168)
54: 1spf 1tafA
1 - 34 <=> 14 - 47 (LEU
1 - GLY 34 <=> LEU 32 - ASN
65)
55: 1spf 1qcrK
1 - 6 <=> 4 - 9
(LEU 1 - CYS 6 <=> ARG
4 - ARG 9)
55: 1spf 1qcrK
7 - 30 <=> 11 - 34 (PRO
7 - ALA 30 <=> ARG 11 - SER
34)
55: 1spf 1qcrK 32 -
35 <=> 35 - 38 (LEU
32 - LEU 35 <=> ALA 35 - SER
38)
56: 1spf 1bmx
2 - 9 <=> 1 - 8
(ARG 2 - ASN 9 <=> CYS
1 - GLN 8)
56: 1spf 1bmx
13 - 35 <=> 9 - 31 (LEU
13 - LEU 35 <=> GLY 9 - SER
31)
57: 1spf 1hgeB
1 - 34 <=> 72 - 105 (LEU
1 - GLY 34 <=> GLU 72 - GLN
105)
58: 1spf 1ifp
1 - 34 <=> 6 - 39 (LEU
1 - GLY 34 <=> THR 6 - ILE
39)
59: 1spf 1be3J
1 - 6 <=> 12 - 17 (LEU
1 - CYS 6 <=> LEU 12 - THR
17)
59: 1spf 1be3J
7 - 34 <=> 20 - 47 (PRO
7 - GLY 34 <=> PHE 20 - ASN
47)
60: 1spf 1eq7A
1 - 5 <=> 8 - 12 (LEU
1 - CYS 5 <=> GLN 8
- ASP 12)
60: 1spf 1eq7A
6 - 34 <=> 14 - 42 (CYS
6 - GLY 34 <=> GLN 14 - ALA
42)
61: 1spf 1ltaC
5 - 34 <=> 1 - 30 (CYS
5 - GLY 34 <=> GLY 196 - ASP
225)
62: 1spf 2ifo
1 - 4 <=> 5 - 8
(LEU 1 - PRO 4 <=> GLY
5 - VAL 8)
62: 1spf 2ifo
6 - 34 <=> 10 - 38 (CYS
6 - GLY 34 <=> ASP 10 - VAL
38)
63: 1spf 1aoiD
5 - 8 <=> 26 - 29 (CYS
5 - VAL 8 <=> THR 49 - SER
52)
63: 1spf 1aoiD
9 - 34 <=> 31 - 56 (ASN
9 - GLY 34 <=> LYS 54 - HIS
79)
64: 1spf 1a7w
1 - 34 <=> 15 - 48 (LEU
1 - GLY 34 <=> ALA 15 - ARG
48)
65: 1spf 1ba4
1 - 4 <=> 7 - 10 (LEU
1 - PRO 4 <=> ASP 7
- TYR 10)
65: 1spf 1ba4
6 - 34 <=> 11 - 39 (CYS
6 - GLY 34 <=> GLU 11 - VAL
39)
66: 1spf 1pfiA
1 - 5 <=> 6 - 10 (LEU
1 - CYS 5 <=> SER 6
- SER 10)
66: 1spf 1pfiA
6 - 34 <=> 12 - 40 (CYS
6 - GLY 34 <=> ILE 12 - TYR
40)
67: 1spf 1d8cA
1 - 35 <=> 39 - 73 (LEU
1 - LEU 35 <=> GLU 41 - VAL
75)
68: 1spf 1dx7A
1 - 4 <=> 13 - 16 (LEU
1 - PRO 4 <=> ASP 13 - ALA
16)
68: 1spf 1dx7A
6 - 34 <=> 19 - 47 (CYS
6 - GLY 34 <=> LEU 19 - TRP
47)
69: 1spf 1tafB
1 - 4 <=> 22 - 25 (LEU
1 - PRO 4 <=> GLY 22 - SER
25)
69: 1spf 1tafB
6 - 34 <=> 26 - 54 (CYS
6 - GLY 34 <=> ASP 26 - ALA
54)
70: 1spf 1dipB
1 - 35 <=> 12 - 46 (LEU
1 - LEU 35 <=> VAL 12 - PRO
46)
71: 1spf 1aoiA
1 - 35 <=> 45 - 79 (LEU
1 - LEU 35 <=> LEU 82 - ARG
116)
72: 1spf 1ezeA
1 - 34 <=> 3 - 36 (LEU
1 - GLY 34 <=> ASP 3 - ALA
36)
73: 1spf 1sfcE
1 - 4 <=> 19 - 22 (LEU
1 - PRO 4 <=> MET 46 - ASN
49)
73: 1spf 1sfcE
6 - 34 <=> 24 - 52 (CYS
6 - GLY 34 <=> ASP 51 - THR
79)
74: 1spf 1nkd
1 - 32 <=> 28 - 59 (LEU
1 - LEU 32 <=> GLU 28 - GLY
59)
75: 1spf 1bh9A
3 - 7 <=> 15 - 19 (ILE
3 - PRO 7 <=> ASP 45 - PRO
49)
75: 1spf 1bh9A 10 -
34 <=> 20 - 44 (LEU
10 - GLY 34 <=> TYR 50 - SER
74)
76: 1spf 1psm
2 - 21 <=> 1 - 20 (ARG
2 - VAL 21 <=> GLU 1 - ALA
20)
76: 1spf 1psm
23 - 30 <=> 21 - 28 (VAL
23 - ALA 30 <=> GLU 21 - GLU
28)
76: 1spf 1psm
32 - 35 <=> 29 - 32 (LEU
32 - LEU 35 <=> GLU 29 - LYS
32)
77: 1spf 1lyp
1 - 4 <=> 1 - 4
(LEU 1 - PRO 4 <=> GLY
1 - LYS 4)
77: 1spf 1lyp
7 - 20 <=> 6 - 19 (PRO
7 - VAL 20 <=> LEU 6 - LYS
19)
77: 1spf 1lyp
22 - 34 <=> 20 - 32 (LEU
22 - GLY 34 <=> ILE 20 - ALA
32)
78: 1spf 1gd2I
5 - 26 <=> 7 - 28 (CYS
5 - VAL 26 <=>
- )
78: 1spf 1gd2I 28 -
34 <=> 29 - 35 (VAL
28 - GLY 34 <=>
- )
79: 1spf 1sfcA
1 - 4 <=> 18 - 21 (LEU
1 - PRO 4 <=> VAL 42 - ILE
45)
79: 1spf 1sfcA
6 - 34 <=> 24 - 52 (CYS
6 - GLY 34 <=> VAL 48 - GLN
76)
80: 1spf 1peh
1 - 4 <=> 3 - 6
(LEU 1 - PRO 4 <=> LYS
238 - HIS 241)
80: 1spf 1peh
7 - 15 <=> 7 - 15 (PRO
7 - VAL 15 <=> LEU 242 - LYS
250)
80: 1spf 1peh
17 - 25 <=> 16 - 24 (VAL
17 - VAL 25 <=> LYS 251 - LYS
259)
80: 1spf 1peh
27 - 34 <=> 25 - 32 (ILE
27 - GLY 34 <=> SER 260 - VAL
267)
81: 1spf 2occJ
1 - 7 <=> 6 - 12 (LEU
1 - PRO 7 <=> ALA 6
- PHE 12)
81: 1spf 2occJ
9 - 34 <=> 23 - 48 (ASN
9 - GLY 34 <=> LYS 23 - TYR
48)
82: 1spf 1bgyE
1 - 4 <=> 15 - 18 (LEU
1 - PRO 4 <=> ARG 15 - VAL
18)
82: 1spf 1bgyE
6 - 34 <=> 28 - 56 (CYS
6 - GLY 34 <=> SER 28 - SER
56)
83: 1spf 1mdyA
1 - 34 <=> 6 - 39 (LEU
1 - GLY 34 <=> LYS 104 - SER
137)
84: 1spf 1cw5A
1 - 9 <=> 8 - 16 (LEU
1 - ASN 9 <=> SER 8
- VAL 16)
84: 1spf 1cw5A 12 -
34 <=> 17 - 39 (ARG
12 - GLY 34 <=> ASN 17 - SER
39)
85: 1spf 1avoA
1 - 5 <=> 4 - 8
(LEU 1 - CYS 5 <=> GLN
7 - GLN 11)
85: 1spf 1avoA
6 - 22 <=> 10 - 26 (CYS
6 - LEU 22 <=> LYS 13 - LEU
29)
85: 1spf 1avoA 23 -
34 <=> 28 - 39 (VAL
23 - GLY 34 <=> SER 31 - ALA
42)
86: 1spf 1wdcA
1 - 4 <=> 16 - 19 (LEU
1 - PRO 4 <=> ILE 789 - TYR
792)
86: 1spf 1wdcA
6 - 34 <=> 21 - 49 (CYS
6 - GLY 34 <=> ILE 794 - ARG
822)
87: 1spf 1a36A
4 - 34 <=> 420 - 450 (PRO
4 - GLY 34 <=> GLU 641 - ASP
671)
88: 1spf 1ql1A
1 - 4 <=> 7 - 10 (LEU
1 - PRO 4 <=> ALA 7
- SER 10)
88: 1spf 1ql1A
6 - 16 <=> 12 - 22 (CYS
6 - VAL 16 <=> ILE 12 - ILE
22)
88: 1spf 1ql1A 18 -
34 <=> 23 - 39 (VAL
18 - GLY 34 <=> GLY 23 - ILE
39)
89: 1spf 2ilk
6 - 34 <=> 126 - 154 (CYS
6 - GLY 34 <=> LEU 131 - ARG
159)
90: 1spf 1be3G
1 - 4 <=> 36 - 39 (LEU
1 - PRO 4 <=> ASN 36 - ARG
39)
90: 1spf 1be3G
7 - 34 <=> 42 - 69 (PRO
7 - GLY 34 <=> ARG 42 - SER
69)
91: 1spf 1bnxA
4 - 29 <=> 2 - 27 (PRO
4 - GLY 29 <=> TYR 3 - GLY
28)
91: 1spf 1bnxA 32 -
35 <=> 28 - 31 (LEU
32 - LEU 35 <=> GLY 29 - GLY
32)
92: 1spf 1aqt
5 - 32 <=> 108 - 135 (CYS
5 - LEU 32 <=> HIS 109 - LYS
136)
93: 1spf 1grj
3 - 7 <=> 37 - 41 (ILE
3 - PRO 7 <=> GLU 38 - LEU
42)
93: 1spf 1grj
8 - 34 <=> 44 - 70 (VAL
8 - GLY 34 <=> ASN 45 - ASN
71)
94: 1spf 1sesA
1 - 4 <=> 52 - 55 (LEU
1 - PRO 4 <=> ASN 52 - ALA
55)
94: 1spf 1sesA
6 - 34 <=> 72 - 100 (CYS
6 - GLY 34 <=> ARG 72 - GLN
100)
95: 1spf 1sfcD
1 - 5 <=> 15 - 19 (LEU
1 - CYS 5 <=> GLU 145 - ASN
149)
95: 1spf 1sfcD
6 - 34 <=> 21 - 49 (CYS
6 - GLY 34 <=> GLU 151 - ASP
179)
96: 1spf 2cpb
1 - 14 <=> 4 - 17 (LEU
1 - LEU 14 <=> ASP 4 - SER
17)
96: 1spf 2cpb
16 - 34 <=> 18 - 36 (VAL
16 - GLY 34 <=> ALA 18 - THR
36)
97: 1spf 1sfcC
1 - 4 <=> 23 - 26 (LEU
1 - PRO 4 <=> THR 29 - MET
32)
97: 1spf 1sfcC
6 - 34 <=> 28 - 56 (CYS
6 - GLY 34 <=> GLN 34 - GLU
62)
98: 1spf 2occK
5 - 34 <=> 1 - 30 (CYS
5 - GLY 34 <=> ALA 6 - GLN
35)
99: 1spf 1fzgD
7 - 34 <=> 1 - 28 (PRO
7 - GLY 34 <=> LEU 135 - ARG
162)
## MATRICES: UX+T is the least-squares superimposition of STRID2
(X) onto STRID1
NR. STRID1 STRID2
U(.,1) U(.,2) U(.,3)
T(.)
1: 1spf 1spf U(1,.)
1.000000 0.000000 0.000000
0.000000
1: 1spf 1spf U(2,.)
0.000000 1.000000 0.000000
0.000000
1: 1spf 1spf U(3,.)
0.000000 0.000000 1.000000
0.000000
2: 1spf 1a93B U(1,.)
0.862000 -0.426000 -0.276000
-20.017000
2: 1spf 1a93B U(2,.)
-0.494000 -0.577000 -0.650000
37.561000
2: 1spf 1a93B U(3,.)
0.118000 0.696000 -0.708000
-20.872000
3: 1spf 1a93A U(1,.)
0.791000 -0.516000 -0.330000
-20.947000
3: 1spf 1a93A U(2,.)
-0.462000 -0.150000 -0.874000
28.236000
3: 1spf 1a93A U(3,.)
0.401000 0.844000 -0.357000
-42.272000
4: 1spf 1afoA U(1,.)
-0.327000 -0.627000 0.707000
-0.473000
4: 1spf 1afoA U(2,.)
-0.426000 -0.570000 -0.702000
5.482000
4: 1spf 1afoA U(3,.)
0.844000 -0.531000 -0.081000
-0.570000
5: 1spf 2sivB U(1,.)
0.642000 -0.577000 -0.505000
-13.799000
5: 1spf 2sivB U(2,.)
0.263000 -0.453000 0.852000
-13.098000
5: 1spf 2sivB U(3,.)
-0.720000 -0.680000 -0.140000
5.454000
6: 1spf 1ce0A U(1,.)
-0.874000 -0.158000 -0.459000
22.705000
6: 1spf 1ce0A U(2,.)
-0.400000 -0.301000 0.866000
31.056000
6: 1spf 1ce0A U(3,.)
-0.275000 0.940000 0.200000
-33.982000
7: 1spf 1bb1A U(1,.)
0.584000 0.744000 0.325000
-24.111000
7: 1spf 1bb1A U(2,.)
0.370000 -0.600000 0.710000
-25.372000
7: 1spf 1bb1A U(3,.)
0.723000 -0.294000 -0.625000
-19.876000
8: 1spf 1wfbA U(1,.)
-0.511000 -0.836000 0.200000
24.176000
8: 1spf 1wfbA U(2,.)
-0.803000 0.382000 -0.457000
9.116000
8: 1spf 1wfbA U(3,.)
0.306000 -0.395000 -0.866000
-0.259000
9: 1spf 1aikN U(1,.)
0.098000 0.862000 -0.498000
-11.340000
9: 1spf 1aikN U(2,.)
-0.878000 -0.160000 -0.451000
26.606000
9: 1spf 1aikN U(3,.)
-0.468000 0.481000 0.741000
-9.018000
10: 1spf 1tiiC U(1,.) -0.658000
0.741000 0.134000
22.078000
10: 1spf 1tiiC U(2,.) -0.736000
-0.670000 0.095000
37.893000
10: 1spf 1tiiC U(3,.)
0.160000 -0.036000 0.986000
-10.600000
11: 1spf 1ce9C U(1,.) -0.012000
0.425000 -0.905000
0.910000
11: 1spf 1ce9C U(2,.) -0.861000
0.456000 0.225000
1.570000
11: 1spf 1ce9C U(3,.)
0.509000 0.782000 0.361000
-29.326000
12: 1spf 1am9A U(1,.)
0.768000 0.563000 0.305000
-78.938000
12: 1spf 1am9A U(2,.) -0.608000
0.791000 0.071000
30.755000
12: 1spf 1am9A U(3,.) -0.201000
-0.240000 0.950000
0.000000
13: 1spf 1c94A U(1,.)
0.524000 0.789000 -0.322000
-13.107000
13: 1spf 1c94A U(2,.) -0.830000
0.387000 -0.401000
18.458000
13: 1spf 1c94A U(3,.) -0.191000
0.477000 0.858000
-3.700000
14: 1spf 1lghB U(1,.)
0.893000 0.360000 0.271000
-72.476000
14: 1spf 1lghB U(2,.)
0.017000 -0.627000 0.779000
-79.324000
14: 1spf 1lghB U(3,.)
0.450000 -0.691000 -0.566000
1.686000
15: 1spf 1dxzA U(1,.) -0.677000
0.207000 0.707000
5.736000
15: 1spf 1dxzA U(2,.) -0.310000
0.791000 -0.528000
-4.376000
15: 1spf 1dxzA U(3,.) -0.668000
-0.576000 -0.471000
-3.375000
16: 1spf 2ztaA U(1,.)
0.046000 0.446000 0.894000
-11.418000
16: 1spf 2ztaA U(2,.)
0.889000 0.390000 -0.240000
-21.926000
16: 1spf 2ztaA U(3,.) -0.456000
0.806000 -0.378000
-10.256000
17: 1spf 1qgkB U(1,.) -0.303000
0.021000 -0.953000
23.203000
17: 1spf 1qgkB U(2,.) -0.752000
0.610000 0.252000
-0.280000
17: 1spf 1qgkB U(3,.)
0.586000 0.793000 -0.169000
-41.398000
18: 1spf 1dp5B U(1,.)
0.444000 -0.637000 -0.630000
95.140000
18: 1spf 1dp5B U(2,.)
0.193000 0.755000 -0.626000
-47.508000
18: 1spf 1dp5B U(3,.)
0.875000 0.156000 0.459000
0.000000
19: 1spf 1aa0 U(1,.)
0.791000 -0.564000 0.235000
-58.037000
19: 1spf 1aa0 U(2,.)
-0.516000 -0.412000 0.751000
166.577000
19: 1spf 1aa0 U(3,.)
-0.327000 -0.716000 -0.617000
0.000000
20: 1spf 1a2xB U(1,.)
0.238000 -0.792000 0.562000
4.646000
20: 1spf 1a2xB U(2,.)
0.502000 -0.395000 -0.769000
17.995000
20: 1spf 1a2xB U(3,.)
0.831000 0.465000 0.304000
-18.581000
21: 1spf 1junA U(1,.) -0.197000
0.239000 0.951000
0.704000
21: 1spf 1junA U(2,.) -0.869000
0.405000 -0.282000
6.791000
21: 1spf 1junA U(3,.) -0.453000
-0.882000 0.128000
-6.438000
22: 1spf 1czqA U(1,.) -0.502000
-0.760000 -0.412000
22.459000
22: 1spf 1czqA U(2,.)
0.850000 -0.346000 -0.399000
-7.099000
22: 1spf 1czqA U(3,.)
0.161000 -0.550000 0.820000
-15.042000
23: 1spf 1vdfA U(1,.) -0.360000
-0.777000 0.516000
59.074000
23: 1spf 1vdfA U(2,.) -0.929000
0.347000 -0.125000
13.689000
23: 1spf 1vdfA U(3,.) -0.082000
-0.524000 -0.848000
10.546000
24: 1spf 1kzuB U(1,.)
0.646000 0.691000 0.325000
-28.692000
24: 1spf 1kzuB U(2,.)
0.334000 -0.638000 0.694000
-26.567000
24: 1spf 1kzuB U(3,.)
0.687000 -0.339000 -0.642000
-7.390000
25: 1spf 1b9uA U(1,.) -0.527000
-0.288000 0.800000
-0.341000
25: 1spf 1b9uA U(2,.)
0.613000 -0.780000 0.124000
1.106000
25: 1spf 1b9uA U(3,.)
0.588000 0.556000 0.587000
-3.283000
26: 1spf 1aq5A U(1,.)
0.139000 0.984000 -0.111000
2.133000
26: 1spf 1aq5A U(2,.)
0.158000 -0.133000 -0.978000
-2.123000
26: 1spf 1aq5A U(3,.) -0.978000
0.118000 -0.174000
-6.475000
27: 1spf 1zbdB U(1,.) -0.463000
-0.876000 0.132000
7.678000
27: 1spf 1zbdB U(2,.) -0.664000
0.245000 -0.706000
27.168000
27: 1spf 1zbdB U(3,.)
0.587000 -0.415000 -0.696000
-11.614000
28: 1spf 1b9pA U(1,.) -0.302000
-0.816000 0.493000
2.248000
28: 1spf 1b9pA U(2,.) -0.586000
-0.249000 -0.771000
2.712000
28: 1spf 1b9pA U(3,.)
0.752000 -0.522000 -0.403000
-4.253000
29: 1spf 1qeyA U(1,.) -0.678000
-0.734000 0.042000
17.121000
29: 1spf 1qeyA U(2,.)
0.574000 -0.564000 -0.594000
-17.360000
29: 1spf 1qeyA U(3,.)
0.460000 -0.379000 0.803000
-19.439000
30: 1spf 1kzuA U(1,.)
0.761000 -0.480000 0.436000
-23.666000
30: 1spf 1kzuA U(2,.) -0.626000
-0.368000 0.687000
-4.703000
30: 1spf 1kzuA U(3,.) -0.169000
-0.796000 -0.581000
16.741000
31: 1spf 1tmzA U(1,.)
0.820000 0.335000 0.465000
3.115000
31: 1spf 1tmzA U(2,.)
0.389000 -0.921000 -0.023000
-0.951000
31: 1spf 1tmzA U(3,.)
0.420000 0.200000 -0.885000
-4.003000
32: 1spf 1bde U(1,.)
-0.252000 -0.783000 -0.568000
9.654000
32: 1spf 1bde U(2,.)
-0.963000 0.261000 0.067000
12.870000
32: 1spf 1bde U(3,.)
0.096000 0.564000 -0.820000
-21.010000
33: 1spf 1fbmC U(1,.) -0.068000
0.727000 0.683000
-20.772000
33: 1spf 1fbmC U(2,.) -0.089000
-0.687000 0.722000
39.289000
33: 1spf 1fbmC U(3,.)
0.994000 -0.012000 0.111000
-44.151000
34: 1spf 1svfB U(1,.)
0.807000 -0.263000 -0.529000
31.421000
34: 1spf 1svfB U(2,.)
0.035000 0.915000 -0.402000
24.424000
34: 1spf 1svfB U(3,.)
0.590000 0.306000 0.748000
-96.756000
35: 1spf 1envA U(1,.)
0.894000 -0.064000 -0.444000
78.601000
35: 1spf 1envA U(2,.) -0.281000
0.691000 -0.666000
138.099000
35: 1spf 1envA U(3,.)
0.349000 0.720000 0.599000
0.000000
36: 1spf 1debA U(1,.) -0.827000
0.249000 -0.503000
39.992000
36: 1spf 1debA U(2,.)
0.326000 -0.517000 -0.791000
-7.380000
36: 1spf 1debA U(3,.) -0.457000
-0.819000 0.347000
25.693000
37: 1spf 1qbzA U(1,.)
0.595000 0.759000 0.262000
-34.634000
37: 1spf 1qbzA U(2,.)
0.084000 0.266000 -0.960000
13.970000
37: 1spf 1qbzA U(3,.) -0.799000
0.594000 0.094000
16.839000
38: 1spf 1an2A U(1,.) -0.844000
-0.516000 -0.147000
35.080000
38: 1spf 1an2A U(2,.)
0.148000 -0.487000 0.860000
-4.551000
38: 1spf 1an2A U(3,.) -0.516000
0.704000 0.488000
-66.112000
39: 1spf 2dgcA U(1,.) -0.932000
-0.011000 0.362000
40.319000
39: 1spf 2dgcA U(2,.) -0.338000
0.380000 -0.861000
3.738000
39: 1spf 2dgcA U(3,.) -0.128000
-0.925000 -0.358000
76.236000
40: 1spf 1ifi U(1,.)
-0.123000 -0.970000 0.211000
-23.660000
40: 1spf 1ifi U(2,.)
-0.514000 0.244000 0.823000
-17.596000
40: 1spf 1ifi U(3,.)
-0.849000 -0.007000 -0.528000
16.422000
41: 1spf 1a02J U(1,.) -0.198000
-0.791000 -0.579000
80.392000
41: 1spf 1a02J U(2,.)
0.867000 0.134000 -0.480000
-3.619000
41: 1spf 1a02J U(3,.)
0.458000 -0.597000 0.659000
-45.359000
42: 1spf 1a92A U(1,.) -0.813000
0.197000 -0.548000
67.898000
42: 1spf 1a92A U(2,.) -0.534000
-0.626000 0.567000
86.939000
42: 1spf 1a92A U(3,.) -0.232000
0.754000 0.614000
-32.332000
43: 1spf 1ltsC U(1,.)
0.297000 0.755000 0.584000
-59.210000
43: 1spf 1ltsC U(2,.) -0.949000
0.169000 0.265000
-31.880000
43: 1spf 1ltsC U(3,.)
0.102000 -0.634000 0.767000
14.091000
44: 1spf 1a02F U(1,.)
0.402000 0.904000 -0.144000
-32.400000
44: 1spf 1a02F U(2,.) -0.410000
0.037000 -0.911000
76.330000
44: 1spf 1a02F U(3,.) -0.819000
0.425000 0.386000
-7.459000
45: 1spf 1qleD U(1,.) -0.218000
-0.668000 0.712000
17.131000
45: 1spf 1qleD U(2,.)
0.636000 0.456000 0.623000
-59.779000
45: 1spf 1qleD U(3,.) -0.740000
0.588000 0.325000
13.563000
46: 1spf 1aoiC U(1,.) -0.615000
-0.772000 -0.163000
89.229000
46: 1spf 1aoiC U(2,.)
0.539000 -0.562000 0.627000
12.902000
46: 1spf 1aoiC U(3,.) -0.575000
0.298000 0.762000
-26.398000
47: 1spf 1ecmA U(1,.) -0.188000
-0.451000 -0.872000
46.306000
47: 1spf 1ecmA U(2,.) -0.654000
-0.604000 0.454000
22.748000
47: 1spf 1ecmA U(3,.) -0.732000
0.656000 -0.181000
-0.283000
48: 1spf 2occM U(1,.)
0.437000 -0.897000 0.073000
261.540000
48: 1spf 2occM U(2,.) -0.807000
-0.355000 0.472000
46.194000
48: 1spf 2occM U(3,.) -0.398000
-0.265000 -0.878000
276.166000
49: 1spf 1dkgA U(1,.)
0.787000 -0.541000 0.298000
-41.875000
49: 1spf 1dkgA U(2,.)
0.019000 -0.462000 -0.887000
-18.417000
49: 1spf 1dkgA U(3,.)
0.617000 0.703000 -0.353000
-33.189000
50: 1spf 1lghA U(1,.)
0.142000 -0.893000 0.426000
-51.179000
50: 1spf 1lghA U(2,.) -0.688000
0.220000 0.691000
-11.918000
50: 1spf 1lghA U(3,.) -0.711000
-0.392000 -0.584000
80.190000
51: 1spf 1mof U(1,.)
0.200000 -0.595000 0.779000
-15.646000
51: 1spf 1mof U(2,.)
-0.570000 0.576000 0.586000
-14.423000
51: 1spf 1mof U(3,.)
-0.797000 -0.561000 -0.224000
48.210000
52: 1spf 1fumC U(1,.)
0.251000 0.812000 -0.527000
-60.851000
52: 1spf 1fumC U(2,.) -0.841000
-0.087000 -0.535000
-10.224000
52: 1spf 1fumC U(3,.) -0.480000
0.578000 0.660000
43.006000
53: 1spf 1svfA U(1,.)
0.125000 0.906000 0.405000
-58.120000
53: 1spf 1svfA U(2,.)
0.847000 -0.310000 0.432000
-56.909000
53: 1spf 1svfA U(3,.)
0.517000 0.289000 -0.806000
61.472000
54: 1spf 1tafA U(1,.)
0.780000 -0.564000 -0.272000
-21.939000
54: 1spf 1tafA U(2,.) -0.625000
-0.678000 -0.387000
53.019000
54: 1spf 1tafA U(3,.)
0.034000 0.472000 -0.881000
-20.736000
55: 1spf 1qcrK U(1,.) -0.458000
0.879000 -0.132000
-46.724000
55: 1spf 1qcrK U(2,.) -0.351000
-0.315000 -0.882000
181.301000
55: 1spf 1qcrK U(3,.) -0.817000
-0.357000 0.453000
12.292000
56: 1spf 1bmx U(1,.)
0.585000 -0.261000 0.768000
2.906000
56: 1spf 1bmx U(2,.)
0.556000 0.818000 -0.145000
0.816000
56: 1spf 1bmx U(3,.)
-0.591000 0.512000 0.624000
-1.728000
57: 1spf 1hgeB U(1,.) -0.545000
-0.297000 -0.784000
38.070000
57: 1spf 1hgeB U(2,.)
0.248000 0.836000 -0.489000
-26.196000
57: 1spf 1hgeB U(3,.)
0.801000 -0.461000 -0.383000
-2.542000
58: 1spf 1ifp U(1,.)
0.748000 -0.663000 -0.024000
-4.250000
58: 1spf 1ifp U(2,.)
-0.572000 -0.663000 0.482000
-21.249000
58: 1spf 1ifp U(3,.)
-0.336000 -0.347000 -0.876000
-5.852000
59: 1spf 1be3J U(1,.) -0.700000
-0.102000 0.706000
49.948000
59: 1spf 1be3J U(2,.) -0.489000
-0.652000 -0.579000
117.482000
59: 1spf 1be3J U(3,.)
0.520000 -0.751000 0.407000
56.927000
60: 1spf 1eq7A U(1,.) -0.842000
0.385000 -0.379000
58.607000
60: 1spf 1eq7A U(2,.) -0.018000
-0.721000 -0.693000
83.780000
60: 1spf 1eq7A U(3,.) -0.540000
-0.576000 0.614000
-54.573000
61: 1spf 1ltaC U(1,.) -0.748000
0.177000 -0.640000
41.651000
61: 1spf 1ltaC U(2,.) -0.538000
-0.726000 0.429000
15.005000
61: 1spf 1ltaC U(3,.) -0.388000
0.665000 0.638000
-55.324000
62: 1spf 2ifo U(1,.)
0.926000 0.212000 0.311000
13.199000
62: 1spf 2ifo U(2,.)
0.140000 -0.962000 0.236000
-14.557000
62: 1spf 2ifo U(3,.)
0.349000 -0.175000 -0.921000
1.268000
63: 1spf 1aoiD U(1,.) -0.595000
-0.551000 0.585000
56.969000
63: 1spf 1aoiD U(2,.) -0.761000
0.151000 -0.631000
26.479000
63: 1spf 1aoiD U(3,.)
0.259000 -0.821000 -0.509000
63.666000
64: 1spf 1a7w U(1,.)
0.103000 -0.157000 -0.982000
13.061000
64: 1spf 1a7w U(2,.)
-0.985000 -0.152000 -0.079000
0.734000
64: 1spf 1a7w U(3,.)
-0.137000 0.976000 -0.170000
-4.050000
65: 1spf 1ba4 U(1,.)
-0.367000 0.581000 -0.726000
0.627000
65: 1spf 1ba4 U(2,.)
-0.535000 0.507000 0.676000
12.421000
65: 1spf 1ba4 U(3,.)
0.761000 0.637000 0.125000
-5.760000
66: 1spf 1pfiA U(1,.)
0.926000 -0.372000 -0.060000
-14.087000
66: 1spf 1pfiA U(2,.) -0.291000
-0.808000 0.513000
-23.252000
66: 1spf 1pfiA U(3,.) -0.239000
-0.458000 -0.856000
13.747000
67: 1spf 1d8cA U(1,.)
0.359000 -0.325000 -0.875000
-22.193000
67: 1spf 1d8cA U(2,.)
0.302000 -0.847000 0.438000
-5.677000
67: 1spf 1d8cA U(3,.) -0.883000
-0.421000 -0.205000
-16.924000
68: 1spf 1dx7A U(1,.)
0.188000 0.660000 0.727000
3.401000
68: 1spf 1dx7A U(2,.)
0.416000 -0.724000 0.550000
6.586000
68: 1spf 1dx7A U(3,.)
0.890000 0.199000 -0.411000
-9.570000
69: 1spf 1tafB U(1,.)
0.871000 0.036000 0.491000
-48.115000
69: 1spf 1tafB U(2,.) -0.058000
0.998000 0.031000
-23.075000
69: 1spf 1tafB U(3,.) -0.489000
-0.055000 0.871000
18.447000
70: 1spf 1dipB U(1,.)
0.134000 0.169000 -0.977000
17.863000
70: 1spf 1dipB U(2,.) -0.991000
0.006000 -0.135000
15.032000
70: 1spf 1dipB U(3,.) -0.016000
0.986000 0.168000
-14.634000
71: 1spf 1aoiA U(1,.)
0.891000 0.235000 0.387000
-79.316000
71: 1spf 1aoiA U(2,.)
0.424000 -0.734000 -0.530000
53.017000
71: 1spf 1aoiA U(3,.)
0.160000 0.637000 -0.754000
-70.723000
72: 1spf 1ezeA U(1,.)
0.373000 0.926000 -0.056000
0.774000
72: 1spf 1ezeA U(2,.)
0.616000 -0.292000 -0.732000
2.307000
72: 1spf 1ezeA U(3,.) -0.694000
0.239000 -0.679000
-4.803000
73: 1spf 1sfcE U(1,.)
0.791000 -0.100000 0.604000
-4.018000
73: 1spf 1sfcE U(2,.) -0.540000
-0.578000 0.612000
25.590000
73: 1spf 1sfcE U(3,.)
0.288000 -0.810000 -0.511000
30.693000
74: 1spf 1nkd U(1,.)
-0.050000 0.862000 0.504000
-17.602000
74: 1spf 1nkd U(2,.)
0.968000 0.167000 -0.189000
-11.991000
74: 1spf 1nkd U(3,.)
-0.247000 0.478000 -0.843000
9.791000
75: 1spf 1bh9A U(1,.) -0.090000
-0.932000 0.350000
2.140000
75: 1spf 1bh9A U(2,.)
0.996000 -0.082000 0.037000
-32.871000
75: 1spf 1bh9A U(3,.) -0.006000
0.352000 0.936000
-28.411000
76: 1spf 1psm U(1,.)
0.094000 0.505000 -0.858000
4.949000
76: 1spf 1psm U(2,.)
-0.949000 -0.214000 -0.230000
15.751000
76: 1spf 1psm U(3,.)
-0.300000 0.836000 0.459000
-23.283000
77: 1spf 1lyp U(1,.)
-0.314000 -0.805000 -0.503000
23.875000
77: 1spf 1lyp U(2,.)
0.927000 -0.375000 0.022000
-3.041000
77: 1spf 1lyp U(3,.)
-0.206000 -0.459000 0.864000
-7.745000
78: 1spf 1gd2I U(1,.)
0.000000 0.000000 0.000000
0.000000
78: 1spf 1gd2I U(2,.)
0.000000 0.000000 0.000000
0.000000
78: 1spf 1gd2I U(3,.)
0.000000 0.000000 0.000000
0.000000
79: 1spf 1sfcA U(1,.) -0.215000
0.473000 0.855000
0.412000
79: 1spf 1sfcA U(2,.)
0.274000 -0.811000 0.517000
12.701000
79: 1spf 1sfcA U(3,.)
0.937000 0.346000 0.044000
-33.869000
80: 1spf 1peh U(1,.)
-0.656000 0.539000 -0.529000
2.095000
80: 1spf 1peh U(2,.)
-0.244000 0.512000 0.824000
2.583000
80: 1spf 1peh U(3,.)
0.714000 0.669000 -0.205000
-5.385000
81: 1spf 2occJ U(1,.) -0.367000
-0.566000 0.739000
64.586000
81: 1spf 2occJ U(2,.)
0.086000 0.770000 0.632000
4.934000
81: 1spf 2occJ U(3,.) -0.926000
0.296000 -0.233000
0.000000
82: 1spf 1bgyE U(1,.) -0.189000
-0.386000 -0.903000
70.253000
82: 1spf 1bgyE U(2,.) -0.119000
0.922000 -0.369000
-18.247000
82: 1spf 1bgyE U(3,.)
0.975000 0.037000 -0.220000
0.000000
83: 1spf 1mdyA U(1,.) -0.158000
-0.228000 0.961000
9.405000
83: 1spf 1mdyA U(2,.)
0.004000 -0.973000 -0.230000
12.946000
83: 1spf 1mdyA U(3,.)
0.987000 -0.033000 0.154000
-61.411000
84: 1spf 1cw5A U(1,.) -0.217000
0.178000 0.960000
3.235000
84: 1spf 1cw5A U(2,.) -0.581000
-0.814000 0.020000
0.597000
84: 1spf 1cw5A U(3,.)
0.784000 -0.553000 0.280000
-5.020000
85: 1spf 1avoA U(1,.) -0.996000
-0.058000 0.070000
121.597000
85: 1spf 1avoA U(2,.)
0.090000 -0.554000 0.827000
-46.436000
85: 1spf 1avoA U(3,.) -0.009000
0.830000 0.557000
-69.445000
86: 1spf 1wdcA U(1,.) -0.786000
0.317000 -0.532000
28.930000
86: 1spf 1wdcA U(2,.) -0.293000
0.566000 0.770000
-62.876000
86: 1spf 1wdcA U(3,.)
0.545000 0.761000 -0.352000
-4.642000
87: 1spf 1a36A U(1,.) -0.713000
0.607000 -0.353000
15.607000
87: 1spf 1a36A U(2,.) -0.675000
-0.730000 0.107000
35.264000
87: 1spf 1a36A U(3,.) -0.193000
0.314000 0.930000
-75.226000
88: 1spf 1ql1A U(1,.)
0.477000 -0.878000 -0.039000
-10.100000
88: 1spf 1ql1A U(2,.) -0.712000
-0.412000 0.569000
-16.942000
88: 1spf 1ql1A U(3,.) -0.516000
-0.243000 -0.822000
-6.224000
89: 1spf 2ilk U(1,.)
0.353000 0.724000 -0.592000
-12.427000
89: 1spf 2ilk U(2,.)
0.930000 -0.202000 0.307000
-42.530000
89: 1spf 2ilk U(3,.)
0.103000 -0.659000 -0.745000
43.425000
90: 1spf 1be3G U(1,.) -0.001000
0.879000 0.477000
0.000000
90: 1spf 1be3G U(2,.) -0.993000
-0.059000 0.106000
0.000000
90: 1spf 1be3G U(3,.)
0.121000 -0.474000 0.872000
0.000000
91: 1spf 1bnxA U(1,.) -0.166000
0.373000 0.913000
7.357000
91: 1spf 1bnxA U(2,.) -0.602000
-0.772000 0.206000
19.089000
91: 1spf 1bnxA U(3,.)
0.781000 -0.515000 0.352000
-25.208000
92: 1spf 1aqt U(1,.)
0.669000 0.545000 -0.505000
-2.188000
92: 1spf 1aqt U(2,.)
0.062000 0.636000 0.769000
-46.427000
92: 1spf 1aqt U(3,.)
0.741000 -0.546000 0.392000
14.667000
93: 1spf 1grj U(1,.)
0.979000 -0.205000 -0.003000
-48.748000
93: 1spf 1grj U(2,.)
-0.126000 -0.611000 0.782000
0.332000
93: 1spf 1grj U(3,.)
-0.162000 -0.765000 -0.624000
38.984000
94: 1spf 1sesA U(1,.) -0.476000
-0.866000 -0.154000
37.828000
94: 1spf 1sesA U(2,.) -0.841000
0.499000 -0.209000
20.204000
94: 1spf 1sesA U(3,.)
0.258000 0.030000 -0.966000
63.494000
95: 1spf 1sfcD U(1,.)
0.370000 0.135000 0.919000
-5.383000
95: 1spf 1sfcD U(2,.) -0.466000
-0.829000 0.309000
14.394000
95: 1spf 1sfcD U(3,.)
0.804000 -0.542000 -0.244000
0.897000
96: 1spf 2cpb U(1,.)
-0.721000 0.478000 0.502000
2.686000
96: 1spf 2cpb U(2,.)
-0.687000 -0.589000 -0.425000
-17.428000
96: 1spf 2cpb U(3,.)
0.092000 -0.651000 0.753000
-17.167000
97: 1spf 1sfcC U(1,.)
0.013000 -0.977000 0.214000
22.913000
97: 1spf 1sfcC U(2,.) -0.996000
0.007000 0.091000
9.837000
97: 1spf 1sfcC U(3,.) -0.090000
-0.214000 -0.973000
4.442000
98: 1spf 2occK U(1,.) -0.704000
-0.626000 0.336000
141.157000
98: 1spf 2occK U(2,.) -0.177000
0.613000 0.770000
-18.058000
98: 1spf 2occK U(3,.) -0.688000
0.482000 -0.542000
0.000000
99: 1spf 1fzgD U(1,.) -0.552000
-0.751000 -0.362000
110.155000
99: 1spf 1fzgD U(2,.)
0.671000 -0.142000 -0.728000
8.222000
99: 1spf 1fzgD U(3,.)
0.496000 -0.644000 0.582000
0.516000
## FOOTER
References: L. Holm and C. Sander (1996) Mapping the protein universe.
Science 273:595-602.
Parameters elastic similarity score, threshold 0.20; sequential alignment
The following notation is used for data columns:
STRID1/STRID2 PDB identifiers of search structure and aligned structure
with
chain identifier
Z Z-score, i.e., strength of structural similarity
in standard
deviations above expexted. The matched structures
are sorted
by Z-score.
RMSD positional root mean square deviation of superimposed
CA atoms
in Angstroms
LALI total number of equivalenced residue positions
LSEQ2 length of the entire chain of the equivalenced
structure
%IDE percentage of sequence identity over equivalenced
positions
REVERS number of fragments matching in reversed chain
direction
PERMUT number of topological permutations (loop reconnections
between
query and matched structure)
NFRAG total number of equivalenced fragments
TOPO 'S' sequential connectivity of equivalenced fragments
(imposed)
PROTEIN COMPND record from the PDB file of the aligned structure
SeqNo, PDBNo, AA, STRUCTURE, BP1, BP2, ACC
sequential and PDB residue numbers, amino acid (lower case
=
Cys),secondary structure, solvent exposure as in DSSP (Kabsch
and Sander, Biopolymers 22, 2577-2637, 1983). The alignments
block shows the amino acid sequence and DSSP code (in lower
case) of the equivalenced fragments.
OCC number of equivalences spanning this position
STRID1 <=> STRID2
sequential residue numbers of equivalenced fragments
(PDB
residue numbers in parentheses)
e-mail dali-help@embl-ebi.ac.uk (Internet)
anonymous ftp ftp://ftp.ebi.ac.uk/pub/databases/fssp
WWW URL http://www2.ebi.ac.uk/dali/fssp/
Availability: Free academic use. No commercial use.
No incorporation into other databases.
//