# This file is the result of combining several RDB files, specifically
# T0487.t06.str2.rdb  (weight 1.54425)
# T0487.t06.str4.rdb  (weight 0.924988)
# T0487.t06.pb.rdb  (weight 0.789901)
# T0487.t06.bys.rdb  (weight 0.748322)
# T0487.t06.alpha.rdb  (weight 0.678173)
# T0487.t04.str2.rdb  (weight 1.54425)
# T0487.t04.str4.rdb  (weight 0.924988)
# T0487.t04.pb.rdb  (weight 0.789901)
# T0487.t04.bys.rdb  (weight 0.748322)
# T0487.t04.alpha.rdb  (weight 0.678173)
# T0487.t2k.str2.rdb  (weight 1.54425)
# T0487.t2k.str4.rdb  (weight 0.924988)
# T0487.t2k.pb.rdb  (weight 0.789901)
# T0487.t2k.bys.rdb  (weight 0.748322)
# T0487.t2k.alpha.rdb  (weight 0.678173)
# These files were combined by translating their predictions into EHL
# predictions with tables generated by compare-real, and then combining
# those predictions with weights proportional to their mutual information
# with the EHL alphabet.  The comments from the individual files follow.
#
# Comments from T0487.t06.str2.rdb
# ============================================
# TARGET T0487
# Using neural net dunbrack-40pc-3157-t06-IDGaaH13-3-13-7-13-9-13-11-str2-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	   13 (1 str2 )
# The input amino acid frequencies were determined from
# alignment T0487.t06-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(1.3 bits/column, 1)
# The weighting was determined by the posterior distribution
# after regularizing with /projects/compbio/lib/recode3.20comp.
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 486
#
# ============================================
# Comments from T0487.t06.str4.rdb
# ============================================
# TARGET T0487
# Using neural net dunbrack-40pc-3157-t06-IDGaaH13-3-13-7-13-9-13-11-str4-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	   21 (1 str4 )
# The input amino acid frequencies were determined from
# alignment T0487.t06-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(1.3 bits/column, 1)
# The weighting was determined by the posterior distribution
# after regularizing with /projects/compbio/lib/recode3.20comp.
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 486
#
# ============================================
# Comments from T0487.t06.pb.rdb
# ============================================
# TARGET T0487
# Using neural net dunbrack-40pc-3157-t06-IDGaaH13-3-13-7-13-9-13-11-pb-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	   16 (1 pb )
# The input amino acid frequencies were determined from
# alignment T0487.t06-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(1.3 bits/column, 1)
# The weighting was determined by the posterior distribution
# after regularizing with /projects/compbio/lib/recode3.20comp.
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 486
#
# ============================================
# Comments from T0487.t06.bys.rdb
# ============================================
# TARGET T0487
# Using neural net dunbrack-40pc-3157-t06-IDGaaH13-3-13-7-13-9-13-11-bys-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	   11 (1 Bystroff )
# The input amino acid frequencies were determined from
# alignment T0487.t06-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(1.3 bits/column, 1)
# The weighting was determined by the posterior distribution
# after regularizing with /projects/compbio/lib/recode3.20comp.
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 486
#
# ============================================
# Comments from T0487.t06.alpha.rdb
# ============================================
# TARGET T0487
# Using neural net dunbrack-40pc-3157-t06-IDGaaH13-3-13-7-13-9-13-11-alpha-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	   11 (1 ABCDEFGHIST )
# The input amino acid frequencies were determined from
# alignment T0487.t06-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(1.3 bits/column, 1)
# The weighting was determined by the posterior distribution
# after regularizing with /projects/compbio/lib/recode3.20comp.
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 486
#
# ============================================
# Comments from T0487.t04.str2.rdb
# ============================================
# TARGET T0487
# Using neural net dunbrack-40pc-3157-t04-IDGaaH13-3-13-7-13-9-13-11-str2-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	   13 (1 str2 )
# The input amino acid frequencies were determined from
# alignment T0487.t04-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(1.3 bits/column, 1)
# The weighting was determined by the posterior distribution
# after regularizing with /projects/compbio/lib/recode3.20comp.
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 476
#
# ============================================
# Comments from T0487.t04.str4.rdb
# ============================================
# TARGET T0487
# Using neural net dunbrack-40pc-3157-t04-IDGaaH13-3-13-7-13-9-13-11-str4-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	   21 (1 str4 )
# The input amino acid frequencies were determined from
# alignment T0487.t04-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(1.3 bits/column, 1)
# The weighting was determined by the posterior distribution
# after regularizing with /projects/compbio/lib/recode3.20comp.
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 476
#
# ============================================
# Comments from T0487.t04.pb.rdb
# ============================================
# TARGET T0487
# Using neural net dunbrack-40pc-3157-t04-IDGaaH13-3-13-7-13-9-13-11-pb-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	   16 (1 pb )
# The input amino acid frequencies were determined from
# alignment T0487.t04-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(1.3 bits/column, 1)
# The weighting was determined by the posterior distribution
# after regularizing with /projects/compbio/lib/recode3.20comp.
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 476
#
# ============================================
# Comments from T0487.t04.bys.rdb
# ============================================
# TARGET T0487
# Using neural net dunbrack-40pc-3157-t04-IDGaaH13-3-13-7-13-9-13-11-bys-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	   11 (1 Bystroff )
# The input amino acid frequencies were determined from
# alignment T0487.t04-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(1.3 bits/column, 1)
# The weighting was determined by the posterior distribution
# after regularizing with /projects/compbio/lib/recode3.20comp.
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 476
#
# ============================================
# Comments from T0487.t04.alpha.rdb
# ============================================
# TARGET T0487
# Using neural net dunbrack-40pc-3157-t04-IDGaaH13-3-13-7-13-9-13-11-alpha-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	   11 (1 ABCDEFGHIST )
# The input amino acid frequencies were determined from
# alignment T0487.t04-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(1.3 bits/column, 1)
# The weighting was determined by the posterior distribution
# after regularizing with /projects/compbio/lib/recode3.20comp.
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 476
#
# ============================================
# Comments from T0487.t2k.str2.rdb
# ============================================
# TARGET T0487
# Using neural net dunbrack-40pc-3157-t2k-IDGaaH13-3-13-7-13-9-13-11-str2-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	   13 (1 str2 )
# The input amino acid frequencies were determined from
# alignment T0487.t2k-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(1.3 bits/column, 1)
# The weighting was determined by the posterior distribution
# after regularizing with /projects/compbio/lib/recode3.20comp.
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 64
#
# ============================================
# Comments from T0487.t2k.str4.rdb
# ============================================
# TARGET T0487
# Using neural net dunbrack-40pc-3157-t2k-IDGaaH13-3-13-7-13-9-13-11-str4-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	   21 (1 str4 )
# The input amino acid frequencies were determined from
# alignment T0487.t2k-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(1.3 bits/column, 1)
# The weighting was determined by the posterior distribution
# after regularizing with /projects/compbio/lib/recode3.20comp.
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 64
#
# ============================================
# Comments from T0487.t2k.pb.rdb
# ============================================
# TARGET T0487
# Using neural net dunbrack-40pc-3157-t2k-IDGaaH13-3-13-7-13-9-13-11-pb-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	   16 (1 pb )
# The input amino acid frequencies were determined from
# alignment T0487.t2k-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(1.3 bits/column, 1)
# The weighting was determined by the posterior distribution
# after regularizing with /projects/compbio/lib/recode3.20comp.
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 64
#
# ============================================
# Comments from T0487.t2k.bys.rdb
# ============================================
# TARGET T0487
# Using neural net dunbrack-40pc-3157-t2k-IDGaaH13-3-13-7-13-9-13-11-bys-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	   11 (1 Bystroff )
# The input amino acid frequencies were determined from
# alignment T0487.t2k-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(1.3 bits/column, 1)
# The weighting was determined by the posterior distribution
# after regularizing with /projects/compbio/lib/recode3.20comp.
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 64
#
# ============================================
# Comments from T0487.t2k.alpha.rdb
# ============================================
# TARGET T0487
# Using neural net dunbrack-40pc-3157-t2k-IDGaaH13-3-13-7-13-9-13-11-alpha-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	   11 (1 ABCDEFGHIST )
# The input amino acid frequencies were determined from
# alignment T0487.t2k-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(1.3 bits/column, 1)
# The weighting was determined by the posterior distribution
# after regularizing with /projects/compbio/lib/recode3.20comp.
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 64
#
# ============================================
Pos	AA	E	H	C
10N	1S	5N	5N	5N
1	G	0.1753	0.1215	0.7032
2	L	0.2543	0.1183	0.6274
3	G	0.2803	0.0871	0.6326
4	T	0.2501	0.0601	0.6898
5	P	0.1412	0.2667	0.5921
6	E	0.1558	0.3402	0.5040
7	A	0.1812	0.3501	0.4688
8	V	0.1786	0.3858	0.4356
9	R	0.1270	0.5104	0.3626
10	A	0.1009	0.6222	0.2769
11	Q	0.1215	0.5750	0.3034
12	A	0.1610	0.4752	0.3638
13	Y	0.1828	0.3663	0.4508
14	R	0.1904	0.2860	0.5236
15	L	0.1964	0.2339	0.5697
16	S	0.2082	0.1612	0.6306
17	I	0.2857	0.1062	0.6081
18	P	0.2510	0.2392	0.5098
19	K	0.2924	0.2751	0.4326
20	L	0.3095	0.2548	0.4357
21	M	0.2861	0.1864	0.5275
22	G	0.2539	0.1621	0.5839
23	R	0.2588	0.2081	0.5331
24	R	0.2438	0.2434	0.5128
25	A	0.2227	0.3018	0.4756
26	V	0.2349	0.2740	0.4911
27	S	0.2538	0.1781	0.5682
28	K	0.2358	0.0911	0.6731
29	P	0.1373	0.3298	0.5329
30	A	0.1205	0.4518	0.4277
31	D	0.1418	0.4785	0.3797
32	A	0.0992	0.5957	0.3051
33	L	0.1237	0.5227	0.3536
34	R	0.1926	0.3826	0.4248
35	V	0.1911	0.2966	0.5123
36	G	0.1842	0.2027	0.6131
37	F	0.2761	0.1969	0.5270
38	Y	0.3167	0.2049	0.4784
39	R	0.3213	0.2268	0.4519
40	A	0.2416	0.3044	0.4541
41	Q	0.2294	0.2859	0.4846
42	E	0.2663	0.2694	0.4642
43	T	0.3361	0.2338	0.4301
44	A	0.4464	0.1936	0.3600
45	L	0.6107	0.1299	0.2594
46	A	0.6636	0.1127	0.2237
47	L	0.6774	0.0943	0.2282
48	L	0.6306	0.0926	0.2767
49	R	0.4392	0.1264	0.4344
50	L	0.2488	0.2319	0.5192
51	D	0.1270	0.1923	0.6807
52	G	0.0802	0.1813	0.7386
53	A	0.1147	0.2629	0.6224
54	Q	0.1045	0.2868	0.6087
55	G	0.1015	0.2234	0.6752
56	W	0.1487	0.2038	0.6476
57	P	0.0383	0.7234	0.2383
58	E	0.0124	0.8674	0.1202
59	F	0.0095	0.9067	0.0838
60	L	0.0094	0.9155	0.0751
61	R	0.0085	0.9205	0.0710
62	R	0.0084	0.9195	0.0721
63	A	0.0084	0.9190	0.0726
64	L	0.0091	0.9104	0.0805
65	L	0.0089	0.9073	0.0838
66	R	0.0106	0.8829	0.1065
67	A	0.0201	0.7868	0.1931
68	F	0.0534	0.5551	0.3916
69	G	0.0550	0.3890	0.5560
70	A	0.1000	0.4287	0.4713
71	S	0.1063	0.2089	0.6848
72	G	0.1212	0.1275	0.7513
73	A	0.2954	0.1161	0.5885
74	S	0.4544	0.1063	0.4393
75	L	0.4772	0.0929	0.4299
76	R	0.4059	0.0841	0.5100
77	L	0.3288	0.1176	0.5537
78	H	0.2827	0.1616	0.5557
79	T	0.2467	0.2140	0.5393
80	L	0.2827	0.2111	0.5062
81	H	0.3733	0.1123	0.5144
82	A	0.3067	0.0765	0.6167
83	H	0.2258	0.0441	0.7301
84	P	0.0846	0.3231	0.5922
85	S	0.0626	0.3911	0.5463
86	Q	0.0785	0.3039	0.6176
87	G	0.0831	0.3033	0.6136
88	L	0.0759	0.5907	0.3334
89	A	0.0457	0.7360	0.2183
90	F	0.0353	0.8165	0.1482
91	R	0.0196	0.8862	0.0942
92	E	0.0132	0.9042	0.0826
93	A	0.0145	0.9020	0.0835
94	L	0.0163	0.8967	0.0870
95	R	0.0203	0.8791	0.1006
96	K	0.0369	0.8113	0.1518
97	A	0.0739	0.6563	0.2698
98	K	0.0926	0.5251	0.3823
99	E	0.0874	0.4387	0.4740
100	E	0.0771	0.2024	0.7204
101	G	0.0771	0.0863	0.8367
102	V	0.2946	0.0286	0.6769
103	Q	0.4786	0.0254	0.4959
104	A	0.7754	0.0074	0.2172
105	V	0.7988	0.0054	0.1958
106	L	0.7996	0.0046	0.1957
107	V	0.8106	0.0049	0.1845
108	L	0.7616	0.0091	0.2293
109	T	0.4523	0.0120	0.5357
110	P	0.2201	0.0703	0.7096
111	P	0.1278	0.2329	0.6394
112	M	0.1128	0.2682	0.6189
113	A	0.1280	0.2177	0.6543
114	W	0.0893	0.3598	0.5509
115	E	0.0745	0.4221	0.5034
116	D	0.0514	0.6083	0.3403
117	R	0.0225	0.7832	0.1943
118	N	0.0182	0.8322	0.1495
119	R	0.0169	0.8726	0.1105
120	L	0.0159	0.8953	0.0888
121	K	0.0146	0.9067	0.0788
122	A	0.0141	0.9075	0.0785
123	L	0.0191	0.8933	0.0876
124	L	0.0260	0.8576	0.1164
125	L	0.0345	0.7648	0.2007
126	R	0.0547	0.6264	0.3189
127	E	0.0742	0.2203	0.7055
128	G	0.0551	0.0699	0.8750
129	L	0.1933	0.0236	0.7831
130	P	0.2735	0.0763	0.6502
131	S	0.3853	0.1145	0.5002
132	Q	0.5547	0.0717	0.3736
133	I	0.6129	0.0404	0.3468
134	L	0.6099	0.0425	0.3476
135	N	0.4073	0.0435	0.5492
136	V	0.2640	0.1488	0.5872
137	P	0.1770	0.2437	0.5794
138	L	0.1811	0.2342	0.5847
139	R	0.1453	0.3446	0.5101
140	E	0.1242	0.4001	0.4758
141	E	0.1014	0.4045	0.4941
142	E	0.0828	0.4539	0.4633
143	R	0.0694	0.6156	0.3150
144	H	0.0685	0.7082	0.2234
145	R	0.0412	0.8066	0.1522
146	W	0.0189	0.8719	0.1091
147	E	0.0114	0.9070	0.0816
148	N	0.0122	0.9065	0.0812
149	A	0.0129	0.9109	0.0762
150	L	0.0111	0.9125	0.0764
151	L	0.0121	0.9080	0.0799
152	G	0.0179	0.8954	0.0867
153	L	0.0399	0.8570	0.1031
154	L	0.0459	0.8273	0.1268
155	A	0.0670	0.7661	0.1669
156	K	0.0911	0.6443	0.2645
157	A	0.0983	0.2680	0.6337
158	G	0.0629	0.0813	0.8558
159	L	0.2008	0.0590	0.7402
160	Q	0.3858	0.0331	0.5811
161	V	0.5773	0.0391	0.3836
162	V	0.7066	0.0238	0.2696
163	A	0.7013	0.0247	0.2740
164	L	0.6265	0.0412	0.3322
165	S	0.3889	0.0609	0.5502
166	G	0.1970	0.0823	0.7207
167	A	0.1861	0.1354	0.6785
168	Y	0.2400	0.0497	0.7103
169	P	0.2001	0.1491	0.6509
170	A	0.2634	0.2126	0.5241
171	E	0.5863	0.0916	0.3221
172	L	0.7498	0.0194	0.2308
173	A	0.7653	0.0156	0.2191
174	V	0.7504	0.0262	0.2234
175	G	0.7148	0.0213	0.2639
176	F	0.6763	0.0324	0.2913
177	D	0.5569	0.0357	0.4074
178	A	0.3968	0.1501	0.4532
179	G	0.2492	0.1243	0.6265
180	G	0.1469	0.1169	0.7362
181	R	0.1386	0.1530	0.7084
182	E	0.1602	0.1668	0.6730
183	S	0.2637	0.1412	0.5951
184	F	0.3977	0.1071	0.4952
185	R	0.5481	0.0816	0.3703
186	F	0.6471	0.0799	0.2730
187	G	0.6948	0.0718	0.2333
188	G	0.7320	0.0670	0.2010
189	A	0.7490	0.0705	0.1804
190	A	0.7562	0.0662	0.1776
191	C	0.7391	0.0681	0.1927
192	A	0.6923	0.0623	0.2454
193	V	0.5626	0.0865	0.3508
194	G	0.2939	0.0836	0.6226
195	G	0.1348	0.2167	0.6485
196	D	0.1013	0.1581	0.7406
197	G	0.1275	0.1061	0.7664
198	G	0.3279	0.0912	0.5809
199	H	0.5710	0.0695	0.3595
200	L	0.6488	0.0639	0.2873
201	L	0.6749	0.0580	0.2671
202	W	0.6676	0.0594	0.2730
203	T	0.5944	0.0553	0.3504
204	L	0.4268	0.0635	0.5097
205	P	0.2684	0.2629	0.4687
206	E	0.2229	0.3920	0.3852
207	A	0.1803	0.4614	0.3582
208	Q	0.1839	0.4024	0.4137
209	A	0.1396	0.2081	0.6523
210	G	0.0846	0.1294	0.7860
211	E	0.1434	0.1665	0.6901
212	R	0.2442	0.1365	0.6194
213	I	0.2816	0.0538	0.6646
214	P	0.1644	0.1579	0.6778
215	Q	0.0192	0.7513	0.2295
216	E	0.0100	0.8617	0.1283
217	V	0.0097	0.9115	0.0788
218	V	0.0086	0.9145	0.0769
219	W	0.0083	0.9204	0.0713
220	D	0.0083	0.9229	0.0688
221	L	0.0083	0.9226	0.0691
222	L	0.0083	0.9218	0.0699
223	E	0.0083	0.9227	0.0690
224	E	0.0083	0.9245	0.0673
225	T	0.0083	0.9235	0.0683
226	L	0.0083	0.9231	0.0686
227	W	0.0083	0.9224	0.0693
228	A	0.0083	0.9221	0.0696
229	F	0.0086	0.9175	0.0739
230	R	0.0086	0.9142	0.0772
231	R	0.0093	0.8920	0.0987
232	K	0.0157	0.7841	0.2003
233	A	0.0563	0.3152	0.6285
234	G	0.0489	0.0878	0.8633
235	R	0.1632	0.0683	0.7686
236	L	0.2348	0.0265	0.7387
237	P	0.2573	0.0712	0.6716
238	S	0.3154	0.0913	0.5933
239	R	0.6740	0.0142	0.3118
240	V	0.7578	0.0058	0.2364
241	L	0.8189	0.0044	0.1767
242	L	0.8050	0.0047	0.1903
243	L	0.7529	0.0082	0.2390
244	R	0.5442	0.0422	0.4136
245	D	0.3019	0.0590	0.6391
246	G	0.2225	0.0648	0.7127
247	R	0.3291	0.0505	0.6205
248	V	0.2274	0.0259	0.7467
249	P	0.1249	0.2136	0.6615
250	Q	0.0679	0.3209	0.6113
251	D	0.0918	0.4219	0.4862
252	E	0.1134	0.6179	0.2687
253	F	0.0585	0.8017	0.1398
254	A	0.0339	0.8631	0.1031
255	L	0.0220	0.8895	0.0885
256	A	0.0147	0.9008	0.0844
257	L	0.0089	0.9096	0.0816
258	E	0.0085	0.9181	0.0734
259	A	0.0103	0.9026	0.0871
260	L	0.0124	0.8863	0.1013
261	A	0.0137	0.8276	0.1587
262	R	0.0254	0.7095	0.2651
263	E	0.0670	0.2711	0.6619
264	G	0.0659	0.0748	0.8592
265	I	0.2326	0.0321	0.7353
266	A	0.4335	0.0273	0.5392
267	Y	0.6471	0.0141	0.3388
268	D	0.6581	0.0186	0.3234
269	L	0.7830	0.0069	0.2101
270	V	0.7856	0.0072	0.2073
271	S	0.8064	0.0053	0.1884
272	V	0.7795	0.0071	0.2134
273	R	0.7006	0.0165	0.2829
274	K	0.6075	0.0360	0.3565
275	S	0.4145	0.0569	0.5286
276	G	0.2546	0.0640	0.6814
277	G	0.2439	0.0727	0.6834
278	G	0.4430	0.0465	0.5105
279	R	0.6177	0.0330	0.3493
280	V	0.6962	0.0252	0.2786
281	Y	0.6440	0.0190	0.3370
282	P	0.5067	0.0510	0.4423
283	V	0.3146	0.1475	0.5378
284	Q	0.2006	0.1186	0.6808
285	G	0.1563	0.0822	0.7615
286	R	0.2801	0.0604	0.6595
287	L	0.2953	0.0682	0.6365
288	A	0.2875	0.0802	0.6323
289	D	0.2148	0.1299	0.6554
290	G	0.2157	0.0725	0.7118
291	L	0.4962	0.0275	0.4763
292	Y	0.6783	0.0187	0.3031
293	V	0.6448	0.0147	0.3405
294	P	0.3840	0.0170	0.5990
295	L	0.1933	0.1753	0.6314
296	E	0.1005	0.2672	0.6322
297	D	0.1136	0.1957	0.6907
298	K	0.2060	0.2092	0.5848
299	T	0.3638	0.1692	0.4670
300	F	0.5996	0.0789	0.3215
301	L	0.7499	0.0303	0.2199
302	L	0.7747	0.0209	0.2045
303	L	0.7535	0.0220	0.2245
304	T	0.6798	0.0330	0.2871
305	V	0.4855	0.0649	0.4496
306	H	0.3314	0.0885	0.5801
307	R	0.2591	0.1671	0.5738
308	D	0.2215	0.1737	0.6048
309	F	0.2357	0.1630	0.6013
310	R	0.2246	0.1097	0.6656
311	G	0.2289	0.0720	0.6991
312	T	0.3183	0.0340	0.6477
313	P	0.3613	0.0930	0.5457
314	R	0.4156	0.0403	0.5441
315	P	0.4013	0.0817	0.5170
316	L	0.4573	0.0731	0.4696
317	K	0.6810	0.0291	0.2898
318	L	0.7438	0.0163	0.2399
319	V	0.7623	0.0133	0.2244
320	H	0.7295	0.0139	0.2566
321	E	0.5960	0.0377	0.3663
322	A	0.2766	0.1042	0.6191
323	G	0.0962	0.1094	0.7944
324	D	0.1342	0.1026	0.7632
325	T	0.2146	0.0369	0.7485
326	P	0.1679	0.0492	0.7828
327	L	0.0164	0.7400	0.2436
328	E	0.0097	0.8661	0.1242
329	A	0.0084	0.9194	0.0722
330	L	0.0083	0.9227	0.0690
331	A	0.0083	0.9218	0.0699
332	H	0.0083	0.9231	0.0686
333	Q	0.0083	0.9215	0.0701
334	I	0.0086	0.9150	0.0764
335	F	0.0089	0.9133	0.0778
336	H	0.0096	0.9012	0.0892
337	L	0.0222	0.8564	0.1215
338	T	0.0303	0.7863	0.1834
339	R	0.0650	0.6249	0.3100
340	L	0.1602	0.4535	0.3863
341	Y	0.2151	0.1817	0.6032
342	P	0.0804	0.4794	0.4402
343	A	0.0863	0.3388	0.5750
344	S	0.1130	0.2561	0.6309
345	G	0.1064	0.1827	0.7109
346	F	0.2020	0.1596	0.6385
347	A	0.2612	0.1382	0.6007
348	F	0.3398	0.0862	0.5740
349	P	0.2792	0.1331	0.5878
350	R	0.3265	0.1099	0.5637
351	L	0.3663	0.0585	0.5753
352	P	0.3691	0.1229	0.5080
353	A	0.3548	0.1277	0.5175
354	P	0.2678	0.3353	0.3969
355	L	0.1536	0.6154	0.2310
356	H	0.0687	0.7761	0.1551
357	L	0.0318	0.8459	0.1223
358	A	0.0134	0.8951	0.0916
359	D	0.0095	0.9110	0.0795
360	R	0.0090	0.9115	0.0795
361	L	0.0102	0.9138	0.0760
362	V	0.0109	0.9107	0.0783
363	K	0.0096	0.9121	0.0783
364	E	0.0149	0.8581	0.1270
365	V	0.0429	0.6711	0.2860
366	G	0.0529	0.4969	0.4502
367	R	0.1117	0.4488	0.4395
368	L	0.1418	0.2794	0.5788
369	G	0.1514	0.2255	0.6231
370	I	0.1947	0.2222	0.5832
371	R	0.1985	0.2620	0.5395
372	H	0.2173	0.2014	0.5812
373	L	0.1912	0.3148	0.4940
374	K	0.1814	0.3467	0.4719
375	E	0.1817	0.3471	0.4712
376	V	0.1919	0.2927	0.5154
377	D	0.1801	0.2573	0.5626
378	R	0.1594	0.3512	0.4894
379	E	0.2292	0.2714	0.4994
380	K	0.4522	0.1382	0.4096
381	L	0.6677	0.0475	0.2848
382	F	0.7595	0.0225	0.2180
383	F	0.7478	0.0203	0.2319
384	V	0.6253	0.0364	0.3383