# This file is the result of combining several RDB files, specifically
# T0528.t06.str2.rdb  (weight 1.54425)
# T0528.t06.str4.rdb  (weight 0.924988)
# T0528.t06.pb.rdb  (weight 0.789901)
# T0528.t06.bys.rdb  (weight 0.748322)
# T0528.t06.alpha.rdb  (weight 0.678173)
# T0528.t04.str2.rdb  (weight 1.54425)
# T0528.t04.str4.rdb  (weight 0.924988)
# T0528.t04.pb.rdb  (weight 0.789901)
# T0528.t04.bys.rdb  (weight 0.748322)
# T0528.t04.alpha.rdb  (weight 0.678173)
# T0528.t2k.str2.rdb  (weight 1.54425)
# T0528.t2k.str4.rdb  (weight 0.924988)
# T0528.t2k.pb.rdb  (weight 0.789901)
# T0528.t2k.bys.rdb  (weight 0.748322)
# T0528.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 T0528.t06.str2.rdb
# ============================================
# TARGET T0528
# 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 T0528.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 5550
#
# ============================================
# Comments from T0528.t06.str4.rdb
# ============================================
# TARGET T0528
# 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 T0528.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 5550
#
# ============================================
# Comments from T0528.t06.pb.rdb
# ============================================
# TARGET T0528
# 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 T0528.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 5550
#
# ============================================
# Comments from T0528.t06.bys.rdb
# ============================================
# TARGET T0528
# 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 T0528.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 5550
#
# ============================================
# Comments from T0528.t06.alpha.rdb
# ============================================
# TARGET T0528
# 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 T0528.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 5550
#
# ============================================
# Comments from T0528.t04.str2.rdb
# ============================================
# TARGET T0528
# 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 T0528.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 1746
#
# ============================================
# Comments from T0528.t04.str4.rdb
# ============================================
# TARGET T0528
# 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 T0528.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 1746
#
# ============================================
# Comments from T0528.t04.pb.rdb
# ============================================
# TARGET T0528
# 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 T0528.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 1746
#
# ============================================
# Comments from T0528.t04.bys.rdb
# ============================================
# TARGET T0528
# 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 T0528.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 1746
#
# ============================================
# Comments from T0528.t04.alpha.rdb
# ============================================
# TARGET T0528
# 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 T0528.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 1746
#
# ============================================
# Comments from T0528.t2k.str2.rdb
# ============================================
# TARGET T0528
# 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 T0528.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 1940
#
# ============================================
# Comments from T0528.t2k.str4.rdb
# ============================================
# TARGET T0528
# 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 T0528.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 1940
#
# ============================================
# Comments from T0528.t2k.pb.rdb
# ============================================
# TARGET T0528
# 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 T0528.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 1940
#
# ============================================
# Comments from T0528.t2k.bys.rdb
# ============================================
# TARGET T0528
# 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 T0528.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 1940
#
# ============================================
# Comments from T0528.t2k.alpha.rdb
# ============================================
# TARGET T0528
# 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 T0528.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 1940
#
# ============================================
Pos	AA	E	H	C
10N	1S	5N	5N	5N
1	M	0.0124	0.9053	0.0823
2	T	0.0096	0.9170	0.0733
3	A	0.0093	0.9193	0.0714
4	T	0.0091	0.9195	0.0714
5	A	0.0091	0.9188	0.0721
6	V	0.0090	0.9137	0.0773
7	A	0.0096	0.9029	0.0874
8	L	0.0113	0.8742	0.1144
9	A	0.0138	0.8251	0.1611
10	T	0.0183	0.7631	0.2186
11	T	0.0209	0.7348	0.2444
12	A	0.0211	0.7379	0.2409
13	V	0.0301	0.6988	0.2710
14	H	0.0520	0.5651	0.3829
15	A	0.0754	0.4557	0.4689
16	A	0.0798	0.3710	0.5493
17	D	0.1169	0.2479	0.6351
18	D	0.2600	0.1153	0.6247
19	L	0.5085	0.0307	0.4608
20	K	0.6690	0.0208	0.3101
21	I	0.7740	0.0153	0.2106
22	A	0.7833	0.0133	0.2033
23	L	0.7662	0.0141	0.2197
24	I	0.7333	0.0258	0.2409
25	Y	0.5047	0.0481	0.4472
26	G	0.2154	0.1236	0.6609
27	K	0.1588	0.2359	0.6052
28	T	0.1334	0.2034	0.6632
29	G	0.1333	0.1918	0.6749
30	P	0.1115	0.4200	0.4685
31	L	0.0732	0.6256	0.3012
32	E	0.0486	0.7428	0.2087
33	A	0.0522	0.7134	0.2344
34	Y	0.0705	0.6007	0.3288
35	A	0.0750	0.5754	0.3496
36	K	0.0594	0.6982	0.2425
37	Q	0.0483	0.7197	0.2320
38	T	0.0245	0.8249	0.1506
39	E	0.0133	0.8668	0.1200
40	T	0.0100	0.8871	0.1029
41	G	0.0093	0.9097	0.0810
42	L	0.0085	0.9190	0.0725
43	M	0.0083	0.9201	0.0716
44	M	0.0087	0.9183	0.0730
45	G	0.0097	0.9138	0.0764
46	L	0.0095	0.9084	0.0821
47	E	0.0089	0.9098	0.0813
48	Y	0.0121	0.8817	0.1061
49	A	0.0214	0.8364	0.1423
50	T	0.0322	0.6708	0.2970
51	K	0.0360	0.5676	0.3964
52	G	0.0708	0.2975	0.6317
53	T	0.1003	0.1619	0.7378
54	M	0.2459	0.1108	0.6432
55	T	0.4775	0.0823	0.4402
56	L	0.4481	0.0849	0.4669
57	D	0.2551	0.0798	0.6651
58	G	0.1023	0.0849	0.8128
59	R	0.4424	0.0155	0.5421
60	K	0.6231	0.0083	0.3685
61	I	0.7343	0.0082	0.2575
62	V	0.7821	0.0064	0.2115
63	V	0.7843	0.0050	0.2107
64	I	0.7851	0.0071	0.2078
65	T	0.7292	0.0102	0.2606
66	K	0.5459	0.0568	0.3973
67	D	0.3228	0.0713	0.6059
68	D	0.1543	0.2133	0.6325
69	Q	0.0567	0.3425	0.6008
70	S	0.0791	0.2959	0.6250
71	K	0.1167	0.2136	0.6697
72	P	0.0253	0.7375	0.2372
73	D	0.0123	0.8611	0.1266
74	L	0.0103	0.9054	0.0843
75	S	0.0089	0.9200	0.0711
76	K	0.0083	0.9231	0.0686
77	A	0.0083	0.9243	0.0674
78	A	0.0083	0.9240	0.0677
79	L	0.0084	0.9185	0.0732
80	A	0.0083	0.9197	0.0720
81	E	0.0084	0.9139	0.0777
82	A	0.0104	0.8809	0.1088
83	Y	0.0188	0.8112	0.1700
84	Q	0.0294	0.6337	0.3369
85	D	0.0438	0.4564	0.4998
86	D	0.0656	0.1644	0.7699
87	G	0.0826	0.0723	0.8451
88	A	0.3571	0.0130	0.6299
89	D	0.6656	0.0093	0.3251
90	I	0.8178	0.0048	0.1774
91	A	0.7812	0.0051	0.2137
92	I	0.7806	0.0081	0.2113
93	G	0.5618	0.0175	0.4207
94	T	0.3373	0.0744	0.5883
95	S	0.2049	0.1707	0.6244
96	S	0.1724	0.1906	0.6369
97	S	0.1481	0.3016	0.5503
98	A	0.0441	0.6772	0.2788
99	A	0.0494	0.7312	0.2194
100	A	0.0576	0.7665	0.1758
101	L	0.0533	0.7614	0.1853
102	A	0.0463	0.7399	0.2138
103	D	0.0514	0.6666	0.2820
104	L	0.0721	0.7007	0.2272
105	P	0.0274	0.8363	0.1363
106	V	0.0292	0.8494	0.1213
107	A	0.0143	0.8940	0.0917
108	E	0.0128	0.8753	0.1118
109	E	0.0279	0.7556	0.2165
110	N	0.0600	0.2644	0.6757
111	K	0.0550	0.0740	0.8710
112	K	0.2638	0.0201	0.7161
113	I	0.5470	0.0180	0.4350
114	L	0.7702	0.0095	0.2203
115	I	0.7893	0.0094	0.2013
116	V	0.7149	0.0129	0.2722
117	E	0.4128	0.0335	0.5538
118	P	0.2181	0.2228	0.5591
119	A	0.1867	0.2815	0.5317
120	V	0.1916	0.2392	0.5692
121	A	0.1800	0.2800	0.5400
122	D	0.0847	0.5134	0.4020
123	Q	0.1099	0.4841	0.4060
124	I	0.1662	0.3919	0.4419
125	T	0.1844	0.2233	0.5923
126	G	0.1374	0.1690	0.6936
127	E	0.1326	0.2765	0.5909
128	K	0.1467	0.2458	0.6075
129	W	0.2031	0.2010	0.5959
130	N	0.2387	0.1297	0.6316
131	R	0.2101	0.2585	0.5314
132	Y	0.3824	0.1599	0.4577
133	I	0.6432	0.0753	0.2815
134	F	0.6705	0.0568	0.2727
135	R	0.6722	0.0521	0.2757
136	T	0.5040	0.0644	0.4316
137	G	0.3109	0.0660	0.6231
138	R	0.2280	0.1256	0.6463
139	N	0.1770	0.1019	0.7211
140	S	0.0784	0.3878	0.5338
141	S	0.0419	0.6407	0.3174
142	Q	0.0271	0.7723	0.2006
143	D	0.0264	0.8255	0.1481
144	A	0.0237	0.8632	0.1130
145	I	0.0150	0.8978	0.0872
146	S	0.0113	0.9074	0.0813
147	N	0.0127	0.9070	0.0803
148	A	0.0109	0.9116	0.0775
149	V	0.0097	0.9166	0.0737
150	A	0.0120	0.9023	0.0857
151	I	0.0210	0.8347	0.1443
152	G	0.0438	0.6918	0.2644
153	K	0.0692	0.4410	0.4898
154	Q	0.0676	0.1407	0.7917
155	G	0.1363	0.0652	0.7985
156	V	0.3102	0.0230	0.6667
157	T	0.6513	0.0112	0.3375
158	I	0.8007	0.0057	0.1936
159	A	0.8147	0.0049	0.1804
160	T	0.8113	0.0047	0.1840
161	L	0.7887	0.0090	0.2023
162	A	0.6067	0.0189	0.3745
163	Q	0.3311	0.1223	0.5466
164	D	0.2236	0.1720	0.6045
165	Y	0.1269	0.3409	0.5322
166	A	0.0859	0.4452	0.4689
167	F	0.0929	0.3453	0.5618
168	G	0.0746	0.4002	0.5252
169	R	0.0498	0.6637	0.2865
170	D	0.0338	0.7255	0.2407
171	G	0.0217	0.8445	0.1338
172	V	0.0088	0.9131	0.0782
173	A	0.0083	0.9208	0.0709
174	A	0.0083	0.9230	0.0687
175	F	0.0083	0.9221	0.0696
176	K	0.0083	0.9214	0.0703
177	E	0.0083	0.9249	0.0668
178	A	0.0083	0.9242	0.0675
179	L	0.0083	0.9211	0.0705
180	A	0.0087	0.8994	0.0919
181	K	0.0129	0.8192	0.1679
182	T	0.0581	0.2407	0.7011
183	G	0.0506	0.0630	0.8864
184	A	0.2288	0.0226	0.7485
185	T	0.4435	0.0251	0.5314
186	L	0.6455	0.0183	0.3362
187	A	0.6416	0.0374	0.3210
188	T	0.6376	0.0419	0.3205
189	E	0.5430	0.0886	0.3684
190	E	0.5509	0.0886	0.3605
191	Y	0.5001	0.0529	0.4470
192	V	0.4209	0.0211	0.5580
193	P	0.2688	0.0399	0.6913
194	T	0.1367	0.2199	0.6434
195	T	0.1140	0.2071	0.6789
196	T	0.1460	0.1931	0.6609
197	T	0.1486	0.2724	0.5790
198	D	0.1505	0.3138	0.5358
199	F	0.0809	0.6187	0.3004
200	T	0.0392	0.7937	0.1671
201	A	0.0125	0.8874	0.1001
202	V	0.0093	0.9059	0.0848
203	G	0.0084	0.9154	0.0762
204	Q	0.0084	0.9155	0.0761
205	R	0.0083	0.9174	0.0742
206	L	0.0085	0.9120	0.0795
207	F	0.0084	0.9173	0.0743
208	D	0.0085	0.9139	0.0776
209	A	0.0093	0.8923	0.0984
210	L	0.0126	0.8351	0.1523
211	K	0.0190	0.7042	0.2768
212	D	0.0406	0.3617	0.5977
213	K	0.1287	0.0954	0.7759
214	P	0.1418	0.1111	0.7471
215	G	0.2055	0.0618	0.7326
216	K	0.6252	0.0125	0.3623
217	K	0.7412	0.0094	0.2494
218	I	0.8113	0.0048	0.1839
219	I	0.8074	0.0058	0.1868
220	W	0.7875	0.0092	0.2033
221	V	0.6883	0.0204	0.2913
222	I	0.4272	0.0672	0.5056
223	W	0.2403	0.1401	0.6196
224	A	0.1103	0.2902	0.5994
225	G	0.0657	0.2912	0.6431
226	G	0.0662	0.3417	0.5921
227	G	0.0653	0.4728	0.4619
228	D	0.0455	0.6964	0.2581
229	P	0.0113	0.8907	0.0979
230	L	0.0085	0.9174	0.0741
231	T	0.0083	0.9221	0.0696
232	K	0.0084	0.9192	0.0724
233	L	0.0088	0.9018	0.0894
234	Q	0.0095	0.8542	0.1364
235	D	0.0169	0.6738	0.3093
236	M	0.0673	0.3871	0.5456
237	D	0.1105	0.1171	0.7724
238	P	0.0816	0.2931	0.6254
239	K	0.1072	0.2320	0.6607
240	R	0.2330	0.1679	0.5991
241	Y	0.3432	0.1115	0.5453
242	G	0.4633	0.0692	0.4675
243	I	0.5738	0.0564	0.3698
244	E	0.5950	0.0523	0.3527
245	L	0.4985	0.0876	0.4139
246	S	0.3494	0.1137	0.5369
247	T	0.2423	0.1568	0.6010
248	G	0.1594	0.1550	0.6855
249	G	0.1457	0.1701	0.6842
250	N	0.1644	0.1801	0.6554
251	I	0.1282	0.3854	0.4864
252	L	0.1186	0.4926	0.3888
253	P	0.0508	0.7469	0.2023
254	A	0.0322	0.8214	0.1464
255	L	0.0269	0.8407	0.1325
256	A	0.0323	0.7872	0.1805
257	A	0.0591	0.6360	0.3048
258	Y	0.0722	0.5315	0.3963
259	K	0.0443	0.5570	0.3987
260	R	0.0766	0.3350	0.5884
261	L	0.1546	0.1523	0.6932
262	P	0.1139	0.2118	0.6743
263	G	0.0931	0.1200	0.7869
264	M	0.3390	0.0799	0.5811
265	E	0.5364	0.0654	0.3982
266	G	0.6016	0.0574	0.3410
267	A	0.6040	0.0607	0.3354
268	T	0.5347	0.0733	0.3920
269	Y	0.4703	0.0843	0.4454
270	Y	0.3823	0.0968	0.5210
271	Y	0.3308	0.1298	0.5394
272	Y	0.2743	0.1707	0.5550
273	D	0.1988	0.1582	0.6430
274	I	0.1998	0.1201	0.6801
275	P	0.1051	0.2801	0.6148
276	K	0.1168	0.2266	0.6566
277	N	0.1606	0.1061	0.7333
278	P	0.0279	0.5687	0.4034
279	I	0.0231	0.6678	0.3091
280	N	0.0242	0.8267	0.1491
281	E	0.0090	0.8946	0.0964
282	W	0.0085	0.9154	0.0761
283	L	0.0083	0.9209	0.0707
284	V	0.0083	0.9218	0.0699
285	T	0.0083	0.9208	0.0708
286	E	0.0083	0.9234	0.0683
287	H	0.0085	0.9187	0.0728
288	Q	0.0085	0.9162	0.0753
289	K	0.0090	0.8975	0.0935
290	R	0.0167	0.7619	0.2214
291	F	0.0609	0.4020	0.5371
292	N	0.0497	0.1002	0.8502
293	A	0.1650	0.0399	0.7951
294	P	0.1911	0.0414	0.7674
295	P	0.1741	0.2422	0.5837
296	D	0.1492	0.3178	0.5329
297	F	0.1327	0.4944	0.3729
298	F	0.1183	0.5950	0.2867
299	T	0.0881	0.6817	0.2302
300	A	0.0383	0.7876	0.1741
301	G	0.0258	0.8241	0.1501
302	G	0.0117	0.8971	0.0912
303	F	0.0086	0.9134	0.0780
304	S	0.0083	0.9220	0.0697
305	A	0.0083	0.9234	0.0684
306	A	0.0083	0.9247	0.0671
307	M	0.0083	0.9246	0.0672
308	A	0.0082	0.9252	0.0666
309	V	0.0083	0.9225	0.0692
310	V	0.0083	0.9227	0.0690
311	T	0.0083	0.9250	0.0668
312	A	0.0083	0.9240	0.0678
313	V	0.0084	0.9191	0.0726
314	Q	0.0087	0.8959	0.0955
315	K	0.0134	0.7876	0.1991
316	A	0.0588	0.4401	0.5011
317	K	0.0516	0.1065	0.8419
318	S	0.1278	0.1049	0.7673
319	T	0.1091	0.2023	0.6886
320	D	0.1556	0.0933	0.7512
321	T	0.0121	0.7622	0.2256
322	E	0.0093	0.8740	0.1167
323	K	0.0086	0.9220	0.0694
324	L	0.0084	0.9210	0.0706
325	I	0.0083	0.9230	0.0687
326	A	0.0083	0.9207	0.0710
327	A	0.0091	0.8975	0.0934
328	M	0.0153	0.8169	0.1678
329	E	0.0223	0.5523	0.4254
330	G	0.0418	0.2085	0.7497
331	M	0.1732	0.0939	0.7329
332	E	0.2546	0.0900	0.6554
333	F	0.2883	0.1109	0.6008
334	D	0.2568	0.1057	0.6375
335	T	0.2385	0.0458	0.7156
336	P	0.1600	0.1981	0.6419
337	K	0.1848	0.1475	0.6677
338	G	0.2843	0.0812	0.6345
339	K	0.4728	0.0461	0.4811
340	M	0.6627	0.0351	0.3022
341	V	0.7089	0.0289	0.2621
342	F	0.7052	0.0220	0.2729
343	R	0.4671	0.0288	0.5041
344	K	0.2738	0.2154	0.5108
345	E	0.1097	0.2995	0.5907
346	D	0.0933	0.2157	0.6910
347	H	0.1582	0.2120	0.6298
348	Q	0.3077	0.1884	0.5039
349	A	0.4138	0.1829	0.4032
350	L	0.4676	0.1082	0.4242
351	Q	0.5320	0.0644	0.4036
352	S	0.6075	0.0406	0.3519
353	M	0.7435	0.0130	0.2435
354	Y	0.7821	0.0086	0.2093
355	H	0.8068	0.0066	0.1866
356	F	0.8050	0.0075	0.1875
357	K	0.8007	0.0062	0.1931
358	V	0.7741	0.0085	0.2174
359	K	0.6407	0.0187	0.3405
360	V	0.4775	0.0551	0.4674
361	D	0.2447	0.0397	0.7155
362	P	0.1167	0.2708	0.6125
363	A	0.2944	0.1701	0.5355
364	V	0.5836	0.0474	0.3690
365	A	0.6519	0.0393	0.3088
366	W	0.6863	0.0293	0.2844
367	A	0.6294	0.0429	0.3277
368	V	0.5541	0.0628	0.3831
369	L	0.3556	0.0909	0.5536
370	E	0.3530	0.0453	0.6017
371	P	0.2962	0.0968	0.6071
372	V	0.4066	0.0735	0.5199
373	R	0.4143	0.0967	0.4890
374	E	0.5156	0.0851	0.3993
375	L	0.6085	0.0335	0.3579
376	K	0.4750	0.0403	0.4847
377	I	0.3285	0.0472	0.6243
378	E	0.1601	0.2303	0.6096
379	E	0.1382	0.2598	0.6019
380	M	0.2319	0.1804	0.5877
381	N	0.3733	0.0944	0.5323
382	I	0.4727	0.0288	0.4984
383	P	0.3713	0.0345	0.5942
384	I	0.3145	0.1334	0.5521
385	K	0.2094	0.1727	0.6180
386	N	0.1753	0.1361	0.6886
387	K	0.1587	0.2155	0.6258
388	K	0.1971	0.1953	0.6075