# This file is the result of combining several RDB files, specifically
# T0628.t06.str2.rdb  (weight 1.54425)
# T0628.t06.str4.rdb  (weight 0.924988)
# T0628.t06.pb.rdb  (weight 0.789901)
# T0628.t06.bys.rdb  (weight 0.748322)
# T0628.t06.alpha.rdb  (weight 0.678173)
# T0628.t04.str2.rdb  (weight 1.54425)
# T0628.t04.str4.rdb  (weight 0.924988)
# T0628.t04.pb.rdb  (weight 0.789901)
# T0628.t04.bys.rdb  (weight 0.748322)
# T0628.t04.alpha.rdb  (weight 0.678173)
# T0628.t2k.str2.rdb  (weight 1.54425)
# T0628.t2k.str4.rdb  (weight 0.924988)
# T0628.t2k.pb.rdb  (weight 0.789901)
# T0628.t2k.bys.rdb  (weight 0.748322)
# T0628.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 T0628.t06.str2.rdb
# ============================================
# TARGET T0628
# 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 T0628.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 43.6862
#
# ============================================
# Comments from T0628.t06.str4.rdb
# ============================================
# TARGET T0628
# 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 T0628.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 43.6862
#
# ============================================
# Comments from T0628.t06.pb.rdb
# ============================================
# TARGET T0628
# 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 T0628.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 43.6862
#
# ============================================
# Comments from T0628.t06.bys.rdb
# ============================================
# TARGET T0628
# 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 T0628.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 43.6862
#
# ============================================
# Comments from T0628.t06.alpha.rdb
# ============================================
# TARGET T0628
# 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 T0628.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 43.6862
#
# ============================================
# Comments from T0628.t04.str2.rdb
# ============================================
# TARGET T0628
# 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 T0628.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 41.7256
#
# ============================================
# Comments from T0628.t04.str4.rdb
# ============================================
# TARGET T0628
# 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 T0628.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 41.7256
#
# ============================================
# Comments from T0628.t04.pb.rdb
# ============================================
# TARGET T0628
# 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 T0628.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 41.7256
#
# ============================================
# Comments from T0628.t04.bys.rdb
# ============================================
# TARGET T0628
# 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 T0628.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 41.7256
#
# ============================================
# Comments from T0628.t04.alpha.rdb
# ============================================
# TARGET T0628
# 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 T0628.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 41.7256
#
# ============================================
# Comments from T0628.t2k.str2.rdb
# ============================================
# TARGET T0628
# 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 T0628.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 40.5975
#
# ============================================
# Comments from T0628.t2k.str4.rdb
# ============================================
# TARGET T0628
# 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 T0628.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 40.5975
#
# ============================================
# Comments from T0628.t2k.pb.rdb
# ============================================
# TARGET T0628
# 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 T0628.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 40.5975
#
# ============================================
# Comments from T0628.t2k.bys.rdb
# ============================================
# TARGET T0628
# 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 T0628.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 40.5975
#
# ============================================
# Comments from T0628.t2k.alpha.rdb
# ============================================
# TARGET T0628
# 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 T0628.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 40.5975
#
# ============================================
Pos	AA	E	H	C
10N	1S	5N	5N	5N
1	S	0.1475	0.2461	0.6064
2	N	0.1378	0.2651	0.5971
3	A	0.2010	0.2621	0.5369
4	M	0.3175	0.1538	0.5287
5	T	0.3692	0.0841	0.5467
6	A	0.4077	0.1483	0.4441
7	R	0.5875	0.0890	0.3235
8	Y	0.7497	0.0266	0.2237
9	I	0.7759	0.0174	0.2067
10	A	0.7691	0.0158	0.2151
11	I	0.7310	0.0276	0.2414
12	D	0.5379	0.0420	0.4201
13	W	0.2108	0.2035	0.5857
14	G	0.1406	0.1818	0.6776
15	S	0.1625	0.2285	0.6090
16	T	0.1365	0.3063	0.5573
17	N	0.2013	0.3181	0.4806
18	L	0.3171	0.3708	0.3121
19	R	0.4677	0.3112	0.2211
20	A	0.5863	0.2378	0.1760
21	W	0.6109	0.2010	0.1881
22	L	0.6020	0.1749	0.2231
23	Y	0.5177	0.1553	0.3271
24	Q	0.2607	0.1376	0.6017
25	G	0.1195	0.1712	0.7093
26	E	0.1050	0.2089	0.6861
27	E	0.1894	0.1802	0.6304
28	C	0.3317	0.1906	0.4777
29	L	0.3245	0.3531	0.3224
30	E	0.3133	0.3987	0.2880
31	S	0.2883	0.4099	0.3019
32	R	0.2713	0.3575	0.3712
33	Q	0.2598	0.2707	0.4695
34	S	0.1836	0.2671	0.5493
35	E	0.1103	0.4026	0.4871
36	A	0.1190	0.2798	0.6012
37	G	0.1402	0.1837	0.6760
38	V	0.3054	0.2158	0.4789
39	T	0.4098	0.1993	0.3909
40	R	0.4188	0.1873	0.3939
41	L	0.3087	0.1936	0.4978
42	N	0.1825	0.1554	0.6622
43	G	0.0969	0.1872	0.7159
44	R	0.1113	0.1814	0.7074
45	S	0.1464	0.1027	0.7509
46	P	0.0444	0.5961	0.3595
47	A	0.0152	0.8208	0.1641
48	A	0.0096	0.9014	0.0890
49	V	0.0087	0.9177	0.0736
50	L	0.0086	0.9149	0.0765
51	A	0.0085	0.9162	0.0753
52	E	0.0088	0.9112	0.0800
53	I	0.0123	0.8769	0.1108
54	T	0.0181	0.8364	0.1454
55	Q	0.0203	0.7925	0.1872
56	H	0.0313	0.6790	0.2897
57	W	0.0579	0.5193	0.4228
58	R	0.0759	0.3909	0.5331
59	D	0.0806	0.2245	0.6949
60	G	0.0643	0.1898	0.7459
61	A	0.1630	0.1268	0.7102
62	T	0.3390	0.0386	0.6224
63	P	0.5784	0.0458	0.3758
64	V	0.7918	0.0185	0.1897
65	V	0.7796	0.0220	0.1984
66	M	0.7626	0.0287	0.2087
67	A	0.6717	0.0531	0.2752
68	G	0.3854	0.0785	0.5361
69	M	0.2869	0.1422	0.5708
70	V	0.2262	0.2358	0.5380
71	G	0.1845	0.2064	0.6091
72	S	0.1174	0.3651	0.5175
73	N	0.0956	0.3790	0.5254
74	V	0.1091	0.2453	0.6456
75	G	0.1448	0.1565	0.6987
76	W	0.3381	0.1415	0.5204
77	K	0.5101	0.1015	0.3885
78	I	0.5470	0.0828	0.3702
79	A	0.4610	0.0533	0.4857
80	P	0.2700	0.1124	0.6176
81	Y	0.3296	0.1153	0.5552
82	L	0.4158	0.0553	0.5289
83	P	0.3954	0.0769	0.5277
84	L	0.3451	0.0436	0.6112
85	P	0.2479	0.0887	0.6634
86	A	0.2366	0.1284	0.6350
87	A	0.1815	0.1092	0.7093
88	F	0.0416	0.6139	0.3445
89	S	0.0219	0.7604	0.2177
90	D	0.0227	0.7917	0.1856
91	I	0.0245	0.8173	0.1582
92	G	0.0240	0.8048	0.1712
93	Q	0.0280	0.8022	0.1698
94	Q	0.0521	0.6968	0.2511
95	L	0.1479	0.5396	0.3125
96	T	0.2889	0.3168	0.3943
97	A	0.2928	0.2282	0.4790
98	V	0.2193	0.1490	0.6317
99	G	0.1563	0.1122	0.7315
100	D	0.1571	0.1446	0.6983
101	N	0.2520	0.0956	0.6525
102	I	0.5260	0.0430	0.4310
103	W	0.6952	0.0196	0.2852
104	I	0.7080	0.0162	0.2759
105	I	0.5128	0.0155	0.4717
106	P	0.3664	0.0573	0.5763
107	G	0.2860	0.0707	0.6432
108	L	0.3706	0.1024	0.5270
109	C	0.4184	0.0940	0.4876
110	V	0.4082	0.1096	0.4822
111	S	0.2776	0.0994	0.6230
112	R	0.1764	0.2062	0.6174
113	D	0.1303	0.2083	0.6614
114	D	0.1347	0.1872	0.6780
115	N	0.1723	0.1937	0.6339
116	H	0.1623	0.3304	0.5072
117	N	0.2177	0.3122	0.4701
118	V	0.2820	0.3022	0.4158
119	M	0.2877	0.1881	0.5241
120	R	0.1951	0.1790	0.6258
121	G	0.1239	0.2080	0.6680
122	E	0.1412	0.3900	0.4688
123	E	0.2102	0.5299	0.2600
124	T	0.1395	0.6788	0.1817
125	Q	0.1342	0.7100	0.1558
126	L	0.0998	0.7529	0.1473
127	L	0.0907	0.7408	0.1685
128	G	0.1193	0.6627	0.2180
129	A	0.0594	0.7514	0.1892
130	R	0.0802	0.6518	0.2680
131	A	0.0877	0.5396	0.3727
132	L	0.1452	0.2751	0.5797
133	A	0.1991	0.0625	0.7384
134	P	0.1267	0.1832	0.6901
135	S	0.1505	0.1486	0.7009
136	S	0.4563	0.0444	0.4993
137	V	0.7481	0.0094	0.2424
138	Y	0.7847	0.0063	0.2090
139	V	0.7683	0.0095	0.2222
140	M	0.5961	0.0125	0.3914
141	P	0.2731	0.0888	0.6381
142	G	0.1896	0.0933	0.7171
143	T	0.2076	0.1521	0.6404
144	H	0.2758	0.1262	0.5980
145	C	0.3670	0.1055	0.5275
146	K	0.4515	0.1095	0.4390
147	W	0.7205	0.0351	0.2443
148	V	0.7856	0.0132	0.2012
149	L	0.7542	0.0123	0.2335
150	A	0.6817	0.0373	0.2810
151	D	0.4692	0.0989	0.4320
152	R	0.2054	0.1174	0.6772
153	R	0.1225	0.1134	0.7641
154	Q	0.4261	0.0427	0.5312
155	I	0.5555	0.0493	0.3952
156	H	0.5045	0.0883	0.4073
157	D	0.4870	0.1509	0.3621
158	F	0.3381	0.2964	0.3655
159	R	0.2813	0.4365	0.2822
160	T	0.2316	0.5371	0.2314
161	V	0.1339	0.6599	0.2062
162	L	0.0670	0.7308	0.2022
163	T	0.0191	0.8247	0.1562
164	G	0.0109	0.8857	0.1034
165	E	0.0087	0.9093	0.0820
166	L	0.0084	0.9167	0.0749
167	H	0.0083	0.9222	0.0695
168	H	0.0083	0.9232	0.0685
169	L	0.0084	0.9185	0.0731
170	L	0.0088	0.8943	0.0969
171	L	0.0102	0.8301	0.1596
172	Q	0.0188	0.7085	0.2727
173	L	0.0593	0.6165	0.3243
174	S	0.1092	0.5755	0.3154
175	L	0.1323	0.5449	0.3228
176	V	0.1667	0.4228	0.4105
177	G	0.1550	0.3557	0.4893
178	A	0.1381	0.2342	0.6277
179	G	0.1284	0.1240	0.7476
180	L	0.2127	0.0382	0.7491
181	P	0.1724	0.0372	0.7904
182	P	0.0935	0.3588	0.5477
183	Q	0.0726	0.4420	0.4854
184	E	0.1106	0.3476	0.5418
185	T	0.1420	0.2625	0.5954
186	S	0.1165	0.3063	0.5772
187	A	0.0206	0.7525	0.2269
188	A	0.0105	0.8671	0.1224
189	A	0.0097	0.9055	0.0848
190	F	0.0098	0.9104	0.0799
191	A	0.0109	0.8945	0.0946
192	A	0.0125	0.8716	0.1159
193	G	0.0169	0.8176	0.1654
194	L	0.0277	0.8039	0.1684
195	Q	0.0399	0.7363	0.2238
196	R	0.0524	0.5907	0.3569
197	G	0.0689	0.3625	0.5686
198	I	0.1139	0.2885	0.5976
199	N	0.1320	0.1748	0.6933
200	N	0.1373	0.2010	0.6616
201	P	0.0253	0.6231	0.3515
202	A	0.0319	0.6260	0.3421
203	V	0.0506	0.6400	0.3094
204	L	0.0573	0.6717	0.2710
205	P	0.0240	0.8047	0.1713
206	Q	0.0199	0.8471	0.1329
207	L	0.0281	0.8494	0.1225
208	F	0.0308	0.8660	0.1032
209	E	0.0355	0.8689	0.0956
210	V	0.0447	0.8549	0.1004
211	R	0.0344	0.8646	0.1010
212	A	0.0316	0.8560	0.1123
213	S	0.0197	0.8556	0.1247
214	H	0.0197	0.8326	0.1477
215	V	0.0299	0.7444	0.2257
216	L	0.0497	0.5221	0.4281
217	G	0.0502	0.3129	0.6368
218	A	0.0837	0.1805	0.7359
219	L	0.1939	0.0333	0.7728
220	P	0.1488	0.0424	0.8087
221	R	0.0126	0.7209	0.2665
222	E	0.0097	0.8544	0.1359
223	Q	0.0098	0.9027	0.0875
224	V	0.0092	0.9076	0.0833
225	S	0.0086	0.9130	0.0784
226	E	0.0086	0.9118	0.0796
227	F	0.0093	0.8940	0.0966
228	L	0.0165	0.8496	0.1339
229	S	0.0151	0.8457	0.1392
230	G	0.0196	0.8269	0.1536
231	L	0.0298	0.8446	0.1256
232	L	0.0413	0.8278	0.1309
233	I	0.0310	0.8261	0.1428
234	G	0.0178	0.8692	0.1130
235	A	0.0113	0.8942	0.0945
236	E	0.0092	0.9057	0.0850
237	V	0.0091	0.9056	0.0853
238	A	0.0089	0.8977	0.0934
239	T	0.0107	0.8502	0.1391
240	L	0.0209	0.7931	0.1860
241	S	0.0335	0.6635	0.3031
242	D	0.0260	0.6398	0.3342
243	T	0.0460	0.5179	0.4360
244	F	0.0964	0.3672	0.5364
245	A	0.1038	0.2298	0.6664
246	G	0.0775	0.1799	0.7426
247	Q	0.1360	0.1189	0.7451
248	Q	0.3135	0.0380	0.6486
249	A	0.5756	0.0177	0.4067
250	I	0.7880	0.0062	0.2058
251	S	0.8164	0.0046	0.1790
252	L	0.7837	0.0054	0.2108
253	V	0.7581	0.0137	0.2283
254	A	0.5139	0.0284	0.4577
255	G	0.2095	0.1261	0.6644
256	S	0.0457	0.4820	0.4723
257	S	0.0265	0.6684	0.3051
258	L	0.0136	0.8330	0.1534
259	T	0.0088	0.9073	0.0839
260	S	0.0084	0.9189	0.0727
261	R	0.0083	0.9234	0.0683
262	Y	0.0083	0.9234	0.0684
263	Q	0.0083	0.9233	0.0684
264	Q	0.0083	0.9242	0.0676
265	A	0.0084	0.9213	0.0704
266	F	0.0084	0.9175	0.0741
267	A	0.0090	0.8969	0.0941
268	A	0.0141	0.8058	0.1800
269	I	0.0550	0.3662	0.5788
270	G	0.0504	0.0910	0.8586
271	R	0.1808	0.0712	0.7480
272	E	0.3166	0.0773	0.6061
273	V	0.4993	0.1081	0.3926
274	S	0.5534	0.1101	0.3366
275	A	0.5750	0.0963	0.3287
276	V	0.3891	0.1149	0.4960
277	A	0.1736	0.1945	0.6320
278	G	0.0542	0.6141	0.3318
279	D	0.0254	0.7907	0.1839
280	T	0.0214	0.8650	0.1136
281	A	0.0129	0.8998	0.0873
282	F	0.0102	0.9077	0.0821
283	Q	0.0120	0.8861	0.1019
284	T	0.0119	0.8717	0.1164
285	G	0.0136	0.8680	0.1184
286	I	0.0101	0.9011	0.0887
287	R	0.0084	0.9195	0.0721
288	S	0.0085	0.9224	0.0691
289	I	0.0085	0.9196	0.0718
290	A	0.0087	0.9173	0.0740
291	Y	0.0088	0.9101	0.0811
292	A	0.0119	0.8783	0.1098
293	V	0.0298	0.7595	0.2107
294	A	0.0543	0.5701	0.3756
295	N	0.0780	0.3157	0.6062