# This file is the result of combining several RDB files, specifically
# T0642.t06.str2.rdb  (weight 1.54425)
# T0642.t06.str4.rdb  (weight 0.924988)
# T0642.t06.pb.rdb  (weight 0.789901)
# T0642.t06.bys.rdb  (weight 0.748322)
# T0642.t06.alpha.rdb  (weight 0.678173)
# T0642.t04.str2.rdb  (weight 1.54425)
# T0642.t04.str4.rdb  (weight 0.924988)
# T0642.t04.pb.rdb  (weight 0.789901)
# T0642.t04.bys.rdb  (weight 0.748322)
# T0642.t04.alpha.rdb  (weight 0.678173)
# T0642.t2k.str2.rdb  (weight 1.54425)
# T0642.t2k.str4.rdb  (weight 0.924988)
# T0642.t2k.pb.rdb  (weight 0.789901)
# T0642.t2k.bys.rdb  (weight 0.748322)
# T0642.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 T0642.t06.str2.rdb
# ============================================
# TARGET T0642
# 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 T0642.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 1
#
# ============================================
# Comments from T0642.t06.str4.rdb
# ============================================
# TARGET T0642
# 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 T0642.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 1
#
# ============================================
# Comments from T0642.t06.pb.rdb
# ============================================
# TARGET T0642
# 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 T0642.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 1
#
# ============================================
# Comments from T0642.t06.bys.rdb
# ============================================
# TARGET T0642
# 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 T0642.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 1
#
# ============================================
# Comments from T0642.t06.alpha.rdb
# ============================================
# TARGET T0642
# 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 T0642.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 1
#
# ============================================
# Comments from T0642.t04.str2.rdb
# ============================================
# TARGET T0642
# 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 T0642.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 1
#
# ============================================
# Comments from T0642.t04.str4.rdb
# ============================================
# TARGET T0642
# 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 T0642.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 1
#
# ============================================
# Comments from T0642.t04.pb.rdb
# ============================================
# TARGET T0642
# 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 T0642.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 1
#
# ============================================
# Comments from T0642.t04.bys.rdb
# ============================================
# TARGET T0642
# 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 T0642.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 1
#
# ============================================
# Comments from T0642.t04.alpha.rdb
# ============================================
# TARGET T0642
# 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 T0642.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 1
#
# ============================================
# Comments from T0642.t2k.str2.rdb
# ============================================
# TARGET T0642
# 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 T0642.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 1
#
# ============================================
# Comments from T0642.t2k.str4.rdb
# ============================================
# TARGET T0642
# 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 T0642.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 1
#
# ============================================
# Comments from T0642.t2k.pb.rdb
# ============================================
# TARGET T0642
# 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 T0642.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 1
#
# ============================================
# Comments from T0642.t2k.bys.rdb
# ============================================
# TARGET T0642
# 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 T0642.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 1
#
# ============================================
# Comments from T0642.t2k.alpha.rdb
# ============================================
# TARGET T0642
# 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 T0642.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 1
#
# ============================================
Pos	AA	E	H	C
10N	1S	5N	5N	5N
1	M	0.2541	0.1424	0.6035
2	D	0.1759	0.1843	0.6397
3	E	0.1511	0.4456	0.4033
4	A	0.1668	0.4472	0.3860
5	R	0.2499	0.2898	0.4604
6	C	0.2725	0.1865	0.5410
7	A	0.2624	0.1260	0.6115
8	S	0.2084	0.0429	0.7487
9	P	0.0824	0.3840	0.5336
10	E	0.0904	0.3842	0.5253
11	R	0.1661	0.2680	0.5659
12	S	0.1840	0.1929	0.6231
13	T	0.1945	0.2490	0.5564
14	E	0.2481	0.2514	0.5005
15	R	0.4161	0.1569	0.4270
16	R	0.5933	0.0768	0.3299
17	I	0.7318	0.0311	0.2371
18	F	0.7628	0.0228	0.2144
19	I	0.7291	0.0321	0.2388
20	C	0.5774	0.0610	0.3617
21	N	0.3956	0.1010	0.5034
22	E	0.3290	0.1681	0.5029
23	W	0.3571	0.1584	0.4846
24	S	0.3500	0.1365	0.5135
25	Y	0.3120	0.2140	0.4740
26	E	0.2430	0.2621	0.4949
27	S	0.2342	0.2495	0.5163
28	T	0.1816	0.3102	0.5082
29	E	0.1441	0.4173	0.4386
30	R	0.1346	0.4688	0.3965
31	D	0.1204	0.4871	0.3924
32	A	0.1039	0.5797	0.3164
33	Y	0.1352	0.5702	0.2946
34	W	0.1511	0.6113	0.2376
35	E	0.1411	0.6267	0.2322
36	R	0.1690	0.5920	0.2390
37	E	0.2156	0.4846	0.2998
38	L	0.2726	0.4033	0.3241
39	E	0.2352	0.3421	0.4227
40	A	0.2268	0.2640	0.5092
41	S	0.1705	0.2120	0.6176
42	E	0.0752	0.4651	0.4597
43	D	0.1008	0.3792	0.5199
44	T	0.1158	0.4552	0.4290
45	H	0.1281	0.5069	0.3649
46	E	0.1662	0.4950	0.3387
47	L	0.1874	0.4444	0.3682
48	A	0.2052	0.3607	0.4341
49	S	0.1903	0.2855	0.5241
50	T	0.1613	0.2661	0.5725
51	S	0.1132	0.4458	0.4410
52	E	0.0961	0.5764	0.3275
53	Q	0.1617	0.4722	0.3661
54	I	0.2233	0.3786	0.3981
55	N	0.2054	0.2753	0.5193
56	T	0.1718	0.3084	0.5199
57	H	0.1510	0.3282	0.5208
58	E	0.1217	0.4072	0.4710
59	N	0.1646	0.2922	0.5432
60	I	0.2276	0.2927	0.4796
61	N	0.2418	0.2389	0.5193
62	T	0.2387	0.2767	0.4846
63	H	0.2279	0.2147	0.5574
64	C	0.2560	0.1632	0.5808
65	A	0.2406	0.1309	0.6285
66	S	0.2475	0.0559	0.6965
67	P	0.1976	0.0805	0.7219
68	P	0.2224	0.1006	0.6770
69	L	0.2616	0.2092	0.5292
70	E	0.2986	0.2223	0.4792
71	A	0.2618	0.2214	0.5168
72	S	0.2052	0.1949	0.5998
73	E	0.1463	0.1848	0.6689
74	G	0.1095	0.1450	0.7455
75	E	0.2408	0.1292	0.6300
76	T	0.3129	0.1263	0.5608
77	R	0.2932	0.2091	0.4977
78	E	0.2697	0.2788	0.4515
79	S	0.2483	0.2128	0.5389
80	T	0.1880	0.3006	0.5113
81	E	0.1161	0.4358	0.4481
82	D	0.1341	0.3416	0.5243
83	A	0.0659	0.5439	0.3902
84	N	0.0763	0.4445	0.4792
85	D	0.1246	0.3638	0.5115
86	L	0.1435	0.4710	0.3855
87	E	0.1685	0.4365	0.3951
88	T	0.2038	0.3420	0.4542
89	A	0.1974	0.2868	0.5158
90	S	0.1961	0.2110	0.5929
91	S	0.1456	0.2914	0.5630
92	E	0.0941	0.4524	0.4535
93	S	0.1243	0.4205	0.4552
94	S	0.1572	0.3324	0.5104
95	M	0.1587	0.3807	0.4606
96	E	0.1511	0.3431	0.5058
97	N	0.1502	0.2243	0.6255
98	T	0.1385	0.2615	0.6000
99	D	0.1026	0.3888	0.5086
100	E	0.0874	0.5464	0.3662
101	T	0.1030	0.6026	0.2944
102	E	0.0899	0.6964	0.2137
103	R	0.1160	0.6812	0.2028
104	M	0.1623	0.5983	0.2395
105	I	0.1889	0.5205	0.2906
106	N	0.1652	0.4419	0.3929
107	E	0.1251	0.4660	0.4090
108	T	0.1523	0.3218	0.5259
109	H	0.1654	0.3107	0.5240
110	E	0.1249	0.4328	0.4423
111	E	0.1474	0.3873	0.4653
112	S	0.1748	0.3154	0.5098
113	T	0.1671	0.3541	0.4789
114	S	0.2102	0.3504	0.4394
115	C	0.2876	0.3080	0.4044
116	I	0.3198	0.2743	0.4059
117	E	0.2720	0.2520	0.4761
118	N	0.3091	0.1577	0.5332
119	T	0.5686	0.0703	0.3611
120	I	0.7025	0.0329	0.2647
121	F	0.7683	0.0221	0.2096
122	I	0.7677	0.0203	0.2120
123	C	0.7183	0.0265	0.2551
124	C	0.5506	0.0537	0.3958
125	E	0.3213	0.1575	0.5212
126	N	0.2230	0.1293	0.6477
127	T	0.2217	0.1837	0.5946
128	E	0.2246	0.2341	0.5413
129	R	0.2733	0.2199	0.5067
130	S	0.2974	0.1851	0.5175
131	T	0.3690	0.1574	0.4736
132	H	0.4985	0.1025	0.3989
133	I	0.5437	0.1131	0.3431
134	S	0.4775	0.1370	0.3855
135	T	0.3650	0.2025	0.4324
136	A	0.2596	0.2387	0.5018
137	R	0.1738	0.1717	0.6545
138	G	0.1338	0.1366	0.7297
139	E	0.2693	0.1590	0.5717
140	T	0.3948	0.1519	0.4533
141	I	0.3024	0.3094	0.3882
142	S	0.2482	0.3966	0.3552
143	D	0.2532	0.4182	0.3286
144	I	0.3419	0.3574	0.3007
145	F	0.3999	0.3034	0.2967
146	F	0.3862	0.2933	0.3205
147	E	0.3346	0.3070	0.3584
148	R	0.2803	0.3039	0.4159
149	E	0.1795	0.3369	0.4837
150	N	0.1536	0.2414	0.6050
151	T	0.1825	0.2384	0.5792
152	A	0.1555	0.3058	0.5387
153	N	0.1482	0.2825	0.5693
154	D	0.1312	0.2692	0.5997
155	H	0.1695	0.2788	0.5516
156	A	0.2503	0.2684	0.4814
157	S	0.2964	0.2359	0.4677
158	V	0.2578	0.4004	0.3418
159	E	0.2482	0.4000	0.3519
160	R	0.2590	0.3092	0.4319
161	Y	0.2494	0.1495	0.6011
162	S	0.1931	0.0568	0.7502
163	P	0.0682	0.4592	0.4726
164	E	0.1205	0.3952	0.4843
165	C	0.3336	0.3300	0.3363
166	I	0.4945	0.2211	0.2844
167	F	0.5838	0.1773	0.2388
168	I	0.5046	0.2087	0.2867
169	C	0.3786	0.1828	0.4386
170	S	0.1716	0.2537	0.5747
171	H	0.1433	0.1792	0.6774
172	A	0.1702	0.1179	0.7119
173	P	0.0946	0.4180	0.4874
174	E	0.1106	0.5379	0.3515
175	W	0.2428	0.5188	0.2384
176	I	0.3549	0.4287	0.2164
177	L	0.4066	0.3757	0.2177
178	L	0.4265	0.3062	0.2672
179	C	0.3543	0.2604	0.3853
180	H	0.2532	0.2576	0.4892
181	E	0.2832	0.2042	0.5126
182	C	0.3973	0.1415	0.4612
183	K	0.4896	0.1029	0.4076
184	I	0.5400	0.0966	0.3634
185	T	0.4757	0.1057	0.4186
186	A	0.4109	0.1702	0.4189
187	T	0.2894	0.1846	0.5260
188	T	0.2293	0.2871	0.4836
189	H	0.1708	0.4088	0.4204
190	E	0.1837	0.4449	0.3714
191	M	0.1455	0.5661	0.2885
192	E	0.1140	0.6600	0.2260
193	E	0.1201	0.6566	0.2233
194	T	0.1429	0.5799	0.2772
195	I	0.1445	0.4885	0.3670
196	N	0.1017	0.2787	0.6196
197	G	0.0750	0.1636	0.7614
198	I	0.1923	0.1117	0.6959
199	N	0.2038	0.0612	0.7350
200	P	0.0832	0.4633	0.4536
201	A	0.1526	0.4527	0.3947
202	C	0.3543	0.3626	0.2832
203	I	0.4916	0.2563	0.2521
204	F	0.5101	0.2468	0.2432
205	I	0.4547	0.2467	0.2985
206	C	0.3084	0.2477	0.4439
207	G	0.1926	0.2271	0.5803
208	R	0.2351	0.2603	0.5046
209	V	0.2003	0.4132	0.3865
210	E	0.1483	0.5320	0.3197
211	H	0.1211	0.5964	0.2825
212	A	0.0569	0.7328	0.2103
213	H	0.0553	0.7456	0.1990
214	A	0.0585	0.7412	0.2003
215	L	0.0731	0.6900	0.2369
216	A	0.0747	0.6640	0.2613
217	S	0.0727	0.6379	0.2894
218	T	0.0807	0.6500	0.2693
219	W	0.0925	0.7025	0.2050
220	C	0.1116	0.7157	0.1727
221	F	0.1256	0.6969	0.1775
222	I	0.0848	0.7500	0.1653
223	N	0.0655	0.7655	0.1690
224	A	0.0688	0.7540	0.1772
225	L	0.0946	0.6854	0.2199
226	I	0.1250	0.6042	0.2707
227	S	0.1222	0.5308	0.3470
228	T	0.1150	0.5141	0.3709
229	S	0.1623	0.4699	0.3678
230	I	0.1648	0.5670	0.2682
231	T	0.1789	0.6031	0.2181
232	A	0.1971	0.6063	0.1966
233	L	0.1927	0.5772	0.2301
234	Y	0.2145	0.4652	0.3203
235	A	0.1362	0.4901	0.3737
236	N	0.0991	0.4276	0.4733
237	D	0.1112	0.3919	0.4969
238	F	0.1483	0.4159	0.4359
239	R	0.1886	0.3805	0.4309
240	A	0.1715	0.3467	0.4818
241	N	0.1727	0.2120	0.6154
242	C	0.2368	0.1770	0.5862
243	E	0.2420	0.2465	0.5115
244	W	0.2660	0.2953	0.4387
245	E	0.2186	0.3007	0.4807
246	R	0.2085	0.3720	0.4196
247	E	0.1748	0.4685	0.3567
248	E	0.2904	0.3868	0.3229
249	L	0.4533	0.2542	0.2925
250	I	0.5847	0.1664	0.2489
251	M	0.6220	0.1205	0.2576
252	I	0.5512	0.1294	0.3193
253	N	0.3946	0.1189	0.4865
254	A	0.2417	0.2306	0.5277
255	T	0.1640	0.2713	0.5648
256	E	0.1133	0.3780	0.5086
257	D	0.1460	0.2450	0.6090
258	I	0.2233	0.1163	0.6604
259	N	0.1872	0.0350	0.7778
260	P	0.0617	0.4534	0.4849
261	R	0.0639	0.5561	0.3801
262	E	0.1879	0.4969	0.3152
263	L	0.3367	0.3824	0.2809
264	I	0.4704	0.3092	0.2204
265	M	0.4882	0.2766	0.2352
266	I	0.3924	0.3170	0.2906
267	N	0.2599	0.2918	0.4483
268	A	0.1255	0.5618	0.3127
269	R	0.1113	0.6171	0.2716
270	Y	0.1714	0.5705	0.2581
271	M	0.1864	0.5482	0.2653
272	A	0.2071	0.5085	0.2844
273	T	0.2260	0.4061	0.3679
274	C	0.2066	0.3035	0.4899
275	H	0.1580	0.2867	0.5553
276	E	0.1074	0.3419	0.5507
277	S	0.1262	0.2434	0.6304
278	S	0.1555	0.1747	0.6698
279	P	0.0705	0.4848	0.4447
280	A	0.1133	0.5096	0.3771
281	I	0.1663	0.5552	0.2786
282	N	0.2109	0.5116	0.2775
283	W	0.2729	0.4488	0.2783
284	I	0.2997	0.3764	0.3240
285	N	0.2493	0.3047	0.4460
286	A	0.1454	0.2695	0.5851
287	G	0.1247	0.1935	0.6819
288	A	0.2355	0.2068	0.5577
289	I	0.3137	0.1957	0.4906
290	N	0.2513	0.1824	0.5663
291	S	0.1873	0.2460	0.5666
292	T	0.1366	0.2780	0.5854
293	N	0.1224	0.3074	0.5702
294	E	0.1144	0.4703	0.4154
295	T	0.1289	0.4913	0.3798
296	H	0.1191	0.5982	0.2828
297	E	0.0896	0.6951	0.2153
298	R	0.0985	0.6720	0.2295
299	L	0.1077	0.6183	0.2740
300	A	0.0990	0.5313	0.3697
301	N	0.0857	0.4205	0.4938
302	D	0.0705	0.4154	0.5141
303	S	0.1137	0.3955	0.4908
304	I	0.1392	0.5074	0.3534
305	N	0.1368	0.5808	0.2824
306	F	0.1583	0.6246	0.2170
307	I	0.1184	0.7067	0.1749
308	N	0.1030	0.7204	0.1766
309	A	0.1087	0.7005	0.1909
310	L	0.1683	0.5489	0.2828
311	I	0.2343	0.3803	0.3854
312	N	0.1936	0.2607	0.5457
313	T	0.1569	0.3017	0.5414
314	E	0.1660	0.3173	0.5168
315	R	0.2139	0.2854	0.5008
316	E	0.2268	0.2941	0.4791
317	S	0.2959	0.2293	0.4748
318	T	0.3621	0.1655	0.4724
319	I	0.3462	0.1403	0.5135
320	N	0.2183	0.1172	0.6645
321	G	0.1643	0.1413	0.6944
322	E	0.1760	0.2605	0.5635
323	N	0.2054	0.2368	0.5578
324	D	0.2318	0.1792	0.5890
325	I	0.2305	0.2212	0.5483
326	N	0.1742	0.1647	0.6611
327	G	0.1484	0.1765	0.6752
328	H	0.2706	0.2059	0.5235
329	A	0.3955	0.2291	0.3754
330	V	0.3727	0.2969	0.3304
331	E	0.3294	0.3347	0.3360
332	A	0.2079	0.4528	0.3393
333	N	0.1612	0.4845	0.3542
334	I	0.1287	0.6150	0.2563
335	C	0.0986	0.6971	0.2042
336	E	0.0797	0.7674	0.1529
337	F	0.0647	0.8073	0.1280
338	A	0.0561	0.8362	0.1078
339	L	0.0660	0.8197	0.1143
340	L	0.0736	0.7855	0.1409
341	M	0.0840	0.7376	0.1784
342	E	0.0922	0.6732	0.2346
343	R	0.1005	0.6220	0.2775
344	R	0.1161	0.5720	0.3119
345	Y	0.1664	0.4732	0.3604
346	C	0.1798	0.4493	0.3709
347	H	0.2174	0.3962	0.3864
348	R	0.2987	0.3332	0.3680
349	I	0.3052	0.3643	0.3305
350	S	0.2988	0.3622	0.3391
351	T	0.2802	0.3794	0.3404
352	M	0.2491	0.3804	0.3705
353	A	0.2588	0.3307	0.4105
354	S	0.2235	0.2840	0.4924
355	A	0.1355	0.3575	0.5069
356	N	0.1095	0.3028	0.5877
357	D	0.0956	0.2810	0.6234
358	H	0.1276	0.1797	0.6927
359	A	0.2168	0.0623	0.7210
360	P	0.1796	0.0631	0.7573
361	P	0.1470	0.1959	0.6571
362	Y	0.1296	0.3568	0.5136
363	N	0.1169	0.4472	0.4359
364	E	0.1040	0.5729	0.3231
365	W	0.1323	0.6077	0.2600
366	Y	0.1477	0.6172	0.2350
367	E	0.1341	0.6292	0.2367
368	A	0.1047	0.6392	0.2560
369	R	0.1250	0.5555	0.3195
370	T	0.1405	0.4739	0.3856
371	A	0.0755	0.6427	0.2819
372	K	0.0672	0.6950	0.2378
373	E	0.1088	0.6090	0.2822
374	I	0.1544	0.5434	0.3023
375	T	0.1485	0.5052	0.3463
376	E	0.1377	0.5296	0.3327
377	A	0.1462	0.4904	0.3633
378	S	0.1513	0.4140	0.4347
379	Y	0.1724	0.3345	0.4931
380	A	0.1599	0.2874	0.5527
381	N	0.1476	0.2310	0.6214
382	D	0.1309	0.2982	0.5708
383	S	0.2055	0.3086	0.4859
384	M	0.3834	0.2166	0.4000
385	I	0.4836	0.1644	0.3520
386	L	0.4533	0.1487	0.3980
387	E	0.3065	0.1503	0.5432