# This file is the result of combining several RDB files, specifically
# T0333.t06.dssp-ebghstl.rdb  (weight 1.53986)
# T0333.t06.stride-ebghtl.rdb  (weight 1.24869)
# T0333.t06.str2.rdb  (weight 1.54758)
# T0333.t06.alpha.rdb  (weight 0.659012)
# T0333.t04.dssp-ebghstl.rdb  (weight 1.53986)
# T0333.t04.stride-ebghtl.rdb  (weight 1.24869)
# T0333.t04.str2.rdb  (weight 1.54758)
# T0333.t04.alpha.rdb  (weight 0.659012)
# T0333.t2k.dssp-ebghstl.rdb  (weight 1.53986)
# T0333.t2k.stride-ebghtl.rdb  (weight 1.24869)
# T0333.t2k.str2.rdb  (weight 1.54758)
# T0333.t2k.alpha.rdb  (weight 0.659012)
# 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 T0333.t06.dssp-ebghstl.rdb
# ============================================
# TARGET T0333
# Using neural net t06-IDGaaH13-3-13-7-13-9-13-11-ebghstl-dssp-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	    7 (1 EBGHSTL )
# The input amino acid frequencies were determined from
# alignment T0333.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 4708
#
# ============================================
# Comments from T0333.t06.stride-ebghtl.rdb
# ============================================
# TARGET T0333
# Using neural net t06-IDGaaH13-3-13-7-13-9-13-11-ebghtl-stride-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	    6 (1 EBGHTL )
# The input amino acid frequencies were determined from
# alignment T0333.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 4708
#
# ============================================
# Comments from T0333.t06.str2.rdb
# ============================================
# TARGET T0333
# Using neural net 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 T0333.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 4708
#
# ============================================
# Comments from T0333.t06.alpha.rdb
# ============================================
# TARGET T0333
# Using neural net 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 T0333.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 4708
#
# ============================================
# Comments from T0333.t04.dssp-ebghstl.rdb
# ============================================
# TARGET T0333
# Using neural net t06-IDGaaH13-3-13-7-13-9-13-11-ebghstl-dssp-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	    7 (1 EBGHSTL )
# The input amino acid frequencies were determined from
# alignment T0333.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 2239
#
# ============================================
# Comments from T0333.t04.stride-ebghtl.rdb
# ============================================
# TARGET T0333
# Using neural net t04-2621-IDGaaH13-3-13-7-13-9-13-11-ebghtl-stride-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    3	   13
#	    7	   13
#	    9	   13
#	   11	    6 (1 EBGHTL )
# The input amino acid frequencies were determined from
# alignment T0333.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 2239
#
# ============================================
# Comments from T0333.t04.str2.rdb
# ============================================
# TARGET T0333
# Using neural net t04-2621-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 T0333.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 2239
#
# ============================================
# Comments from T0333.t04.alpha.rdb
# ============================================
# TARGET T0333
# Using neural net t04-2621-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 T0333.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 2239
#
# ============================================
# Comments from T0333.t2k.dssp-ebghstl.rdb
# ============================================
# TARGET T0333
# Using neural net t2k-5740-IDaaHr-5-15-7-15-9-15-13-ebghstl-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    5	   15
#	    7	   15
#	    9	   15
#	   13	    7 (1 EBGHSTL )
# The input amino acid frequencies were determined from
# alignment T0333.t2k-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(-1 bits/column, 1)
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 284
#
# ============================================
# Comments from T0333.t2k.stride-ebghtl.rdb
# ============================================
# TARGET T0333
# Using neural net t2k-5651-IDaaHr-5-15-7-15-9-15-13-ebghtl-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    5	   15
#	    7	   15
#	    9	   15
#	   13	    6 (1 EBGHTL )
# The input amino acid frequencies were determined from
# alignment T0333.t2k-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(-1 bits/column, 1)
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 284
#
# ============================================
# Comments from T0333.t2k.str2.rdb
# ============================================
# TARGET T0333
# Using neural net t2k-5651-IDaaHr-5-15-7-15-9-15-13-str2-from-empty.net
# This is a 4-layer network, with 
#	window	units
#	    5	   15
#	    7	   15
#	    9	   15
#	   13	   13 (1 str2 )
# The input amino acid frequencies were determined from
# alignment T0333.t2k-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(-1 bits/column, 1)
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 284
#
# ============================================
# Comments from T0333.t2k.alpha.rdb
# ============================================
# TARGET T0333
# Using neural net t2k-5651-IDaaHr-5-15-7-15-9-15-13-alpha-seeded.net
# This is a 4-layer network, with 
#	window	units
#	    5	   15
#	    7	   15
#	    9	   15
#	   13	   11 (1 ABCDEFGHIST )
# The input amino acid frequencies were determined from
# alignment T0333.t2k-thin90.a2m.gz
# with weighted counts, using HenikoffWeight(-1 bits/column, 1)
# Counts were regularized to probabilities using
# /projects/compbio/lib/recode3.20comp
# Total sequence weight for alignment was 284
#
# ============================================
Pos	AA	E	H	C
10N	1S	5N	5N	5N
1	M	0.8026	0.0054	0.1920
2	L	0.9096	0.0036	0.0868
3	F	0.9184	0.0037	0.0779
4	V	0.8771	0.0125	0.1104
5	S	0.6860	0.0144	0.2996
6	S	0.3133	0.0261	0.6606
7	P	0.1254	0.0668	0.8078
8	G	0.0835	0.1008	0.8156
9	I	0.0472	0.2227	0.7301
10	G	0.0430	0.2405	0.7166
11	H	0.0631	0.3978	0.5391
12	L	0.0521	0.6011	0.3467
13	F	0.0371	0.7163	0.2466
14	P	0.0118	0.8682	0.1200
15	L	0.0053	0.9174	0.0772
16	I	0.0048	0.9482	0.0470
17	Q	0.0047	0.9593	0.0360
18	L	0.0047	0.9601	0.0352
19	A	0.0047	0.9600	0.0353
20	W	0.0047	0.9606	0.0348
21	G	0.0047	0.9598	0.0356
22	F	0.0048	0.9573	0.0379
23	R	0.0051	0.9393	0.0556
24	T	0.0053	0.8216	0.1731
25	A	0.0387	0.3064	0.6550
26	G	0.0425	0.0236	0.9339
27	H	0.0851	0.0139	0.9010
28	D	0.4924	0.0104	0.4972
29	V	0.8447	0.0090	0.1463
30	L	0.8887	0.0111	0.1001
31	I	0.8614	0.0098	0.1288
32	A	0.5850	0.0179	0.3971
33	V	0.1184	0.0158	0.8657
34	A	0.0453	0.4093	0.5454
35	E	0.0436	0.5369	0.4194
36	H	0.0307	0.6794	0.2898
37	A	0.0146	0.8117	0.1737
38	D	0.0102	0.8606	0.1293
39	R	0.0108	0.8930	0.0962
40	A	0.0228	0.8777	0.0995
41	A	0.0252	0.8538	0.1209
42	A	0.0259	0.7472	0.2269
43	A	0.0518	0.3308	0.6175
44	G	0.0547	0.0384	0.9069
45	L	0.1541	0.0177	0.8282
46	E	0.4517	0.0208	0.5276
47	V	0.7415	0.0186	0.2400
48	V	0.7362	0.0169	0.2469
49	D	0.6453	0.0229	0.3318
50	V	0.3299	0.0426	0.6275
51	A	0.1175	0.0594	0.8231
52	P	0.0596	0.1506	0.7897
53	D	0.0674	0.2132	0.7193
54	Y	0.0650	0.2955	0.6396
55	S	0.0647	0.3483	0.5870
56	A	0.0398	0.5623	0.3979
57	V	0.0337	0.6436	0.3227
58	K	0.0388	0.6631	0.2981
59	V	0.0418	0.6614	0.2968
60	F	0.0543	0.6072	0.3385
61	E	0.0504	0.5738	0.3758
62	Q	0.0628	0.4982	0.4389
63	V	0.0699	0.4302	0.5000
64	A	0.0642	0.4189	0.5169
65	K	0.0564	0.4069	0.5367
66	D	0.0539	0.3507	0.5954
67	N	0.0717	0.2607	0.6675
68	P	0.0728	0.2874	0.6399
69	R	0.0731	0.3118	0.6150
70	F	0.0720	0.3154	0.6126
71	A	0.0610	0.3617	0.5773
72	E	0.0645	0.3792	0.5563
73	T	0.0682	0.3977	0.5341
74	V	0.0715	0.4091	0.5194
75	A	0.0546	0.5006	0.4448
76	T	0.0364	0.5475	0.4161
77	R	0.0382	0.5635	0.3983
78	P	0.0310	0.6908	0.2782
79	A	0.0216	0.8037	0.1747
80	I	0.0216	0.8241	0.1543
81	D	0.0206	0.8312	0.1482
82	L	0.0192	0.8414	0.1394
83	E	0.0162	0.8623	0.1216
84	E	0.0161	0.8625	0.1214
85	W	0.0160	0.8605	0.1235
86	G	0.0154	0.8617	0.1229
87	V	0.0145	0.8742	0.1113
88	Q	0.0158	0.8654	0.1188
89	I	0.0155	0.8623	0.1222
90	A	0.0125	0.8762	0.1113
91	A	0.0106	0.8694	0.1201
92	V	0.0096	0.8457	0.1447
93	N	0.0105	0.8305	0.1591
94	R	0.0068	0.8501	0.1431
95	P	0.0075	0.8084	0.1842
96	L	0.0096	0.7923	0.1981
97	V	0.0105	0.8397	0.1498
98	D	0.0061	0.9103	0.0836
99	G	0.0054	0.9253	0.0693
100	T	0.0049	0.9393	0.0558
101	M	0.0052	0.9425	0.0523
102	A	0.0051	0.9369	0.0579
103	L	0.0055	0.9303	0.0642
104	V	0.0079	0.9078	0.0843
105	D	0.0077	0.8510	0.1413
106	D	0.0136	0.6435	0.3428
107	Y	0.0508	0.3282	0.6210
108	R	0.0760	0.0556	0.8684
109	P	0.0921	0.0277	0.8802
110	D	0.1343	0.0567	0.8091
111	L	0.9084	0.0046	0.0870
112	V	0.9295	0.0035	0.0671
113	V	0.9157	0.0053	0.0790
114	Y	0.8099	0.0152	0.1749
115	E	0.2209	0.0331	0.7460
116	Q	0.0491	0.2323	0.7186
117	G	0.0446	0.4324	0.5230
118	A	0.0317	0.6463	0.3221
119	T	0.0140	0.7946	0.1914
120	V	0.0070	0.8764	0.1165
121	G	0.0048	0.9371	0.0581
122	L	0.0047	0.9537	0.0415
123	L	0.0047	0.9574	0.0378
124	A	0.0047	0.9584	0.0369
125	A	0.0048	0.9568	0.0384
126	D	0.0060	0.9407	0.0532
127	R	0.0086	0.8920	0.0994
128	A	0.0471	0.4550	0.4978
129	G	0.0395	0.0294	0.9311
130	V	0.0629	0.0102	0.9269
131	P	0.1794	0.0166	0.8040
132	A	0.7140	0.0238	0.2621
133	V	0.8775	0.0129	0.1096
134	Q	0.8957	0.0093	0.0950
135	R	0.8586	0.0159	0.1255
136	N	0.6929	0.0242	0.2830
137	Q	0.4011	0.0491	0.5499
138	S	0.2054	0.0644	0.7302
139	A	0.1485	0.1335	0.7180
140	W	0.1170	0.1797	0.7034
141	R	0.1111	0.1847	0.7042
142	T	0.0960	0.2250	0.6790
143	R	0.0705	0.3218	0.6078
144	G	0.0850	0.3402	0.5748
145	M	0.0880	0.3693	0.5427
146	H	0.1025	0.3356	0.5618
147	R	0.0926	0.3322	0.5752
148	S	0.0869	0.3157	0.5974
149	I	0.0868	0.3127	0.6005
150	A	0.0893	0.3052	0.6054
151	S	0.0836	0.2934	0.6230
152	F	0.0769	0.2677	0.6554
153	L	0.0744	0.2417	0.6839
154	T	0.0631	0.2208	0.7162
155	D	0.0690	0.2485	0.6826
156	L	0.0776	0.2493	0.6731
157	M	0.0940	0.2503	0.6557
158	D	0.1104	0.2971	0.5924
159	K	0.1142	0.3482	0.5376
160	H	0.0919	0.4559	0.4522
161	Q	0.0916	0.4599	0.4485
162	V	0.0971	0.4624	0.4405
163	S	0.1129	0.4057	0.4814
164	L	0.1349	0.2892	0.5759
165	P	0.1209	0.2235	0.6556
166	E	0.1110	0.1910	0.6980
167	P	0.0993	0.2420	0.6587
168	V	0.1469	0.2412	0.6120
169	A	0.2469	0.2805	0.4726
170	T	0.4029	0.2530	0.3441
171	I	0.4476	0.2326	0.3198
172	E	0.4020	0.1911	0.4068
173	S	0.3087	0.1493	0.5420
174	F	0.1740	0.0873	0.7386
175	P	0.1042	0.0944	0.8014
176	P	0.0350	0.4430	0.5220
177	S	0.0472	0.4812	0.4716
178	L	0.1032	0.3756	0.5213
179	L	0.1363	0.1724	0.6912
180	L	0.1084	0.0995	0.7921
181	E	0.1051	0.1179	0.7770
182	A	0.0817	0.1697	0.7486
183	E	0.0606	0.1983	0.7411
184	P	0.0763	0.1583	0.7655
185	E	0.0932	0.0997	0.8071
186	G	0.0999	0.1050	0.7951
187	W	0.1590	0.1088	0.7322
188	F	0.3162	0.0825	0.6013
189	M	0.6253	0.0323	0.3423
190	R	0.7468	0.0224	0.2308
191	W	0.7590	0.0232	0.2178
192	V	0.5822	0.0315	0.3863
193	P	0.3357	0.0479	0.6164
194	Y	0.1793	0.0894	0.7312
195	G	0.1232	0.1203	0.7565
196	G	0.0867	0.1162	0.7971
197	G	0.0662	0.1373	0.7965
198	A	0.0598	0.1547	0.7855
199	V	0.0692	0.1853	0.7455
200	L	0.0670	0.2344	0.6987
201	G	0.0596	0.3943	0.5461
202	D	0.0539	0.5431	0.4030
203	R	0.0517	0.5938	0.3545
204	L	0.0662	0.5500	0.3838
205	P	0.0789	0.4144	0.5067
206	P	0.0909	0.2319	0.6772
207	V	0.0652	0.1190	0.8158
208	P	0.0384	0.1199	0.8417
209	A	0.0378	0.0669	0.8953
210	R	0.0748	0.0232	0.9020
211	P	0.1621	0.0092	0.8288
212	E	0.7783	0.0045	0.2172
213	V	0.9230	0.0033	0.0738
214	A	0.9283	0.0036	0.0681
215	I	0.9150	0.0054	0.0796
216	T	0.8245	0.0106	0.1649
217	M	0.4532	0.0393	0.5075
218	G	0.2143	0.0508	0.7348
219	T	0.1746	0.1197	0.7058
220	I	0.1647	0.2119	0.6235
221	E	0.1206	0.2635	0.6159
222	L	0.0890	0.3165	0.5944
223	Q	0.0489	0.3553	0.5958
224	A	0.0461	0.2944	0.6596
225	F	0.0521	0.2289	0.7190
226	G	0.0468	0.2583	0.6949
227	I	0.0090	0.8446	0.1465
228	G	0.0068	0.8962	0.0970
229	A	0.0053	0.9273	0.0673
230	V	0.0052	0.9506	0.0442
231	E	0.0047	0.9567	0.0386
232	P	0.0047	0.9576	0.0377
233	I	0.0047	0.9573	0.0379
234	I	0.0047	0.9558	0.0395
235	A	0.0048	0.9499	0.0453
236	A	0.0051	0.9300	0.0649
237	A	0.0075	0.8797	0.1128
238	G	0.0096	0.6623	0.3281
239	E	0.0159	0.3492	0.6349
240	V	0.0650	0.0898	0.8452
241	D	0.0540	0.0377	0.9083
242	A	0.3264	0.0092	0.6644
243	D	0.8344	0.0048	0.1609
244	F	0.9268	0.0031	0.0700
245	V	0.9291	0.0033	0.0676
246	L	0.9179	0.0033	0.0788
247	A	0.8026	0.0075	0.1899
248	L	0.3893	0.0205	0.5902
249	G	0.1081	0.0342	0.8577
250	D	0.0662	0.0989	0.8350
251	L	0.0740	0.1677	0.7583
252	D	0.0682	0.2060	0.7258
253	I	0.0215	0.6234	0.3551
254	S	0.0224	0.6106	0.3670
255	P	0.0398	0.6142	0.3460
256	L	0.0721	0.4372	0.4906
257	G	0.0692	0.2965	0.6343
258	T	0.0940	0.1962	0.7099
259	L	0.1011	0.0621	0.8368
260	P	0.0717	0.0437	0.8846
261	R	0.0373	0.1660	0.7966
262	N	0.0878	0.1208	0.7914
263	V	0.5602	0.0256	0.4142
264	R	0.8549	0.0095	0.1356
265	A	0.8491	0.0147	0.1362
266	V	0.6917	0.0377	0.2705
267	G	0.4649	0.0646	0.4706
268	W	0.3064	0.0832	0.6103
269	T	0.2590	0.0339	0.7071
270	P	0.2170	0.0520	0.7310
271	L	0.0330	0.5993	0.3677
272	H	0.0143	0.7377	0.2480
273	T	0.0152	0.7809	0.2040
274	L	0.0403	0.6089	0.3508
275	L	0.0553	0.4011	0.5437
276	R	0.0210	0.3699	0.6091
277	T	0.0441	0.1832	0.7726
278	C	0.1848	0.0216	0.7936
279	T	0.3504	0.0432	0.6065
280	A	0.9260	0.0040	0.0700
281	V	0.9327	0.0032	0.0640
282	V	0.9236	0.0046	0.0719
283	H	0.8570	0.0135	0.1295
284	H	0.2675	0.0280	0.7045
285	G	0.0564	0.0581	0.8855
286	G	0.0474	0.1414	0.8113
287	G	0.0231	0.6255	0.3515
288	G	0.0140	0.7770	0.2089
289	T	0.0076	0.9064	0.0860
290	V	0.0048	0.9542	0.0410
291	M	0.0062	0.9542	0.0395
292	T	0.0053	0.9574	0.0374
293	A	0.0052	0.9570	0.0378
294	I	0.0058	0.9457	0.0485
295	D	0.0063	0.8976	0.0962
296	A	0.0425	0.3821	0.5754
297	G	0.0388	0.0274	0.9337
298	I	0.0853	0.0146	0.9002
299	P	0.3465	0.0115	0.6420
300	Q	0.8597	0.0092	0.1310
301	L	0.9182	0.0037	0.0780
302	L	0.9042	0.0046	0.0912
303	A	0.7999	0.0086	0.1915
304	P	0.3934	0.0236	0.5829
305	D	0.0910	0.0919	0.8171
306	P	0.0509	0.2041	0.7449
307	R	0.0267	0.3197	0.6536
308	D	0.0313	0.3571	0.6115
309	Q	0.0397	0.5834	0.3769
310	F	0.0139	0.8717	0.1144
311	Q	0.0129	0.9126	0.0746
312	H	0.0084	0.9391	0.0524
313	T	0.0062	0.9539	0.0399
314	A	0.0063	0.9545	0.0392
315	R	0.0057	0.9581	0.0362
316	E	0.0060	0.9558	0.0382
317	A	0.0062	0.9447	0.0491
318	V	0.0073	0.8975	0.0952
319	S	0.0420	0.4038	0.5542
320	R	0.0354	0.0560	0.9085
321	R	0.1099	0.0497	0.8404
322	G	0.4109	0.0510	0.5381
323	I	0.6042	0.0431	0.3527
324	G	0.5425	0.0435	0.4141
325	L	0.3058	0.0448	0.6494
326	V	0.1006	0.0692	0.8302
327	S	0.0885	0.0374	0.8741
328	T	0.1258	0.0250	0.8492
329	S	0.0693	0.0223	0.9084
330	D	0.0056	0.9249	0.0695
331	K	0.0048	0.9454	0.0498
332	V	0.0049	0.9511	0.0441
333	D	0.0048	0.9551	0.0402
334	A	0.0047	0.9596	0.0358
335	D	0.0047	0.9580	0.0373
336	L	0.0047	0.9583	0.0370
337	L	0.0047	0.9577	0.0375
338	R	0.0047	0.9563	0.0390
339	R	0.0050	0.9443	0.0507
340	L	0.0061	0.9141	0.0798
341	I	0.0156	0.7562	0.2281
342	G	0.0248	0.3712	0.6040
343	D	0.0732	0.0614	0.8654
344	E	0.0080	0.8329	0.1590
345	S	0.0065	0.8819	0.1116
346	L	0.0058	0.9210	0.0732
347	R	0.0050	0.9498	0.0452
348	T	0.0052	0.9506	0.0443
349	A	0.0048	0.9517	0.0435
350	A	0.0047	0.9550	0.0403
351	R	0.0047	0.9561	0.0392
352	E	0.0047	0.9530	0.0422
353	V	0.0048	0.9497	0.0455
354	R	0.0050	0.9473	0.0477
355	E	0.0050	0.9388	0.0563
356	E	0.0055	0.9277	0.0668
357	M	0.0073	0.8837	0.1091
358	V	0.0089	0.7167	0.2744
359	A	0.0128	0.4973	0.4899
360	L	0.0511	0.1915	0.7574
361	P	0.0462	0.1204	0.8333
362	T	0.0520	0.1229	0.8251
363	P	0.0134	0.8487	0.1380
364	A	0.0051	0.9319	0.0630
365	E	0.0051	0.9449	0.0500
366	T	0.0048	0.9535	0.0418
367	V	0.0047	0.9601	0.0352
368	R	0.0047	0.9595	0.0358
369	R	0.0047	0.9598	0.0355
370	I	0.0047	0.9587	0.0366
371	V	0.0047	0.9546	0.0407
372	E	0.0050	0.9389	0.0560
373	R	0.0069	0.8775	0.1156
374	I	0.0239	0.6405	0.3356
375	S	0.0285	0.2486	0.7230
376	G	0.0372	0.0470	0.9158