Node 66
Ancestral DNA sequence:
Probabilities of bases and MPB (most probable base) at each site.
Site	A	C	G	T	MPB	Probability
1	1	0	0	0	A	1
2	0	0	0	1	T	1
3	0	0	1	0	G	1
4	1	0	0	0	A	1
5	0	0	0	1	T	1
6	0	0.95	0	0.05	C	0.95
7	0.8	0	0.2	0	A	0.8
8	0	0	0	1	T	1
9	0.09	0.28	0.2	0.43	T	0.43
10	0	0.21	0	0.79	T	0.79
11	0	0	0	1	T	1
12	0.71	0.16	0.09	0.04	A	0.71
13	0.02	0	0.98	0	G	0.98
14	1	0	0	0	A	1
15	0.01	0.66	0.01	0.32	C	0.66
16	1	0	0	0	A	1
17	0.71	0	0.28	0	A	0.71
18	0	0.97	0	0.03	C	0.97
19	0	0.06	0	0.94	T	0.94
20	0	0	0	1	T	1
21	0.96	0	0.04	0	A	0.96
22	0	0	1	0	G	1
23	0.95	0.03	0.02	0	A	0.95
24	0.6	0.06	0.29	0.05	A	0.6
25	0	1	0	0	C	1
26	1	0	0	0	A	1
27	0.47	0	0.52	0	G	0.52
28	0	0	0	1	T	1
29	0	0	0	1	T	1
30	0	0.76	0	0.24	C	0.76
31	0.92	0.05	0.03	0	A	0.92
32	0.99	0	0.01	0	A	0.99
33	0.37	0.01	0.62	0	G	0.62
34	0.05	0.71	0.07	0.16	C	0.71
35	0.38	0.13	0.21	0.28	A	0.38
36	0.08	0.44	0.34	0.14	C	0.44
37	0.12	0	0.88	0	G	0.88
38	0	0	0	1	T	1
39	0.04	0.25	0.04	0.66	T	0.66
40	0	0	0	1	T	1
41	1	0	0	0	A	1
42	0	0.29	0	0.71	T	0.71
43	0	1	0	0	C	1
44	0.01	0	0.99	0	G	0.99
45	0.04	0.56	0.04	0.36	C	0.56
46	0.43	0.01	0.56	0.01	G	0.56
47	0.95	0.01	0.04	0	A	0.95
48	0.07	0.61	0.09	0.23	C	0.61
49	0	0	1	0	G	1
50	0	0	1	0	G	1
51	0.12	0.28	0.11	0.49	T	0.49
52	0.1	0.88	0.01	0.01	C	0.88
53	0.14	0	0.86	0	G	0.86
54	0.17	0.22	0.18	0.43	T	0.43
55	1	0	0	0	A	1
56	1	0	0	0	A	1
57	0.97	0	0.03	0	A	0.97
58	0	0	0	1	T	1
59	0	0	1	0	G	1
60	0	0	1	0	G	1
61	0.69	0.22	0.08	0.01	A	0.69
62	1	0	0	0	A	1
63	0.04	0.53	0.22	0.22	C	0.53
64	0	1	0	0	C	1
65	0	0	1	0	G	1
66	0	0.94	0	0.06	C	0.94
67	0	0	0	1	T	1
68	0	0	1	0	G	1
69	0	0.66	0	0.34	C	0.66
70	0.35	0	0.65	0	G	0.65
71	0	0	0	1	T	1
72	0.27	0.03	0.67	0.03	G	0.67
73	0	0	1	0	G	1
74	1	0	0	0	A	1
75	0.4	0	0.6	0	G	0.6
76	0	0	1	0	G	1
77	0	1	0	0	C	1
78	0.03	0.63	0.05	0.28	C	0.63
79	1	0	0	0	A	1
80	0	0	0	1	T	1
81	0	0.7	0	0.3	C	0.7
82	0.82	0	0.17	0	A	0.82
83	1	0	0	0	A	1
84	0.11	0.48	0.11	0.31	C	0.48
85	1	0	0	0	A	1
86	1	0	0	0	A	1
87	0	0.91	0	0.09	C	0.91
88	0.95	0.03	0.01	0	A	0.95
89	0	0	0	1	T	1
90	0.01	0.85	0.01	0.13	C	0.85
91	0.06	0.01	0.93	0	G	0.93
92	0.94	0.01	0.05	0	A	0.94
93	0.12	0.55	0.11	0.22	C	0.55
94	0.99	0	0	0	A	0.99
95	1	0	0	0	A	1
96	0	0.71	0	0.29	C	0.71
97	1	0	0	0	A	1
98	0	0	0	1	T	1
99	0	0.98	0	0.02	C	0.98
100	0.77	0.16	0.05	0.02	A	0.77
101	0.97	0	0.03	0	A	0.97
102	0.48	0.01	0.49	0.01	G	0.49
103	0	0.91	0.08	0.01	C	0.91
104	0.07	0.92	0	0.01	C	0.92
105	0.09	0.4	0.1	0.41	T	0.41
106	0	0	1	0	G	1
107	0	0	1	0	G	1
108	0	0.96	0	0.04	C	0.96
109	0	0	1	0	G	1
110	0	0	0	1	T	1
111	0.26	0.06	0.61	0.07	G	0.61
112	0.59	0	0.37	0.03	A	0.59
113	0	0.59	0	0.4	C	0.59
114	0.09	0.16	0.67	0.08	G	0.67
115	0	0.99	0	0.01	C	0.99
116	1	0	0	0	A	1
117	0	0.47	0	0.53	T	0.53
118	0	0	0	1	T	1
119	0	1	0	0	C	1
120	0.12	0.33	0.28	0.27	C	0.33
121	1	0	0	0	A	1
122	0	0	0	1	T	1
123	0.01	0.35	0.01	0.62	T	0.62
124	0	0	1	0	G	1
125	0	0	1	0	G	1
126	0.02	0.54	0.02	0.42	C	0.54
127	0	0	1	0	G	1
128	1	0	0	0	A	1
129	0	0.01	0	0.99	T	0.99
130	0	0	0	1	T	1
131	0	1	0	0	C	1
132	0.28	0.16	0.27	0.29	T	0.29
133	0	1	0	0	C	1
134	0	0	0	1	T	1
135	0	0	1	0	G	1
136	0.05	0	0.95	0	G	0.95
137	0	0.1	0	0.9	T	0.9
138	0.04	0.34	0.04	0.59	T	0.59
139	0	0	0	1	T	1
140	1	0	0	0	A	1
141	0	0.31	0	0.69	T	0.69
142	0	1	0	0	C	1
143	0	0	1	0	G	1
144	0.01	0.92	0.04	0.03	C	0.92
145	0.19	0.08	0.69	0.05	G	0.69
146	0	0	0	1	T	1
147	0.07	0.15	0.23	0.55	T	0.55
148	0.01	0	0.99	0	G	0.99
149	0.97	0.01	0.01	0	A	0.97
150	0.63	0.05	0.29	0.04	A	0.63
151	0.48	0	0.52	0	G	0.52
152	0.76	0.18	0.04	0.02	A	0.76
153	0.09	0.55	0.08	0.27	C	0.55
154	0	0	1	0	G	1
155	0.05	0	0.95	0	G	0.95
156	0.03	0.62	0.03	0.32	C	0.62
157	0.63	0.05	0.28	0.04	A	0.63
158	0.04	0.8	0.03	0.13	C	0.8
159	0.22	0.43	0.14	0.21	C	0.43
160	0.64	0	0.36	0	A	0.64
161	0.31	0.3	0.36	0.03	G	0.36
162	0.25	0.35	0.22	0.18	C	0.35
163	0.4	0.29	0.17	0.13	A	0.4
164	0.92	0.02	0.05	0.01	A	0.92
165	0.64	0.03	0.3	0.03	A	0.64
166	0.1	0.73	0.06	0.11	C	0.73
167	0.07	0.89	0.02	0.02	C	0.89
168	0.44	0.19	0.28	0.1	A	0.44
169	0.86	0	0.14	0	A	0.86
170	0.18	0.69	0.03	0.1	C	0.69
171	0.04	0.58	0.05	0.33	C	0.58
172	0	0.01	0.98	0.01	G	0.98
173	0.16	0.78	0.03	0.03	C	0.78
174	0.48	0.07	0.38	0.06	A	0.48
175	0	0.9	0	0.09	C	0.9
176	0	0.01	0	0.99	T	0.99
177	0.1	0.01	0.88	0.01	G	0.88
178	0	0	0	1	T	1
179	0	0	0	1	T	1
180	0.01	0.42	0.01	0.57	T	0.57
181	0	0	1	0	G	1
182	0.94	0.01	0.02	0.04	A	0.94
183	0.27	0.18	0.49	0.05	G	0.49
184	0	0	1	0	G	1
185	0	0	1	0	G	1
186	0.06	0.47	0.1	0.37	C	0.47
187	0.94	0.04	0.01	0	A	0.94
188	1	0	0	0	A	1
189	0.01	0.71	0.02	0.26	C	0.71
190	0	1	0	0	C	1
191	0	0	1	0	G	1
192	0	0.81	0	0.18	C	0.81
193	0	1	0	0	C	1
194	0	0	1	0	G	1
195	0.01	0.59	0.01	0.4	C	0.59
196	0	0	0	1	T	1
197	1	0	0	0	A	1
198	0	0.73	0	0.27	C	0.73
199	0	0	0	1	T	1
200	0	0	0	1	T	1
201	0	0.42	0	0.58	T	0.58
202	0	0	1	0	G	1
203	1	0	0	0	A	1
204	0.06	0.18	0.11	0.65	T	0.65
205	0	0	1	0	G	1
206	0	0	0	1	T	1
207	0.01	0	0.99	0	G	0.99
208	0	1	0	0	C	1
209	1	0	0	0	A	1
210	0	0.11	0	0.89	T	0.89
211	0	0	0	1	T	1
212	1	0	0	0	A	1
213	0	0.97	0	0.03	C	0.97
214	0	0	0	1	T	1
215	1	0	0	0	A	1
216	0	1	0	0	C	1
217	0	1	0	0	C	1
218	0	0	0	1	T	1
219	0.28	0.15	0.43	0.14	G	0.43
220	0	0	1	0	G	1
221	1	0	0	0	A	1
222	0.73	0.02	0.24	0.02	A	0.73
223	0	0	1	0	G	1
224	0	0	1	0	G	1
225	0.22	0.21	0.31	0.27	G	0.31
226	0.03	0.83	0.06	0.08	C	0.83
227	0.98	0	0.02	0	A	0.98
228	0.31	0.1	0.46	0.13	G	0.46
229	0	0	1	0	G	1
230	1	0	0	0	A	1
231	0.82	0	0.18	0	A	0.82
232	1	0	0	0	A	1
233	0.01	0.95	0	0.03	C	0.95
234	0.23	0.23	0.2	0.34	T	0.34
235	0.42	0	0.58	0	G	0.58
236	0	0	0	1	T	1
237	0.05	0.21	0.08	0.67	T	0.67
238	0	0	1	0	G	1
239	1	0	0	0	A	1
240	0.07	0	0.93	0	G	0.93
241	0	0.02	0.01	0.96	T	0.96
242	0.01	0	0	0.98	T	0.98
243	0.02	0.4	0.02	0.56	T	0.56
244	0	0	1	0	G	1
245	0	1	0	0	C	1
246	0.21	0.42	0.2	0.18	C	0.42
247	0.14	0.01	0.85	0.01	G	0.85
248	0.49	0.27	0.19	0.05	A	0.49
249	0.01	0.64	0.02	0.33	C	0.64
250	1	0	0	0	A	1
251	1	0	0	0	A	1
252	0.99	0	0.01	0	A	0.99
253	0.36	0.09	0.38	0.18	G	0.38
254	0.22	0.44	0.23	0.12	C	0.44
255	0.05	0.65	0.07	0.22	C	0.65
256	0.17	0.02	0.79	0.01	G	0.79
257	0.71	0.09	0.13	0.06	A	0.71
258	0.23	0.14	0.44	0.19	G	0.44
259	0	0.93	0	0.07	C	0.93
260	0	0	0	1	T	1
261	0.28	0.02	0.68	0.02	G	0.68
262	0.95	0.01	0.04	0	A	0.95
263	0.31	0.33	0.24	0.12	C	0.33
264	0.32	0.15	0.43	0.1	G	0.43
265	0.09	0.67	0.09	0.16	C	0.67
266	0	0.44	0	0.56	T	0.56
267	0.47	0.09	0.33	0.1	A	0.47
268	0	0	1	0	G	1
269	0.93	0	0.01	0.06	A	0.93
270	0.22	0.03	0.72	0.03	G	0.72
271	0.1	0.36	0.5	0.04	G	0.5
272	0.97	0	0.03	0	A	0.97
273	0.41	0.06	0.48	0.05	G	0.48
274	0.02	0.05	0.89	0.04	G	0.89
275	0.02	0.91	0.06	0.02	C	0.91
276	0.06	0.33	0.03	0.58	T	0.58
277	0	0	0	1	T	1
278	1	0	0	0	A	1
279	0	0.16	0	0.83	T	0.83
280	0.02	0.97	0.01	0.01	C	0.97
281	0.03	0	0.97	0	G	0.97
282	0.1	0.66	0.05	0.19	C	0.66
283	0	0	1	0	G	1
284	1	0	0	0	A	1
285	0	0.07	0	0.93	T	0.93
286	0	0	1	0	G	1
287	1	0	0	0	A	1
288	1	0	0	0	A	1
289	1	0	0	0	A	1
290	0	1	0	0	C	1
291	0.02	0.62	0.02	0.35	C	0.62
292	0	0	1	0	G	1
293	1	0	0	0	A	1
294	0	0.94	0	0.05	C	0.94
295	0	1	0	0	C	1
296	0	0	1	0	G	1
297	0.04	0.65	0.03	0.28	C	0.65
298	0	0	1	0	G	1
299	1	0	0	0	A	1
300	0.44	0	0.56	0	G	0.56
301	0	0	0	1	T	1
302	0.02	0.02	0.01	0.95	T	0.95
303	0.01	0.23	0.02	0.74	T	0.74
304	0	0.61	0	0.39	C	0.61
305	0	0	0	1	T	1
306	0.07	0.45	0.28	0.2	C	0.45
307	0.83	0.02	0.1	0.06	A	0.83
308	0.04	0.89	0.05	0.02	C	0.89
309	0.07	0.46	0.05	0.41	C	0.46
310	0	0	1	0	G	1
311	0	0	1	0	G	1
312	0.05	0.4	0.05	0.5	T	0.5
313	0.16	0.51	0.12	0.22	C	0.51
314	0.97	0	0.03	0	A	0.97
315	0.47	0.14	0.31	0.08	A	0.47
316	0	0	0	0	-	0
317	0	0	0	0	-	0
318	0	0	0	0	-	0
319	0	0	1	0	G	1
320	0	0	1	0	G	1
321	0.03	0.18	0.02	0.77	T	0.77
322	0	0	1	0	G	1
323	1	0	0	0	A	1
324	0.3	0	0.69	0	G	0.69
325	0.98	0	0.01	0	A	0.98
326	0.05	0.83	0.08	0.04	C	0.83
327	0.18	0.36	0.14	0.32	C	0.36
328	0	0.99	0	0.01	C	0.99
329	0.56	0.01	0.37	0.06	A	0.56
330	0.09	0.19	0.19	0.53	T	0.53
331	0.02	0.86	0.06	0.06	C	0.86
332	0.99	0	0.01	0	A	0.99
333	0.21	0.05	0.7	0.05	G	0.7
334	0.04	0.25	0.61	0.1	G	0.61
335	0	0	0	1	T	1
336	0.16	0.23	0.26	0.35	T	0.35
337	0.28	0.27	0.22	0.24	A	0.28
338	0.81	0.01	0.18	0.01	A	0.81
339	0.07	0.61	0.09	0.23	C	0.61
340	0.05	0.05	0.89	0.01	G	0.89
341	1	0	0	0	A	1
342	0.92	0.01	0.06	0.01	A	0.92
343	0	0	1	0	G	1
344	0	0	1	0	G	1
345	0.13	0.49	0.16	0.22	C	0.49
346	0	1	0	0	C	1
347	1	0	0	0	A	1
348	0.46	0.02	0.5	0.02	G	0.5
349	0.08	0	0.92	0	G	0.92
350	0	0	0	1	T	1
351	0.12	0.03	0.82	0.03	G	0.82
352	0	0	1	0	G	1
353	0	0.1	0	0.9	T	0.9
354	0.3	0.06	0.56	0.07	G	0.56
355	1	0	0	0	A	1
356	0	0	0	1	T	1
357	0	0.2	0	0.8	T	0.8
358	0	0	0	1	T	1
359	0	0	0	1	T	1
360	0	0.66	0	0.34	C	0.66
361	0	0	1	0	G	1
362	1	0	0	0	A	1
363	0.38	0.19	0.19	0.24	A	0.38
364	1	0	0	0	A	1
365	1	0	0	0	A	1
366	0	0.97	0	0.03	C	0.97
367	0.21	0.28	0.42	0.08	G	0.42
368	1	0	0	0	A	1
369	0	0.67	0	0.32	C	0.67
370	0.02	0	0.98	0	G	0.98
371	1	0	0	0	A	1
372	0.78	0	0.22	0	A	0.78
373	0	0	1	0	G	1
374	0	1	0	0	C	1
375	0.16	0.33	0.32	0.19	C	0.33
376	0	0.01	0	0.99	T	0.99
377	1	0	0	0	A	1
378	0	1	0	0	C	1
379	0	1	0	0	C	1
380	0	0	1	0	G	1
381	0.13	0.52	0.1	0.24	C	0.52
382	0	0	0	1	T	1
383	0	0	0	1	T	1
384	0	0.33	0	0.66	T	0.66
385	0.48	0.22	0.25	0.05	A	0.48
386	0.22	0.18	0.06	0.54	T	0.54
387	0	0.94	0	0.05	C	0.94
388	0.04	0.01	0.91	0.04	G	0.91
389	0	0	1	0	G	1
390	0.03	0.36	0.03	0.58	T	0.58
391	0.09	0	0.91	0	G	0.91
392	0.99	0	0.01	0	A	0.99
393	0.02	0.59	0.02	0.37	C	0.59
394	0.54	0.01	0.45	0.01	A	0.54
395	0.97	0	0.03	0	A	0.97
396	0	0.99	0	0.01	C	0.99
397	0	0.98	0	0.01	C	0.98
398	0.33	0.35	0.29	0.03	C	0.35
399	0.46	0.07	0.4	0.07	A	0.46
400	0	0	1	0	G	1
401	0	0	0	1	T	1
402	0.59	0.03	0.35	0.03	A	0.59
403	0	0	0	0	-	0
404	0	0	0	0	-	0
405	0	0	0	0	-	0
406	0	0	0	0	-	0
407	0	0	0	0	-	0
408	0	0	0	0	-	0
409	0.97	0.01	0.02	0	A	0.97
410	0.25	0	0.75	0	G	0.75
411	0.75	0.04	0.18	0.02	A	0.75
412	1	0	0	0	A	1
413	1	0	0	0	A	1
414	0.96	0	0.04	0	A	0.96
415	0	0	1	0	G	1
416	0	0	0	1	T	1
417	0.06	0.31	0.57	0.05	G	0.57
418	0.04	0	0.96	0	G	0.96
419	0	0	0	1	T	1
420	0.07	0.02	0.9	0.02	G	0.9
421	0	0.99	0	0	C	0.99
422	0	0	0	1	T	1
423	0.04	0.8	0.03	0.14	C	0.8
424	1	0	0	0	A	1
425	0.99	0	0.01	0	A	0.99
426	0.95	0	0.04	0	A	0.95
427	0	0	1	0	G	1
428	0	0	0	1	T	1
429	0.15	0.27	0.44	0.14	G	0.44
430	1	0	0	0	A	1
431	0	1	0	0	C	1
432	0	0.9	0.01	0.09	C	0.9
433	0.81	0	0.19	0	A	0.81
434	0	0	0	1	T	1
435	0.01	0.69	0.01	0.29	C	0.69
436	0	0	1	0	G	1
437	1	0	0	0	A	1
438	1	0	0	0	A	1
439	0	0	1	0	G	1
440	1	0	0	0	A	1
441	0	0.44	0	0.55	T	0.55
442	0	0	1	0	G	1
443	0	0	1	0	G	1
444	0	0.73	0	0.27	C	0.73
445	0	0	0	1	T	1
446	1	0	0	0	A	1
447	0	0.25	0	0.75	T	0.75
448	0	0	0	1	T	1
449	0	0	0	1	T	1
450	0	1	0	0	C	1
451	0	0.98	0	0.02	C	0.98
452	0	0	0	1	T	1
453	0.53	0.08	0.29	0.11	A	0.53
454	1	0	0	0	A	1
455	1	0	0	0	A	1
456	0	0.65	0	0.35	C	0.65
457	1	0	0	0	A	1
458	1	0	0	0	A	1
459	1	0	0	0	A	1
460	0	0	0	1	T	1
461	1	0	0	0	A	1
462	1	0	0	0	A	1


The most probable ancestral DNA sequence is:
ATGATCATTTTAGACAACTTAGAACAGTTCAAGCACGTTTATCGCGACGGTCGTAAATGGAACCGCTGCGTGGAGGCCATCAACAACATCGACAACATCAAGCCTGGCGTGACGCATTCCATTGGCGATTCTCTGGTTTATCGCGTTGAAGACGGCACCAGCAAACCAACCGCACTGTTTGAGGGCAACCGCCGCTACTTTGATGTGCATTACTACCTGGAAGGGCAGGAAACTGTTGAGTTTGCCGACAAAGCCGAGCTGACGCTAGAGGAGGCTTATCGCGATGAAACCGACCGCGAGTTTCTCACCGGTCAA---GGTGAGACCCATCAGGTTAACGAAGGCCAGGTGGTGATTTTCGAAAACGACGAAGCCTACCGCTTTATCGGTGACAACCCAGTA------AGAAAAGTGGTGCTCAAAGTGACCATCGAAGATGGCTATTTCCTAAACAAATAA

The most probable DNA sequence without gaps is:
ATGATCATTTTAGACAACTTAGAACAGTTCAAGCACGTTTATCGCGACGGTCGTAAATGGAACCGCTGCGTGGAGGCCATCAACAACATCGACAACATCAAGCCTGGCGTGACGCATTCCATTGGCGATTCTCTGGTTTATCGCGTTGAAGACGGCACCAGCAAACCAACCGCACTGTTTGAGGGCAACCGCCGCTACTTTGATGTGCATTACTACCTGGAAGGGCAGGAAACTGTTGAGTTTGCCGACAAAGCCGAGCTGACGCTAGAGGAGGCTTATCGCGATGAAACCGACCGCGAGTTTCTCACCGGTCAAGGTGAGACCCATCAGGTTAACGAAGGCCAGGTGGTGATTTTCGAAAACGACGAAGCCTACCGCTTTATCGGTGACAACCCAGTAAGAAAAGTGGTGCTCAAAGTGACCATCGAAGATGGCTATTTCCTAAACAAATAA

The accuracy score for that sequence is 0.841147902869757

The accuracy score is defined as the average probability of
the most probable bases.  It is NOT the probability that the
most probable sequence is correct.  That probability is 1.77462314972296e-42.
The natural log of that probability is -96.1349858153787.

Ancestral Protein Sequence:
Column headings:
MPAA = most probable amino acid, pMPAA = probability of MPAA
MPAA2 = second most probable amino acid, pMPAA2 = probability of MPAA2
Ratio = pMPAA/pMPAA2,  Unreliable means Ratio <1.5

MPAA	pMPAA	MPAA2	pMPAA2	Ratio
M	1	A	0	9999	
I	1	A	0	9999	
I	0.64	V	0.2	3.2	
L	0.842	F	0.158	5.32911392405063	
D	0.9604	N	0.0196	49	
N	0.71	S	0.28	2.53571428571429	
L	1	A	0	9999	
E	0.8455	D	0.1045	8.09090909090909	
Q	0.99	A	0	9999	
F	1	A	0	9999	
K	0.901692	Q	0.049005	18.4	
L	0.217616	H	0.156484	1.39065974796145	Unreliable
V	0.8712	I	0.114	7.64210526315789	
Y	1	A	0	9999	
R	0.99	H	0.0092	107.608695652174	
D	0.44688	N	0.34314	1.30232558139535	Unreliable
G	1	A	0	9999	
R	0.7869	H	0.08008	9.82642357642358	
K	1	A	0	9999	
W	1	A	0	9999	
N	0.5175	K	0.1794	2.88461538461538	
R	1	A	0	9999	
C	1	A	0	9999	
V	0.65	M	0.2345	2.77185501066098	
E	1	A	0	9999	
A	0.99	R	0	9999	
I	1	A	0	9999	
N	0.6478	K	0.1804	3.59090909090909	
N	1	A	0	9999	
I	0.9405	L	0.03	31.35	
D	0.673134	E	0.201066	3.34782608695652	
N	0.99	A	0	9999	
I	1	A	0	9999	
K	0.724493	Q	0.150544	4.8125	
P	0.8372	A	0.0736	11.375	
G	1	A	0	9999	
V	1	A	0	9999	
T	0.3481	A	0.2183	1.59459459459459	
H	0.99	Y	0.01	99	
S	1	A	0	9999	
I	0.98	M	0.01	98	
G	1	A	0	9999	
D	1	A	0	9999	
S	1	A	0	9999	
L	1	A	0	9999	
V	0.86355	A	0.09595	9	
Y	1	A	0	9999	
R	1	A	0	9999	
V	0.69	I	0.1463	4.71633629528366	
E	0.883476	D	0.086427	10.2222222222222	
D	0.324064	N	0.299136	1.08333333333333	Unreliable
G	0.95	D	0.047	20.2127659574468	
T	0.504	A	0.224	2.25	
T	0.192	G	0.1296	1.48148148148148	Unreliable
K	0.34592	Q	0.250792	1.37931034482759	Unreliable
P	0.656197	S	0.099459	6.59766335877095	
T	0.5934	N	0.140868	4.21245421245421	
A	0.756756	E	0.134848	5.61191860465116	
L	0.978318	P	0.009	108.702	
F	0.99	L	0.02	49.5	
E	0.7144	D	0.2162	3.30434782608696	
G	1	A	0	9999	
N	0.9118	H	0.0388	23.5	
R	0.99	A	0	9999	
R	1.01	A	0	9999	
Y	1	A	0	9999	
F	1	A	0	9999	
D	0.83	E	0.17	4.88235294117647	
V	1	A	0	9999	
H	1	A	0	9999	
Y	1	A	0	9999	
Y	1	A	0	9999	
L	1	A	0	9999	
E	0.97	D	0.04	24.25	
G	1.01	A	0	9999	
Q	0.626318	H	0.187082	3.34782608695652	
E	1	A	0	9999	
T	0.95	I	0.024	39.5833333333333	
V	0.5858	I	0.3906	1.49974398361495	Unreliable
E	1	A	0	9999	
F	0.903168	L	0.057232	15.7808219178082	
A	1.01	R	0	9999	
D	0.404005	A	0.2295	1.76037037037037	
K	1	A	0	9999	
A	0.165528	T	0.156816	1.05555555555556	Unreliable
E	0.375803	D	0.185097	2.03030303030303	
L	0.9972	F	0.0028	356.142857142857	
T	0.3135	K	0.220875	1.41935483870968	Unreliable
L	0.443128	P	0.291852	1.51833120896893	
E	0.8742	V	0.06	14.57	
E	0.43165	Q	0.310788	1.38888888888889	Unreliable
A	0.8099	G	0.0534	15.1666666666667	
Y	0.99	A	0	9999	
R	0.94381	H	0.024735	38.156862745098	
D	1	A	0	9999	
E	1	A	0	9999	
T	1.01	A	0	9999	
D	0.99	A	0	9999	
R	1	A	0	9999	
E	1	A	0	9999	
F	0.9215	L	0.0285	32.3333333333333	
L	0.7465	F	0.2535	2.94477317554241	
T	0.731313	S	0.088971	8.21967832214992	
G	1	A	0	9999	
Q	0.385866	X	0.169554	2.27577055097491	
	0	-	0	0
G	1	A	0	9999	
E	0.99	A	0	9999	
T	0.8134	S	0.053312	15.2573529411765	
H	0.399168	R	0.3663	1.08972972972973	Unreliable
Q	0.774774	H	0.08514	9.1	
V	0.61	L	0.292	2.08904109589041	
N	0.190512	H	0.183708	1.03703703703704	Unreliable
E	0.8722	Q	0.049	17.8	
G	1	A	0	9999	
Q	0.96	H	0.04	24	
V	0.92	M	0.0656	14.0243902439024	
V	0.891	A	0.099	9	
I	1	A	0	9999	
F	1	A	0	9999	
E	0.57	D	0.43	1.32558139534884	Unreliable
N	1	A	0	9999	
D	0.4158	H	0.2772	1.5	Unreliable
E	0.98	K	0.02	49	
A	1	R	0	9999	
Y	0.99	H	0.01	99	
R	0.99	A	0	9999	
F	0.99	A	0	9999	
I	0.256608	V	0.13365	1.92	
G	0.91	C	0.0376	24.2021276595745	
D	0.864864	N	0.085536	10.1111111111111	
N	0.5238	D	0.4365	1.2	Unreliable
P	0.343	R	0.2842	1.20689655172414	Unreliable
V	1	A	0	9999	
	0	-	0	0
	0	-	0	0
R	0.684	K	0.225525	3.03292317924842	
K	1	A	0	9999	
V	0.99	A	0	9999	
V	0.9696	M	0.036	26.9333333333333	
L	0.9999	A	0	9999	
K	0.9801	R	0.0099	99	
V	1	A	0	9999	
T	1	A	0	9999	
I	0.8019	V	0.19	4.22052631578947	
E	1	A	0	9999	
D	0.99	A	0	9999	
G	1	A	0	9999	
Y	1	A	0	9999	
F	1	A	0	9999	
L	1.0062	F	0.0038	264.789473684211	
N	1	A	0	9999	
K	1	A	0	9999	
X	1	A	0	9999	


The most probable ancestral protein sequence is:
MIILDNLEQFKLVYRDGRKWNRCVEAINNIDNIKPGVTHSIGDSLVYRVEDGTTKPTALFEGNRRYFDVHYYLEGQETVEFADKAELTLEEAYRDETDREFLTGQ-GETHQVNEGQVVIFENDEAYRFIGDNPV--RKVVLKVTIEDGYFLNKX

The most probable ancestral protein sequence without gaps is:
MIILDNLEQFKLVYRDGRKWNRCVEAINNIDNIKPGVTHSIGDSLVYRVEDGTTKPTALFEGNRRYFDVHYYLEGQETVEFADKAELTLEEAYRDETDREFLTGQGETHQVNEGQVVIFENDEAYRFIGDNPVRKVVLKVTIEDGYFLNKX

The accuracy score for that sequence is 0.847290139072847

The accuracy score is defined as the average probability of
the most probable amino acids.  It is NOT the probability that the
most probable sequence is correct.  That probability is 2.1295071217162e-15
The natural log of that probability is -33.7828858402214.

