Node 72
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	0.99	0	0.01	C	0.99
7	0.48	0	0.52	0	G	0.52
8	0	0	0	1	T	1
9	0.08	0.25	0.5	0.16	G	0.5
10	0	0.03	0	0.97	T	0.97
11	0	0	0	1	T	1
12	0.99	0	0.01	0	A	0.99
13	0	0	1	0	G	1
14	1	0	0	0	A	1
15	0.01	0.87	0.02	0.1	C	0.87
16	1	0	0	0	A	1
17	0.47	0	0.53	0	G	0.53
18	0	1	0	0	C	1
19	0	0.01	0	0.99	T	0.99
20	0	0	0	1	T	1
21	0.99	0	0.01	0	A	0.99
22	0	0	1	0	G	1
23	0.99	0	0	0	A	0.99
24	0.64	0.01	0.34	0.01	A	0.64
25	0	1	0	0	C	1
26	1	0	0	0	A	1
27	0.96	0	0.03	0	A	0.96
28	0	0	0	1	T	1
29	0	0	0	1	T	1
30	0	0.84	0	0.16	C	0.84
31	0.99	0	0.01	0	A	0.99
32	1	0	0	0	A	1
33	0.57	0	0.42	0	A	0.57
34	0.03	0.6	0.15	0.21	C	0.6
35	0.12	0.19	0.05	0.65	T	0.65
36	0.05	0.32	0.57	0.05	G	0.57
37	0.02	0	0.98	0	G	0.98
38	0	0	0	1	T	1
39	0.19	0.3	0.17	0.35	T	0.35
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	0	1	0	G	1
45	0.01	0.73	0.01	0.25	C	0.73
46	0.61	0	0.39	0	A	0.61
47	0.99	0	0.01	0	A	0.99
48	0.02	0.78	0.02	0.19	C	0.78
49	0	0	1	0	G	1
50	0	0	1	0	G	1
51	0.02	0.22	0.02	0.74	T	0.74
52	0	1	0	0	C	1
53	0.01	0	0.99	0	G	0.99
54	0.07	0.11	0.13	0.69	T	0.69
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	1	0	0	0	A	1
62	1	0	0	0	A	1
63	0.01	0.72	0.02	0.25	C	0.72
64	0	1	0	0	C	1
65	0	0	1	0	G	1
66	0	0.91	0	0.09	C	0.91
67	0	0	0	1	T	1
68	0	0	1	0	G	1
69	0	0.68	0	0.32	C	0.68
70	0.28	0	0.72	0	G	0.72
71	0	0	0	1	T	1
72	0.24	0.01	0.75	0.01	G	0.75
73	0	0	1	0	G	1
74	1	0	0	0	A	1
75	0.95	0	0.05	0	A	0.95
76	0	0	1	0	G	1
77	0	1	0	0	C	1
78	0.02	0.74	0.07	0.16	C	0.74
79	1	0	0	0	A	1
80	0	0	0	1	T	1
81	0	0.08	0	0.92	T	0.92
82	0.15	0	0.85	0	G	0.85
83	1	0	0	0	A	1
84	0.17	0.44	0.23	0.16	C	0.44
85	1	0	0	0	A	1
86	1	0	0	0	A	1
87	0	0.89	0	0.11	C	0.89
88	1	0	0	0	A	1
89	0	0	0	1	T	1
90	0	0.89	0	0.1	C	0.89
91	0.01	0	0.99	0	G	0.99
92	0.88	0.01	0.1	0	A	0.88
93	0.09	0.71	0.06	0.13	C	0.71
94	1	0	0	0	A	1
95	1	0	0	0	A	1
96	0	0.75	0	0.24	C	0.75
97	1	0	0	0	A	1
98	0	0	0	1	T	1
99	0	1	0	0	C	1
100	0.97	0.01	0.01	0	A	0.97
101	0.99	0	0.01	0	A	0.99
102	0.93	0	0.07	0	A	0.93
103	0	0	1	0	G	1
104	1	0	0	0	A	1
105	0.02	0.38	0.02	0.58	T	0.58
106	0	0	1	0	G	1
107	0	0	1	0	G	1
108	0	0.99	0	0.01	C	0.99
109	0	0	1	0	G	1
110	0	0	0	1	T	1
111	0.22	0.01	0.76	0.01	G	0.76
112	0.96	0	0.04	0	A	0.96
113	0	0.04	0	0.96	T	0.96
114	0.03	0.01	0.95	0.01	G	0.95
115	0	1	0	0	C	1
116	1	0	0	0	A	1
117	0	0.61	0	0.39	C	0.61
118	0	0	0	1	T	1
119	0	1	0	0	C	1
120	0.09	0.17	0.5	0.24	G	0.5
121	1	0	0	0	A	1
122	0	0	0	1	T	1
123	0.01	0.24	0.01	0.75	T	0.75
124	0	0	1	0	G	1
125	0	0	1	0	G	1
126	0.02	0.51	0.04	0.43	C	0.51
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	0.26	0.12	0.13	0.49	T	0.49
133	0	1	0	0	C	1
134	0	0	0	1	T	1
135	0	0	1	0	G	1
136	0	0	1	0	G	1
137	0	0	0	1	T	1
138	0.01	0.12	0.01	0.86	T	0.86
139	0	0	0	1	T	1
140	1	0	0	0	A	1
141	0	0.49	0	0.51	T	0.51
142	0.99	0.01	0	0	A	0.99
143	0	0	0	1	T	1
144	0.02	0.05	0.93	0.01	G	0.93
145	0.21	0.01	0.78	0	G	0.78
146	0	0	0	1	T	1
147	0.01	0.07	0.02	0.91	T	0.91
148	0	0	1	0	G	1
149	0.99	0	0	0	A	0.99
150	0.88	0.01	0.1	0.01	A	0.88
151	0.38	0	0.62	0	G	0.62
152	0.85	0.12	0.02	0.01	A	0.85
153	0.02	0.74	0.02	0.22	C	0.74
154	0.01	0	0.99	0	G	0.99
155	0.04	0	0.96	0	G	0.96
156	0.01	0.74	0.01	0.24	C	0.74
157	0.76	0.02	0.21	0.01	A	0.76
158	0.08	0.65	0.03	0.25	C	0.65
159	0.33	0.38	0.18	0.11	C	0.38
160	0.68	0	0.32	0	A	0.68
161	0.42	0.26	0.3	0.02	A	0.42
162	0.4	0.28	0.19	0.13	A	0.4
163	0.6	0.22	0.12	0.07	A	0.6
164	0.97	0	0.02	0	A	0.97
165	0.88	0.01	0.11	0.01	A	0.88
166	0.01	0.94	0.01	0.04	C	0.94
167	0.67	0.15	0.16	0.02	A	0.67
168	0.69	0.04	0.24	0.02	A	0.69
169	0.99	0	0.01	0	A	0.99
170	0.01	0.96	0	0.03	C	0.96
171	0.02	0.73	0.02	0.24	C	0.73
172	0	0	1	0	G	1
173	0.94	0.04	0.02	0.01	A	0.94
174	0.67	0.1	0.19	0.04	A	0.67
175	0.01	0.96	0	0.03	C	0.96
176	0	0	0	1	T	1
177	0.06	0.02	0.91	0.01	G	0.91
178	0	0	0	1	T	1
179	0	0	0	1	T	1
180	0	0.39	0	0.61	T	0.61
181	0.02	0	0.98	0	G	0.98
182	0.96	0	0.01	0.03	A	0.96
183	0.36	0.18	0.43	0.04	G	0.43
184	0	0	1	0	G	1
185	0	0	1	0	G	1
186	0.03	0.47	0.09	0.4	C	0.47
187	1	0	0	0	A	1
188	1	0	0	0	A	1
189	0	0.93	0	0.06	C	0.93
190	0	1	0	0	C	1
191	0	0	1	0	G	1
192	0	0.53	0	0.47	C	0.53
193	0	1	0	0	C	1
194	0	0	1	0	G	1
195	0	0.43	0	0.56	T	0.56
196	0	0	0	1	T	1
197	1	0	0	0	A	1
198	0	0.95	0	0.05	C	0.95
199	0	0	0	1	T	1
200	0	0	0	1	T	1
201	0	0.56	0	0.44	C	0.56
202	0	0	1	0	G	1
203	1	0	0	0	A	1
204	0.03	0.09	0.07	0.81	T	0.81
205	0	0	1	0	G	1
206	0	0	0	1	T	1
207	0	0	1	0	G	1
208	0	1	0	0	C	1
209	1	0	0	0	A	1
210	0	0.08	0	0.92	T	0.92
211	0	0	0	1	T	1
212	1	0	0	0	A	1
213	0	0.99	0	0.01	C	0.99
214	0	0	0	1	T	1
215	1	0	0	0	A	1
216	0	1	0	0	C	1
217	0	0.99	0	0.01	C	0.99
218	0	0	0	1	T	1
219	0.36	0.23	0.32	0.09	A	0.36
220	0	0	1	0	G	1
221	0.99	0	0	0	A	0.99
222	0.96	0	0.03	0	A	0.96
223	0	0	1	0	G	1
224	0	0	1	0	G	1
225	0.04	0.37	0.05	0.54	T	0.54
226	0.01	0.95	0.01	0.04	C	0.95
227	0.82	0	0.18	0	A	0.82
228	0.07	0.27	0.07	0.58	T	0.58
229	0	0	1	0	G	1
230	1	0	0	0	A	1
231	0.88	0	0.12	0	A	0.88
232	0.98	0	0.02	0	A	0.98
233	0	0.96	0	0.04	C	0.96
234	0.03	0.32	0.03	0.61	T	0.61
235	0.36	0	0.64	0	G	0.64
236	0	0	0	1	T	1
237	0.03	0.12	0.1	0.75	T	0.75
238	0	0	1	0	G	1
239	1	0	0	0	A	1
240	0.02	0	0.98	0	G	0.98
241	0	0.01	0	0.99	T	0.99
242	0	0	0	1	T	1
243	0.01	0.61	0.01	0.38	C	0.61
244	0	0	1	0	G	1
245	0	1	0	0	C	1
246	0.18	0.53	0.17	0.11	C	0.53
247	0.14	0	0.86	0	G	0.86
248	0.73	0.02	0.23	0.01	A	0.73
249	0.01	0.76	0.01	0.23	C	0.76
250	1	0	0	0	A	1
251	1	0	0	0	A	1
252	1	0	0	0	A	1
253	0.29	0.08	0.29	0.33	T	0.33
254	0.02	0.89	0.02	0.07	C	0.89
255	0.01	0.86	0.02	0.1	C	0.86
256	0.06	0	0.93	0	G	0.93
257	0.89	0.02	0.07	0.02	A	0.89
258	0.19	0.2	0.29	0.32	T	0.32
259	0	0.76	0	0.23	C	0.76
260	0	0	0	1	T	1
261	0.35	0.01	0.63	0.01	G	0.63
262	0.99	0	0.01	0	A	0.99
263	0.31	0.33	0.29	0.07	C	0.33
264	0.42	0.27	0.24	0.07	A	0.42
265	0.02	0.89	0.02	0.07	C	0.89
266	0	0.07	0	0.93	T	0.93
267	0.61	0.07	0.15	0.16	A	0.61
268	0	0	1	0	G	1
269	1	0	0	0	A	1
270	0.18	0.01	0.81	0.01	G	0.81
271	0.01	0.93	0.04	0.03	C	0.93
272	0.99	0	0.01	0	A	0.99
273	0.63	0.02	0.34	0.02	A	0.63
274	0.01	0.08	0.89	0.02	G	0.89
275	0.02	0.91	0.06	0.01	C	0.91
276	0.24	0.15	0.05	0.56	T	0.56
277	0	0	0	1	T	1
278	1	0	0	0	A	1
279	0	0.03	0	0.96	T	0.96
280	0	1	0	0	C	1
281	0.03	0	0.97	0	G	0.97
282	0.43	0.33	0.06	0.18	A	0.43
283	0	0	1	0	G	1
284	1	0	0	0	A	1
285	0	0.06	0	0.94	T	0.94
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	0.53	0	0.46	C	0.53
292	0	0	1	0	G	1
293	1	0	0	0	A	1
294	0	0.99	0	0.01	C	0.99
295	0	1	0	0	C	1
296	0	0	1	0	G	1
297	0.05	0.77	0.03	0.15	C	0.77
298	0	0	1	0	G	1
299	1	0	0	0	A	1
300	0.52	0	0.48	0	A	0.52
301	0	0	0	1	T	1
302	0	0	0	1	T	1
303	0	0.08	0	0.91	T	0.91
304	0	0.53	0	0.47	C	0.53
305	0	0	0	1	T	1
306	0.03	0.66	0.09	0.22	C	0.66
307	0.05	0.03	0.01	0.91	T	0.91
308	0	0.99	0	0	C	0.99
309	0.04	0.51	0.02	0.43	C	0.51
310	0	0	1	0	G	1
311	0	0	1	0	G	1
312	0.05	0.21	0.04	0.7	T	0.7
313	0.03	0.85	0.02	0.1	C	0.85
314	0.99	0	0.01	0	A	0.99
315	0.73	0.05	0.2	0.03	A	0.73
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	0.01	0.07	0.01	0.91	T	0.91
322	0	0	1	0	G	1
323	1	0	0	0	A	1
324	0.24	0	0.76	0	G	0.76
325	0.98	0.01	0.01	0	A	0.98
326	0.03	0.85	0.08	0.03	C	0.85
327	0.25	0.2	0.1	0.44	T	0.44
328	0	1	0	0	C	1
329	0.08	0	0.91	0	G	0.91
330	0.02	0.19	0.02	0.77	T	0.77
331	0.03	0.06	0.9	0.01	G	0.9
332	1	0	0	0	A	1
333	0.2	0.01	0.77	0.02	G	0.77
334	0.03	0.46	0.44	0.07	C	0.46
335	0	0	0	1	T	1
336	0.07	0.22	0.09	0.62	T	0.62
337	0.06	0.26	0.04	0.64	T	0.64
338	0.81	0	0.18	0	A	0.81
339	0.02	0.73	0.02	0.22	C	0.73
340	0.02	0.07	0.9	0.01	G	0.9
341	1	0	0	0	A	1
342	0.98	0	0.02	0	A	0.98
343	0	0	1	0	G	1
344	0	0	1	0	G	1
345	0.1	0.69	0.07	0.13	C	0.69
346	0	1	0	0	C	1
347	1	0	0	0	A	1
348	0.69	0	0.3	0	A	0.69
349	0.01	0	0.99	0	G	0.99
350	0	0	0	1	T	1
351	0.11	0.01	0.87	0.01	G	0.87
352	0	0	1	0	G	1
353	0	0.44	0	0.56	T	0.56
354	0.37	0.02	0.58	0.02	G	0.58
355	1	0	0	0	A	1
356	0	0	0	1	T	1
357	0	0.03	0	0.97	T	0.97
358	0	0	0	1	T	1
359	0	0	0	1	T	1
360	0	0.49	0	0.51	T	0.51
361	0	0	1	0	G	1
362	1	0	0	0	A	1
363	0.41	0.19	0.1	0.3	A	0.41
364	1	0	0	0	A	1
365	1	0	0	0	A	1
366	0	0.94	0	0.06	C	0.94
367	0.31	0.05	0.61	0.02	G	0.61
368	0.99	0	0.01	0	A	0.99
369	0	0.66	0	0.34	C	0.66
370	0.17	0	0.83	0	G	0.83
371	1	0	0	0	A	1
372	0.98	0	0.02	0	A	0.98
373	0	0	1	0	G	1
374	0	1	0	0	C	1
375	0.1	0.07	0.78	0.05	G	0.78
376	0	0.01	0	0.99	T	0.99
377	1	0	0	0	A	1
378	0	0.98	0	0.02	C	0.98
379	0	1	0	0	C	1
380	0	0	1	0	G	1
381	0.1	0.7	0.06	0.14	C	0.7
382	0	0	0	1	T	1
383	0	0	0	1	T	1
384	0	0.49	0	0.51	T	0.51
385	0.15	0.59	0.21	0.04	C	0.59
386	0.53	0.08	0.05	0.34	A	0.53
387	0	0.98	0	0.02	C	0.98
388	0.05	0	0.95	0	G	0.95
389	0	0	1	0	G	1
390	0.01	0.17	0.01	0.81	T	0.81
391	0.1	0	0.9	0	G	0.9
392	1	0	0	0	A	1
393	0.01	0.86	0.01	0.13	C	0.86
394	0.68	0	0.31	0	A	0.68
395	1	0	0	0	A	1
396	0	0.99	0.01	0.01	C	0.99
397	0	1	0	0	C	1
398	0.14	0.28	0.56	0.02	G	0.56
399	0.59	0.09	0.23	0.08	A	0.59
400	0	0	1	0	G	1
401	0	0.01	0	0.99	T	0.99
402	0.76	0.03	0.17	0.04	A	0.76
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	0.01	0	A	0.97
410	0.03	0	0.97	0	G	0.97
411	0.84	0.04	0.1	0.02	A	0.84
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	0.04	0.27	0.65	0.04	G	0.65
418	0	0	1	0	G	1
419	0	0	0	1	T	1
420	0.01	0	0.98	0	G	0.98
421	0	1	0	0	C	1
422	0	0	0	1	T	1
423	0.01	0.84	0.02	0.13	C	0.84
424	1	0	0	0	A	1
425	1	0	0	0	A	1
426	0.99	0	0.01	0	A	0.99
427	0	0	1	0	G	1
428	0	0	0	1	T	1
429	0.1	0.2	0.61	0.09	G	0.61
430	1	0	0	0	A	1
431	0	1	0	0	C	1
432	0	0.95	0	0.04	C	0.95
433	0.98	0	0.02	0	A	0.98
434	0	0	0	1	T	1
435	0	0.91	0	0.09	C	0.91
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	0.03	0	0.97	T	0.97
442	0	0	1	0	G	1
443	0	0	1	0	G	1
444	0	0.95	0	0.04	C	0.95
445	0	0	0	1	T	1
446	1	0	0	0	A	1
447	0	0.51	0	0.49	C	0.51
448	0	0	0	1	T	1
449	0	0	0	1	T	1
450	0	1	0	0	C	1
451	0	0.97	0	0.03	C	0.97
452	0	0	0	1	T	1
453	0.82	0.01	0.15	0.02	A	0.82
454	1	0	0	0	A	1
455	1	0	0	0	A	1
456	0	0.49	0	0.51	T	0.51
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:
ATGATCGTGTTAGACAGCTTAGAACAATTCAAACTGGTTTATCGCAACGGTCGTAAATGGAACCGCTGCGTGGAAGCCATTGACAACATCGACAACATCAAAGATGGCGTGATGCACTCGATTGGCGATTCTCTGGTTTATATGGTTGAAGACGGCACCAAAAAACAAACCGAACTGTTTGAGGGCAACCGCCGTTACTTCGATGTGCATTACTACCTAGAAGGTCATGAAACTGTTGAGTTCGCCGACAAATCCGATCTGACACTAGAGCAAGCTTATCGAGATGAAACCGACCGCGAATTTCTCTCCGGTCAA---GGTGAGACTCGTGAGCTTTACGAAGGCCAAGTGGTGATTTTTGAAAACGACGAAGCGTACCGCTTTCACGGTGACAACCGAGTA------AGAAAAGTGGTGCTCAAAGTGACCATCGAAGATGGCTACTTCCTAAATAAATAA

The most probable DNA sequence without gaps is:
ATGATCGTGTTAGACAGCTTAGAACAATTCAAACTGGTTTATCGCAACGGTCGTAAATGGAACCGCTGCGTGGAAGCCATTGACAACATCGACAACATCAAAGATGGCGTGATGCACTCGATTGGCGATTCTCTGGTTTATATGGTTGAAGACGGCACCAAAAAACAAACCGAACTGTTTGAGGGCAACCGCCGTTACTTCGATGTGCATTACTACCTAGAAGGTCATGAAACTGTTGAGTTCGCCGACAAATCCGATCTGACACTAGAGCAAGCTTATCGAGATGAAACCGACCGCGAATTTCTCTCCGGTCAAGGTGAGACTCGTGAGCTTTACGAAGGCCAAGTGGTGATTTTTGAAAACGACGAAGCGTACCGCTTTCACGGTGACAACCGAGTAAGAAAAGTGGTGCTCAAAGTGACCATCGAAGATGGCTACTTCCTAAATAAATAA

The accuracy score for that sequence is 0.887814569536424

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 4.23031091610193e-29.
The natural log of that probability is -65.3326922038458.

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	
V	0.5148	M	0.24	2.145	
L	1	A	0	9999	
D	0.97	E	0.03	32.3333333333333	
S	0.53	N	0.47	1.12765957446809	Unreliable
L	1	A	0	9999	
E	0.9702	D	0.0198	49	
Q	0.99	A	0	9999	
F	1	A	0	9999	
K	0.9801	E	0.0099	99	
L	0.47073	P	0.11286	4.1709197235513	
V	0.9898	I	0.0168	58.9166666666667	
Y	1	A	0	9999	
R	1	A	0	9999	
N	0.585783	D	0.374517	1.56410256410256	
G	1	A	0	9999	
R	0.99	H	0.008	123.75	
K	1	A	0	9999	
W	1	A	0	9999	
N	0.97	K	0.03	32.3333333333333	
R	1	A	0	9999	
C	1	A	0	9999	
V	0.7272	M	0.21	3.46285714285714	
E	1	A	0	9999	
A	0.99	R	0	9999	
I	1	A	0	9999	
D	0.51	E	0.34	1.5	
N	1	A	0	9999	
I	0.99	A	0	9999	
D	0.731808	E	0.13068	5.6	
N	0.99	A	0	9999	
I	1	A	0	9999	
K	0.9603	E	0.0099	97	
D	0.96	E	0.04	24	
G	1	A	0	9999	
V	1	A	0	9999	
M	0.87552	I	0.04608	19	
H	1	A	0	9999	
S	1	A	0	9999	
I	1	M	0.01	100	
G	1	A	0	9999	
D	1	A	0	9999	
S	1	A	0	9999	
L	1	A	0	9999	
V	1	A	0	9999	
Y	1	A	0	9999	
M	0.9207	I	0.0792	11.625	
V	0.7878	I	0.2079	3.78932178932179	
E	0.9702	D	0.0198	49	
D	0.50592	N	0.31008	1.63157894736842	
G	0.9504	D	0.038808	24.4897959183673	
T	0.494	I	0.1558	3.17073170731707	
T	0.1768	K	0.168504	1.04923325262308	Unreliable
K	0.57618	Q	0.211266	2.72727272727273	
Q	0.585714	R	0.150384	3.89478933929141	
T	0.959904	I	0.029403	32.6464646464647	
E	0.8084	D	0.1316	6.14285714285714	
L	0.9891	M	0.0091	108.692307692308	
F	1	A	0	9999	
E	0.743232	D	0.206976	3.59090909090909	
G	0.99	A	0	9999	
N	0.99	A	0	9999	
R	1	A	0	9999	
R	0.99	A	0	9999	
Y	1	A	0	9999	
F	1	A	0	9999	
D	0.9	E	0.1	9	
V	1	A	0	9999	
H	1	A	0	9999	
Y	1	A	0	9999	
Y	1	A	0	9999	
L	0.9968	F	0.0032	311.5	
E	0.9801	A	0	9999	
G	1	A	0	9999	
H	0.66215	R	0.169542	3.90552193556759	
E	1	A	0	9999	
T	0.931392	I	0.037632	24.75	
V	0.64	I	0.324	1.97530864197531	
E	1	A	0	9999	
F	0.9801	L	0.0299	32.7792642140468	
A	0.99	R	0	9999	
D	0.621522	G	0.199778	3.11106328024107	
K	1	A	0	9999	
S	0.296331	A	0.255519	1.15972197762202	Unreliable
D	0.430404	E	0.397296	1.08333333333333	Unreliable
L	0.9854	F	0.0046	214.217391304348	
T	0.3267	K	0.202554	1.61290322580645	
L	0.868899	P	0.061677	14.0878933800282	
E	0.99	D	0.02	49.5	
Q	0.893079	E	0.038412	23.25	
A	0.8099	P	0.0728	11.125	
Y	0.99	A	0	9999	
R	0.97	H	0.0153	63.3986928104575	
D	1	A	0	9999	
E	1	A	0	9999	
T	0.99	A	0	9999	
D	1	A	0	9999	
R	1	A	0	9999	
E	1	A	0	9999	
F	0.99	A	0	9999	
L	0.5864	F	0.4136	1.41779497098646	Unreliable
S	0.9009	T	0.0495	18.2	
G	1	A	0	9999	
Q	0.782595	X	0.0928	8.43313577586207	
	0	-	0	0
G	1	A	0	9999	
E	1	A	0	9999	
T	0.82467	S	0.050176	16.435546875	
R	0.91	H	0.0768	11.8489583333333	
E	0.873	Q	0.0582	15	
L	0.4712	V	0.44	1.07090909090909	Unreliable
Y	0.49248	H	0.20007	2.46153846153846	
E	0.9	Q	0.07	12.8571428571429	
G	0.99	A	0	9999	
Q	0.99	A	0	9999	
V	0.99	M	0.0087	113.793103448276	
V	0.5544	A	0.4356	1.27272727272727	Unreliable
I	1	A	0	9999	
F	1	A	0	9999	
E	0.51	D	0.49	1.04081632653061	Unreliable
N	1	A	0	9999	
D	0.6039	N	0.3069	1.96774193548387	
E	0.83	K	0.17	4.88235294117647	
A	1	R	0	9999	
Y	0.99	H	0.01	99	
R	1	A	0	9999	
F	1	A	0	9999	
H	0.3127	L	0.2006	1.55882352941176	
G	0.95	S	0.049	19.3877551020408	
D	0.891	N	0.099	9	
N	0.68	D	0.31	2.19354838709677	
R	0.5544	P	0.2772	2	
V	0.99	A	0.01	99	
	0	-	0	0
	0	-	0	0
R	0.894146	S	0.056454	15.8384879725086	
K	1	A	0	9999	
V	1	A	0	9999	
V	0.99	A	0	9999	
L	1	A	0	9999	
K	1	A	0	9999	
V	1	A	0	9999	
T	0.99	A	0	9999	
I	0.98	V	0.02	49	
E	1	A	0	9999	
D	1	A	0	9999	
G	0.99	A	0	9999	
Y	1	A	0	9999	
F	1	A	0	9999	
L	0.9991	F	0.0009	1110.11111111111	
N	1	A	0	9999	
K	1	A	0	9999	
X	1	A	0	9999	


The most probable ancestral protein sequence is:
MIVLDSLEQFKLVYRNGRKWNRCVEAIDNIDNIKDGVMHSIGDSLVYMVEDGTTKQTELFEGNRRYFDVHYYLEGHETVEFADKSDLTLEQAYRDETDREFLSGQ-GETRELYEGQVVIFENDEAYRFHGDNRV--RKVVLKVTIEDGYFLNKX

The most probable ancestral protein sequence without gaps is:
MIVLDSLEQFKLVYRNGRKWNRCVEAIDNIDNIKDGVMHSIGDSLVYMVEDGTTKQTELFEGNRRYFDVHYYLEGHETVEFADKSDLTLEQAYRDETDREFLSGQGETRELYEGQVVIFENDEAYRFHGDNRVRKVVLKVTIEDGYFLNKX

The accuracy score for that sequence is 0.892703701986755

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 2.49184336060166e-10
The natural log of that probability is -22.1128281878922.

