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ancestral_sequence_inference.py
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ancestral_sequence_inference.py
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from __future__ import print_function, division
import numpy as np
from Bio import Phylo
import matplotlib.pyplot as plt
from treetime import TreeAnc
import treetime
if __name__ == '__main__':
plt.ion()
# path to data
base_name = '../data/h3n2_na/h3n2_na_200'
# instantiate treetime
myTree = TreeAnc(gtr='Jukes-Cantor', tree=base_name+".nwk", aln=base_name+'.fasta', verbose = 0)
# infer a GTR model and ML ancestral sequences, either marginally or jointly most likely
myTree.infer_ancestral_sequences(infer_gtr=True, marginal=True)
# lets examine the properties of a node in the tree after ancestral inference
node = myTree.tree.get_nonterminals()[7]
# each node now has an inferred sequence
if treetime.version<"0.7":
print("\nthe inferred sequences is an array of characters:", node.sequence)
else:
print("\nthe inferred sequences is an array of characters:", myTree.sequence(node, as_string=False))
# in addition, each node of the tree now has an mutation object attached
# note that the mutation numbering starts at 0 rather than 1
print("\nmutations on the branch leading to node %s:"%node.name, node.mutations)
# we can readily verify these mutations by checking the inferred sequences
if node.mutations:
mut = node.mutations[0]
if treetime.version<"0.7":
print("\nmutation %s%d%s corresponds to"%mut,
"parent state: %s, child state %s\n\n"%(node.up.sequence[mut[1]], node.sequence[mut[1]]))
else:
print("\nmutation %s%d%s corresponds to"%mut,
"parent state: %s, child state %s\n\n"%(myTree.sequence(node.up)[mut[1]], myTree.sequence(node)[mut[1]]))
# plot the tree and label branches by mutation
fig, ax = plt.subplots(1,1,figsize=(18,13))
ax.set_title("branches annotated by inferred mutations", fontsize=18)
ax.set_axis_off()
Phylo.draw(myTree.tree, label_func = lambda x:"", axes=ax,
branch_labels=lambda x:", ".join(map(lambda m: "%s%d%s"%m, x.mutations[:3]))
+('...' if len(x.mutations)>3 else ""))
# finally, we print the inferred GTR model
print(myTree.gtr)