Пример #1
0
def calc_nonepitope_star_distance(tree, attr='ne_star', seasons = []):
	'''
	calculates the distance at nonepitope sites of any tree node to ref
	tree   --   dendropy tree
	attr   --   the attribute name used to save the result
	'''
	if not hasattr(tree, "nonepitope_star_distance_assigned") or tree.nonepitope_star_distance_assigned==False:
		setup_epitope_mask()	
		for node in tree.postorder_node_iter():
			if len(node.season_tips) and node!=tree.seed_node:
				if not hasattr(node, 'aa'):
					node.aa = translate(node.seq)
				tmp_node = node.parent_node
				cur_season = min(node.season_tips.keys())
				prev_season = seasons[max(0,seasons.index(cur_season)-1)]
				while True:
					if tmp_node!=tree.seed_node:
						if prev_season in tmp_node.season_tips and len(tmp_node.season_tips[prev_season])>0:
							break
						else:
							tmp_node=tmp_node.parent_node
					else:
						break
				if not hasattr(tmp_node, 'aa'):
					tmp_node.aa = translate(tmp_node.seq)
				node.__setattr__(attr, nonepitope_distance(node.aa, tmp_node.aa))
			else:
				node.__setattr__(attr, np.nan)				
		tree.nonepitope_star_distance_assigned=True
Пример #2
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    def calc_rbs_distance(self, tree, attr='rb', ref=None):
        '''
		calculates the distance at receptor binding sites of any tree node to ref
		tree   --   dendropy tree
		attr   --   the attribute name used to save the result
		'''
        if ref == None:
            ref = translate(tree.seed_node.seq)
        for node in tree.postorder_node_iter():
            if not hasattr(node, 'aa'):
                node.aa = translate(node.seq)
            node.__setattr__(attr, self.rbs_distance(node.aa, ref))
Пример #3
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    def calc_nonepitope_distance(self, tree, attr='ne', ref=None):
        '''
		calculates -1 * distance at nonepitope sites of each node in tree to ref
		tree   --   dendropy tree
		attr   --   the attribute name used to save the result
		'''
        if ref == None:
            ref = translate(tree.seed_node.seq)
        for node in tree.postorder_node_iter():
            if not hasattr(node, 'aa'):
                node.aa = translate(node.seq)
            distance = self.nonepitope_distance(node.aa, ref)
            node.__setattr__(attr, -1 * distance)
Пример #4
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def calc_rbs_distance(tree, attr='rb', ref = None):
	'''
	calculates the distance at receptor binding sites of any tree node to ref
	tree   --   dendropy tree
	attr   --   the attribute name used to save the result
	'''
	if not hasattr(tree, "rbs_distance_assigned") or tree.rbs_distance_assigned==False:
		if ref == None:
			ref = translate(tree.seed_node.seq)
		for node in tree.postorder_node_iter():
			if not hasattr(node, 'aa'):
				node.aa = translate(node.seq)
			node.__setattr__(attr, rbs_distance(node.aa, ref))
		tree.rbs_distance_assigned=True
Пример #5
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def calc_nonepitope_distance(tree, attr="ne", ref=None):
    """
	calculates the distance at nonepitope sites of any tree node to ref
	tree   --   dendropy tree
	attr   --   the attribute name used to save the result
	"""
    if not hasattr(tree, "nonepitope_distance_assigned") or tree.nonepitope_distance_assigned == False:
        if ref == None:
            ref = translate(tree.seed_node.seq)
        for node in tree.postorder_node_iter():
            if not hasattr(node, "aa"):
                node.aa = translate(node.seq)
            node.__setattr__(attr, nonepitope_distance(node.aa, ref))
        tree.nonepitope_distance_assigned = True
Пример #6
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def calc_epitope_distance(tree, attr='ep', ref = None):
	'''
	calculates the distance at epitope sites of any tree node  to ref
	tree   --   dendropy tree
	attr   --   the attribute name used to save the result
	'''
	if not hasattr(tree, "epitope_distance_assigned") or tree.epitope_distance_assigned==False:
		setup_epitope_mask()	
		if ref == None:
			ref = translate(tree.seed_node.seq)
		for node in tree.postorder_node_iter():
			if not hasattr(node, 'aa'):
				node.aa = translate(node.seq)
			node.__setattr__(attr, epitope_distance(node.aa, ref))
		tree.epitope_distance_assigned=True
Пример #7
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def  calc_tolerance(tree, attr='tol'):
	'''
	calculates the distance at epitope sites of any tree node  to ref
	tree   --   dendropy tree
	attr   --   the attribute name used to save the result
	'''
	from Bio import AlignIO
	aa, sites, wt_aa, aa_prob = load_mutational_tolerance()
	aln = AlignIO.read('/Users/yujiazhou/Documents/nextflu/H9_nextflu-master/augur/source-data/H1_H3.fasta', 'fasta')
	# returns true whenever either of the sequences have a gap
	aligned = (np.array(aln)!='-').min(axis=0)
	# map alignment positions to sequence positions, subset to aligned amino acids
	indices = {}
	for seq in aln:
		indices[seq.name] = (np.cumsum(np.fromstring(str(seq.seq), dtype='S1')!='-')-1)[aligned]

	# make a reduced set of amino-acid probabilities that only contains aligned positions
	aa_prob=aa_prob[indices['H1'],:]
	# attach another column for non-canonical amino acids

	aa_prob = np.hstack((aa_prob, 1e-5*np.ones((aa_prob.shape[0],1))))	
	if not hasattr(tree, "tolerance_assigned") or tree.tolerance_assigned==False:
		for node in tree.postorder_node_iter():
			if not hasattr(node, 'aa'):
				node.aa = translate(node.seq)
			node.__setattr__(attr, calc_fitness_tolerance(node.aa, aa_prob, aa, indices['H3']))
		tree.tolerance_assigned=True
Пример #8
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    def calc_epitope_cross_immunity(self,
                                    tree,
                                    timepoint,
                                    window=2.0,
                                    attr='ep_x'):
        '''
		calculates the distance at epitope sites to contemporaneous viruses
		this should capture cross-immunity of circulating viruses
		meant to be used in conjunction with epitope_distance that focuses
		on escape from previous human immunity
		tree   --   dendropy tree
		attr   --   the attribute name used to save the result
		'''
        comparison_nodes = []
        for node in tree.postorder_node_iter():
            if node.is_leaf():
                if node.num_date < timepoint and node.num_date > timepoint - window:
                    comparison_nodes.append(node)
            if not hasattr(node, 'np_ep'):
                if not hasattr(node, 'aa'):
                    node.aa = translate(node.seq)
                node.np_ep = np.array(list(self.epitope_sites(node.aa)))
        print "calculating cross-immunity to " + str(
            len(comparison_nodes)) + " comparison nodes"
        for node in tree.postorder_node_iter():
            mean_distance = 0
            count = 0
            for comp_node in comparison_nodes:
                mean_distance += self.fast_epitope_distance(
                    node.np_ep, comp_node.np_ep)
                count += 1
            if count > 0:
                mean_distance /= float(count)
            node.__setattr__(attr, mean_distance)
Пример #9
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    def calc_epitope_distance(self, tree, attr='ep', ref=None):
        '''
		calculates the distance at epitope sites of any tree node to ref
		tree   --   dendropy tree
		attr   --   the attribute name used to save the result
		'''
        for node in tree.postorder_node_iter():
            if not hasattr(node, 'np_ep'):
                if not hasattr(node, 'aa'):
                    node.aa = translate(node.seq)
                node.np_ep = np.array(list(self.epitope_sites(node.aa)))
        if ref == None:
            ref = tree.seed_node
        for node in tree.postorder_node_iter():
            node.__setattr__(attr,
                             self.fast_epitope_distance(node.np_ep, ref.np_ep))