Bootstrap analysis

Types of input

• • CF table from TICR with credibility intervals
  • Bootstrap gene trees from RAxML (same format that ASTRAL uses)
    

• Starting topology

Option: we can include the best network to start a percentage of the runs in the best network.

Bootstrap analysis

# bootstrap from bucky's credibility intervals for CFs
buckyDat = readtable("bucky-output/1_seqgen.CFs.csv")
bootnet = bootsnaq(net0, buckyDat, hmax=1, nrep=100, filename="snaq/bootsnaq1_buckyCI")

or

# boostrap from raxml's bootstrap gene trees
bootTrees = readBootstrapTrees("astral/BSlistfiles")
bootnet = bootsnaq(net0, bootTrees, hmax=1, nrep=100, filename="/snaq/bootsnaq1_raxmlboot")

Bootstrap summary

Tree edges

To summarize the bootstrap support of the tree edges in the estimated network, we simply extract the major tree (remove all hybrid edges with gamma<0.5), and count the number of times a given edge appears in the bootstrap trees.

BStable, tree1 = treeEdgesBootstrap(bootnet,net1)

where tree1 is the major tree in net1 (the best network estimated with the original data), and BStable is a data frame with the bootstrap support for each edge. We can plot this information in the tree (or network) with

plot(tree1, edgeLabel=BStable)
plot(net1,  edgeLabel=BStable)
plot(net1, edgeLabel=BStable[BStable[:proportion] .< 1.0, :])

The last command will only label the edges with bootstrap support less than 100%.

Hybrid edges

It is not easy to summarize bootstrap support on networks, because edges do not define splits as they do on trees. That is, it is not easy to match edges across networks.

Each hybrid node is analyzed independently of other hybridizations. That is, all other hybrid edges with gamma<0.5 are removed from the network.

We study the relationship of three types of clades:

• hybrid clade: hardwired cluster (descendants) of either hybrid edge
• major sister clade: hardwired cluster of the sibling edge of the major hybrid edge
• minor sister clade: hardwired cluster of the sibling edge of the minor hybrid edge
  

We compute frequencies for clades being the hybrid clade (with accompanying sister clades), and being sister clades (major or minor). The clade frequencies can be associated to a node or an edge, and we show both options in a plot.

BSn, BSe, BSc, BSgam, BSedgenum = hybridBootstrapSupport(bootnet, net1);
BSn # bootstrap frequencies associated to nodes
BSe # bootstrap frequencies associated to edges
BSc # makeup of all clades
BSc[:taxa][BSc[:H7]] # list of taxa in this clade
BSgam # array of gamma values
minimum(BSgam[:,2])
maximum(BSgam[:,2])
mean(BSgam[:,2])
std(BSgam[:,2])

Percentage of bootstrap trees with an edge from the same sister clade to the same hybrid clade:

plot(net1, edgeLabel=BSe[[:edge,:BS_hybrid_edge]])

Bootstrap support for the full reticulation relationships in the network, one at each hybrid node (support for same hybrid with same sister clades)

plot(net1, nodeLabel=BSn[[:hybridnode,:BS_hybrid_samesisters]])

Bootstrap support for hybrid clades, shown on the parent edge of each node with positive hybrid support

plot(net1, edgeLabel=BSn[BSn[:BS_hybrid].>0, [:edge,:BS_hybrid]])