Systematic identification of gene families for use as markers for
phylogenetic and phylogeny- driven ecological studies of bacteria and archaea
and their major subgroups
With the astonishing rate that the genomic and metagenomic sequence data sets
are accumulating, there are many reasons to constrain the data analyses. One
approach to such constrained analyses is to focus on select subsets of gene
families that are particularly well suited for the tasks at hand. Such gene
families have generally been referred to as marker genes. We are particularly
interested in identifying and using such marker genes for phylogenetic and
phylogeny-driven ecological studies of microbes and their communities. We
therefore refer to these as PhyEco (for phylogenetic and phylogenetic ecology)
markers. The dual use of these PhyEco markers means that we needed to develop
and apply a set of somewhat novel criteria for identification of the best
candidates for such markers. The criteria we focused on included universality
across the taxa of interest, ability to be used to produce robust phylogenetic
trees that reflect as much as possible the evolution of the species from which
the genes come, and low variation in copy number across taxa. We describe here
an automated protocol for identifying potential PhyEco markers from a set of
complete genome sequences. The protocol combines rapid searching, clustering
and phylogenetic tree building algorithms to generate protein families that
meet the criteria listed above. We report here the identification of PhyEco
markers for different taxonomic levels including 40 for all bacteria and
archaea, 114 for all bacteria, and much more for some of the individual phyla
of bacteria. This new list of PhyEco markers should allow much more detailed
automated phylogenetic and phylogenetic ecology analyses of these groups than
possible previously.Comment: 24 pages, 3 figure