Tag Archives: s.pombe

Fungal tree of life papers

Lots of papers in Mycologia (subscription required) this month of different groups analyzing the fine-scale relationships of many different fungal clades using the loads of sequences that were generated as part of the Fungal Tree of Life project.

Some highlights – there are just too many papers in the issue to cover them all. As usual with more detailed studies of clades with molecular sequences we find that morphologically defined groupings aren’t always truly monophyletic and some species even end up being reclassified. Not that molecular sequence approaches are infallable, but for many fungi the morphological characters are not always stable and can revert (See Hibbet 2004 for a nice treatment of this in mushrooms; subscription required).

  • Meredith Blackwell and others describe the Deep Hypha research coordination network that helped coordinate all the Fungal Tree of Life-rs.
  • John Taylor and Mary Berbee update their previous dating work with new divergence dates for the fungi using as much of the fossil evidence as we have.
  • The early diverging Chytridiomycota, Glomeromycota, and Zygomycota are each described. Tim James and others present updated Chytridiomycota relationships so of which were only briefly introducted in the kingdom-wide analysis paper published last year.
  • There is a nice overview paper of the major Agaricales clades (mushrooms for the non-initiated) from Brandon Matheny as well as as individual treatment of many of the sub-clades like the cantharelloid clade (mmm chanterelles…) .
  • Relationships of the Puccinia clade are also presented – we blogged about the wheat pathogen P. graminis before.
  • A new Saccharomycetales phylogeny is presented by Sung-Oui Suh and others.
  • The validity of the Archiascomycete group is also tested (containing the fission yeast Schizosaccharomyces pombe and the mammalian pathogen Pneumocystis) and they confirm that it is basal to the two sister clades the euascomycete (containing Neurospora) and hemiascomycete (containing Saccharomyces) clades. However it doesn’t appear there are enough sampled species/genes to confirm monophyly of the group. There are/will be soon three genome sequences of Schizosaccharomyces plus one or two Pneumocystis genomes – it will be interesting to see how this story turns out if more species can be identified.

This was a monster effort by a lot of people who it is really nice to see it all have come together in what looks like some really nice papers.