Difference between revisions of "Reference species for fungi"

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Fungal reference species


This page explains and defines the "reference species" we use for the course.

Many bioinformatics procedures depend on the comparison of sequences between species. To make good use of evolutionary information, we should choose species that span the breadth of observations, and that are not biased towards a particular branch of the phylogenetic tree. To keep procedures manageable, the number of speciescannot be "too large". For fungi, we make use of recent phylogenetic studies that establish the branching order of the entire kingdom, and we choose ten representatives for clades at the Class or subphylum level. To illustrate the "class"level, for animals the class level contains e.g. bony and cartilaginous fishes, amphibians, reptiles, birds and mammals.



To select a set of diverse species, the whole set of names of genome-sequenced fungi was loaded into the NCBI's Common Taxonomic Tree tree tool. Then ten representative species were selected. The selected species are:

  • Phylum Basidiomyceta
    • Wallemia sebi (WALSE)    Subphylum Basidiomycota incertae sedis
    • Puccinia Graminis (PUCGR)    Subphylum Pucciniomycotina
    • Ustilago maydis (USTMA)    Subphylum Ustilaginomycotina
    • Cryptococcus neoformans (CRYNE)    Subphylum Agaricomycotina; Class Tremellomycetes
    • Coprinopsis cinereae (COPCI)    Subphylum Agaricomycotina; Class Agaricomycetes
  • Phylum Ascomycota
    • Schizosaccharomyces pombe (SCHPO)    Subphylum Taphrinomycotina
    • Aspergillus nidulans (ASPNI)    Subphylum Pezizomycotina; Class Eurotiomycetes
    • Neurospora crassa (NEUCR)    Subphylum Pezizomycotina; Class Sordariomycetes
    • Bipolaris oryzae (BIPOR)    Subphylum Pezizomycotina; Class Dothideomycetes
    • Saccharomyces cerevisiae (SACCE)    Subphylum Saccharomycotina


Entrez selection code, e.g. for BLAST searches
"Wallemia sebi"[organism] OR
"Puccinia Graminis"[organism] OR
"Ustilago maydis"[organism] OR
"Cryptococcus neoformans"[organism] OR
"Coprinopsis cinereae"[organism] OR
"Schizosaccharomyces pombe"[organism] OR
"Aspergillus nidulans"[organism] OR
"Neurospora crassa"[organism] OR
"Bipolaris oryzae"[organism] OR
"Saccharomyces cerevisiae[organism]"
Taxonomy IDs, e.g. for the NCBI taxonomy browser
4896
4932
5141
5207
5270
5297
5346
101162
148960
162425
Phylyp tree format, e.g. to plot cladograms
(
(
'Wallemia sebi':4,
'Puccinia graminis':4,
'Ustilago maydis':4,
(
'Coprinopsis cinerea':4,
'Cryptococcus neoformans':4
)Agaricomycotina:4
)Basidiomycota:4,
(
(
(
'Aspergillus nidulans':4,
'Bipolaris oryzae':4,
'Neurospora crassa':4
)leotiomyceta:4,
'Saccharomyces cerevisiae':4
)saccharomyceta:4,
'Schizosaccharomyces pombe':4
)Ascomycota:4
)Dikarya:4;


Cladogram, drawn with the Phylip program retree
                ┌──────────── Schizosaccharomyces pombe
                │  
                │                          ┌───────────── Aspergillus nidulans
  ┌─────────────+                          │  
  │             │             ┌────────────+───────────── Bipolaris oryzae
  │             │             │            │  
  │             └─────────────+            └───────────── Neurospora crassa
  │                           │  
──+                           └──────────── Saccharomyces cerevisiae
  │  
  │                           ┌──────────── Cryptococcus neoformans
  │             ┌─────────────+  
  │             │             └───────────── Coprinopsis cinerea
  │             │  
  └─────────────+───────────── Ustilago maydis
                │  
                ├───────────── Puccinia graminis
                │  
                └───────────── Wallemia sebi


 

Further reading and resources

Ebersberger et al. (2012) A consistent phylogenetic backbone for the fungi. Mol Biol Evol 29:1319-34. (pmid: 22114356)

PubMed ] [ DOI ] The kingdom of fungi provides model organisms for biotechnology, cell biology, genetics, and life sciences in general. Only when their phylogenetic relationships are stably resolved, can individual results from fungal research be integrated into a holistic picture of biology. However, and despite recent progress, many deep relationships within the fungi remain unclear. Here, we present the first phylogenomic study of an entire eukaryotic kingdom that uses a consistency criterion to strengthen phylogenetic conclusions. We reason that branches (splits) recovered with independent data and different tree reconstruction methods are likely to reflect true evolutionary relationships. Two complementary phylogenomic data sets based on 99 fungal genomes and 109 fungal expressed sequence tag (EST) sets analyzed with four different tree reconstruction methods shed light from different angles on the fungal tree of life. Eleven additional data sets address specifically the phylogenetic position of Blastocladiomycota, Ustilaginomycotina, and Dothideomycetes, respectively. The combined evidence from the resulting trees supports the deep-level stability of the fungal groups toward a comprehensive natural system of the fungi. In addition, our analysis reveals methodologically interesting aspects. Enrichment for EST encoded data-a common practice in phylogenomic analyses-introduces a strong bias toward slowly evolving and functionally correlated genes. Consequently, the generalization of phylogenomic data sets as collections of randomly selected genes cannot be taken for granted. A thorough characterization of the data to assess possible influences on the tree reconstruction should therefore become a standard in phylogenomic analyses.