TY  - JOUR
AU  - Moncalvo, J. M.
AU  - Nilsson, R. H.
AU  - Koster, B.
AU  - Dunham, S. M.
AU  - Bernauer, T.
AU  - Matheny, P. B.
AU  - Porter, T. M.
AU  - Margaritescu, S.
AU  - Weiss, M.
AU  - Garnica, S.
AU  - Danell, E.
AU  - Langer, G.
AU  - Langer, E.
AU  - Larsson, E.
AU  - Larsson, K. H.
AU  - Vilgalys, R.
T1  - The cantharelloid clade: dealing with incongruent gene trees and phylogenetic reconstruction methods
JO  - Mycologia
PY  - 2006/nov-dec
VL  - 98
IS  - 6
SP  - 937
EP  - 948
UR  - /brokenurl#<Go to ISI>://000245858800011
M3  - 
KW  - basidiomycota
KW  - evolution
KW  - accuracy
KW  - test
KW  - nssu
KW  - length
KW  - sequences
KW  - nuclear
KW  - ribosomal
KW  - data
KW  - mitochondrial
KW  - rpb2
KW  - DNA-sequences
KW  - nlsu
KW  - fungi
KW  - rdna
KW  - phylogeny
KW  - difference
KW  - mushroom-forming
KW  - mtssu
KW  - missing
L1  - 
SN  - 
N1  - 
N1  - 
AB  - We reassessed the circumscription of the cantharelloid clade and identified monophyletic groups by using nLSU, nSSU, mtSSU and RPB2 sequence data. Results agreed with earlier studies that placed the genera Cantharellus, Craterellus, Hydnum, Clavulina, Membranomyces, Multiclavula, Sistotrema, Botryobasidium and the family Ceratobasidiaceae in that clade. Phylogenetic analyses support monophyly of all genera except Sistotrema, which was highly polyphyletic. Strongly supported monophyletic groups were: (i) Cantharellus-Craterellus, Hydnum, and the Sistotrema confluens group; (ii) Clavulina-Membranomyces and the S. brinkmannii-oblongisporum group, with Multiclavula being possibly sister of that clade; (iii) the Sistotrema eximum-octosporum group; (iv) Sistotrema adnatum and S. coronilla. Positions of Sistotrema raduloides and S. athelioides were unresolved, as were basal relationships. Botryobasidium was well supported as the sister taxon of all the above taxa, while Ceratobasidiaceae was the most basal lineage. The relationship between Tulasnella and members of the cantharelloid clade will require further scrutiny, although there is cumulative evidence that they are probably sister groups. The rates of molecular evolution of both the large and small nuclear ribosomal RNA genes (nuc-rDNA) are much higher in Cantharellus, Craterellus and Tulasnella than in the other cantharelloid taxa, and analyses of nuc-rDNA sequences strongly placed Tulasnella close to Cantharellus-Craterellus. In contrast analyses with RPB2 and mtSSU sequences placed Tulasnella at the base of the cantharelloid clade. Our attempt to reconstruct a "supertree" from tree topologies resulting from separate analyses that avoided phylogenetic reconstruction problems associated with missing data and/or unalignable sequences proved unsuccessful.
ER  -