Purifying selection and birth-and-death evolution in the class II hydrophobin gene families of the ascomycete Trichoderma/Hypocrea

Kubicek, Christian P.; Baker, Scott E.; Gamauf, Christian; Kenerley, Charles M.; Druzhinina, Irina S.

doi:10.1186/1471-2148-8-4

Cited by 72 publications

(87 citation statements)

References 68 publications

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“…Interestingly, the three corresponding genes, TmelHYD1, TmelHYD2 and TmelHYD3, are all located on the same scaffold (scaffold_3). Class II hydrophobins seems to be absent in T. melanosporum, unlike other Ascomycetes (Kubicek et al 2008). All the putative T. melanosporum hydrophobin sequences had a predicted signal peptide, and a hydrophobin/HYDRO domain was recognized by means of InterProScan (not shown).…”

Section: Other Cell Wall and Secreted Proteinsmentioning

confidence: 91%

Genome-wide analysis of cell wall-related genes in Tuber melanosporum

et al. 2012

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Section: Other Cell Wall and Secreted Proteinsmentioning

confidence: 91%

Genome-wide analysis of cell wall-related genes in Tuber melanosporum

et al. 2012

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“…Concerted evolution and birth-and-death evolution can be easily distinguished by analysis of genes from many pairs of closely related species (Nei et al 2000). The high level of the proportion of synonymous nucleotide differences per synonymous site (p S ) relative to the proportion of non-synonymous differences per non-synonymous site (p N ) between the individual members is diagnostic for birthand-death evolution (Kubicek et al 2008;Nei et al 2000;Piontkivska et al 2002). We then calculated the mean p S and p N values from intraspecific monomers using the DnaSP (Librado and Rozas 2009).…”

Section: Phylogenetic and Sequence Analysesmentioning

confidence: 99%

Variations and evolution of polyubiquitin genes from ciliates

Liu

Shi

Gong

2013

European Journal of Protistology

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Polyubiquitin genes from seven ciliate species were amplified, cloned and sequenced. It is estimated that Strombidium sulcatum, Euplotes vannus, E. rariseta and Anteholosticha manca have a polyubiquitin gene of 3 repeats, and A. parawarreni, Paramecium caudatum and Pseudokeronopsis flava 4 repeats. The newly obtained ubiquitins mostly differ from that of humans by 1-5 residues in amino acid sequences. A neighbor-joining tree constructed based on monomeric ubiquitin genes supports the monophyly of an assemblage comprising the litostomateans and some oligohymenophoreans, but not the class Spirotrichea. The monomers from the same species are generally placed together and highly supported for the class Litostomatea, the genera Paramecium and Ichthyophthirius, but not for other species. The non-synonymous/synonymous rate ratio (dN/dS) at the protein level are less than 1, and the synonymous nucleotide differences per synonymous site (p S ) from intraspecific comparisons are fairly high (0.02-0.72). These results indicate that ciliates have not only the conserved, but also some quite divergent, polyubiquitin genes and confirm that the polyubiquitin genes in ciliates evolve according to the birth-and-death mode of evolution under strong purifying selection.

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“…On the other hand the N-terminal regions, corresponding to the putative signal peptides, were highly hydrophobic as expected. Structure models were also obtained with Swiss Model using the HFBII protein from Trichoderma reesei (PDB ID 1R2M) as template, and showed that all the GEO1 proteins analysed had an a-helix, four antiparallel b-sheets and four loops (data not shown), coherently with the general structure of hydrophobins determined so far (de Vocht et al 1998;Hakanp€ a€ a et al 2004;Kubicek et al 2008).…”

Section: Analysis Of the Deduced Geo1 Proteins In Geosmithia Speciesmentioning

confidence: 77%

“…This process generates groups of functionally similar paralogous proteins, offered to natural selection (Nei et al 2000;Nei & Rooney 2005;Jiang et al 2006). Such a mechanism is prominent in the evolution of fungal hydrophobins, as was found in Trichoderma (Kubicek et al 2008), Paxillus (Rajashekar et al 2007) and Phlebiopsis (Mgbeahuruike et al 2012). As we showed, the GEO1 sequences from unrelated Geosmithia species can be very similar, a finding that can be ascribed to strong purifying selection.…”

Section: Resultsmentioning

confidence: 99%

Interspecific variability of class II hydrophobin GEO1 in the genus Geosmithia

et al. 2014

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a b s t r a c tThe genus Geosmithia Pitt (Ascomycota: Hypocreales) comprises cosmopolite fungi living in the galleries built by phloeophagous insects. Following the characterization in Geosmithia species 5 of the class II hydrophobin GEO1 and of the corresponding gene, the presence of the geo1 gene was investigated in 26 strains derived from different host plants and geographic locations and representing the whole phylogenetic diversity of the genus. The geo1 gene was de-tected in all the species tested where it maintained the general organization shown in Geosmithia species 5, comprising three exons and two introns. Size variations were found in both introns and in the first exon, the latter being due to the presence of an intragenic tandem repeat sequence corresponding to a stretch of glycine residues in the deduced proteins.At the amino acid level the deduced proteins had 44.6 % identity and no major differences in the biochemical parameters (pI, GRAVY index, hydropathy plots) were found. GEO1 release in the fungal culture medium was also assessed by turbidimetric assay and SDS-PAGE, and showed high variability between species. The phylogeny based on the geo1 sequences did not correspond to that generated from a neutral marker (ITS rDNA), suggesting that sequence similarities could be influenced by other factors than phylogenetic relatedness, such as the intimacy of the symbiosis with insect vectors. The hypothesis of a strong selection pressure on the geo1 gene was sustained by the low values (<1) of non synonymous to synonymous nucleotide substitutions ratios (Ka/Ks), which suggest that purifying selection might act on this gene. These results are compatible with either a birth-and-death evolution scenario or horizontal transfer of the gene between Geosmithia species.

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Purifying selection and birth-and-death evolution in the class II hydrophobin gene families of the ascomycete Trichoderma/Hypocrea

Cited by 72 publications

References 68 publications

Genome-wide analysis of cell wall-related genes in Tuber melanosporum

Genome-wide analysis of cell wall-related genes in Tuber melanosporum

Variations and evolution of polyubiquitin genes from ciliates

Interspecific variability of class II hydrophobin GEO1 in the genus Geosmithia

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