(Below N is a link to NCBI taxonomic web page and E link to ESTHER at designed phylum.) > cellular organisms: NE > Eukaryota: NE > Opisthokonta: NE > Fungi: NE > Dikarya: NE > Ascomycota: NE > saccharomyceta: NE > Pezizomycotina: NE > leotiomyceta: NE > sordariomyceta: NE > Sordariomycetes: NE > Hypocreomycetidae: NE > Hypocreales: NE > Nectriaceae: NE > Fusarium: NE > Fusarium sambucinum species complex: NE > Fusarium pseudograminearum: NE
Fungal_carboxylesterase_lipase : fuspc-k3u8z2Fusarium pseudograminearum (strain CS3096) (Wheat and barley crown-rot fungus) Uncharacterized protein, fuspc-k3vzd3Fusarium pseudograminearum (Wheat and barley crown-rot fungus), Gibberella zeae (Wheat head blight fungus) (Fusarium graminearum). Uncharacterized protein. Hormone-sensitive_lipase_like : fuspc-fdb26Fusarium pseudograminearum (strain CS3096) (Wheat and barley crown-rot fungus). Fusarium detoxification of benzoxazolinone cluster protein FPSE_08126. Kynurenine-formamidase : fuspc-k3w1u7Fusarium pseudograminearum (strain CS3096) (Wheat and barley crown-rot fungus). N-formylkynurenine formamidase. Thioesterase : fuspc-w4935Fusarium pseudograminearum (strain CS3096) (Wheat and barley crown-rot fungus). W493 A and B biosynthesis cluster protein FPSE_09186
Warning: This entry is a compilation of different species or line or strain with more than 90% amino acid identity. You can retrieve all strain data
(Below N is a link to NCBI taxonomic web page and E link to ESTHER at designed phylum.) Fusarium pseudograminearum CS3096: N, E.
Gibberella zeae: N, E.
Fusarium graminearum PH-1: N, E.
Fusarium graminearum: N, E.
LegendThis sequence has been compared to family alignement (MSA) red => minority aminoacid blue => majority aminoacid color intensity => conservation rate title => sequence position(MSA position)aminoacid rate Catalytic site Catalytic site in the MSA VVYGLETRGMPAFGAIWDNKKNSPILFLHGLFGSKKNNRAISKALARDLG RYVYALDLRNHGESPHDTRHDYSAMAQDVAEFIEGHGLKDTTLIGHSMGA KTSMALALRSPDLVSDIVAVDNAPVDVSLSRDFPKYVRAMKKIQEAGVTR QSEADKILSEVEESLPIRQFLLGNMYLPEGEKVRKFRIPLHTLGKALDNL GDFPYKNPSEIRFEKPALFVRGTQSKYVPDDVLPLIGQFFPKFRLVDVDA GHWLISEQPEAFRQAVVEFLQKPE
Comparative analyses of pathogen genomes provide new insights into how pathogens have evolved common and divergent virulence strategies to invade related plant species. Fusarium crown and root rots are important diseases of wheat and barley world-wide. In Australia, these diseases are primarily caused by the fungal pathogen Fusarium pseudograminearum. Comparative genomic analyses showed that the F. pseudograminearum genome encodes proteins that are present in other fungal pathogens of cereals but absent in non-cereal pathogens. In some cases, these cereal pathogen specific genes were also found in bacteria associated with plants. Phylogenetic analysis of selected F. pseudograminearum genes supported the hypothesis of horizontal gene transfer into diverse cereal pathogens. Two horizontally acquired genes with no previously known role in fungal pathogenesis were studied functionally via gene knockout methods and shown to significantly affect virulence of F. pseudograminearum on the cereal hosts wheat and barley. Our results indicate using comparative genomics to identify genes specific to pathogens of related hosts reveals novel virulence genes and illustrates the importance of horizontal gene transfer in the evolution of plant infecting fungal pathogens.
