Kemen_2011_PLoS.Biol_9_e1001094

Reference

Title : Gene gain and loss during evolution of obligate parasitism in the white rust pathogen of Arabidopsis thaliana - Kemen_2011_PLoS.Biol_9_e1001094
Author(s) : Kemen E , Gardiner A , Schultz-Larsen T , Kemen AC , Balmuth AL , Robert-Seilaniantz A , Bailey K , Holub E , Studholme DJ , Maclean D , Jones JD
Ref : PLoS Biol , 9 :e1001094 , 2011
Abstract :

Biotrophic eukaryotic plant pathogens require a living host for their growth and form an intimate haustorial interface with parasitized cells. Evolution to biotrophy occurred independently in fungal rusts and powdery mildews, and in oomycete white rusts and downy mildews. Biotroph evolution and molecular mechanisms of biotrophy are poorly understood. It has been proposed, but not shown, that obligate biotrophy results from (i) reduced selection for maintenance of biosynthetic pathways and (ii) gain of mechanisms to evade host recognition or suppress host defence. Here we use Illumina sequencing to define the genome, transcriptome, and gene models for the obligate biotroph oomycete and Arabidopsis parasite, Albugo laibachii. A. laibachii is a member of the Chromalveolata, which incorporates Heterokonts (containing the oomycetes), Apicomplexa (which includes human parasites like Plasmodium falciparum and Toxoplasma gondii), and four other taxa. From comparisons with other oomycete plant pathogens and other chromalveolates, we reveal independent loss of molybdenum-cofactor-requiring enzymes in downy mildews, white rusts, and the malaria parasite P. falciparum. Biotrophy also requires "effectors" to suppress host defence; we reveal RXLR and Crinkler effectors shared with other oomycetes, and also discover and verify a novel class of effectors, the "CHXCs", by showing effector delivery and effector functionality. Our findings suggest that evolution to progressively more intimate association between host and parasite results in reduced selection for retention of certain biosynthetic pathways, and particularly reduced selection for retention of molybdopterin-requiring biosynthetic pathways. These mechanisms are not only relevant to plant pathogenic oomycetes but also to human pathogens within the Chromalveolata.

PubMedSearch : Kemen_2011_PLoS.Biol_9_e1001094
PubMedID: 21750662
Gene_locus related to this paper: 9stra-f0vzr0 , 9stra-f0w3s0 , 9stra-f0whp7 , 9stra-f0wif4 , 9stra-f0wjy6 , 9stra-f0wpr6 , 9stra-f0wq48 , 9stra-f0wq49 , 9stra-f0wr05 , 9stra-f0wve8 , 9stra-f0wx44 , 9stra-f0wzn9 , 9stra-f0we19 , 9stra-f0wqy5 , 9stra-f0w333

Related information

Gene_locus 9stra-f0vzr0    9stra-f0w3s0    9stra-f0whp7    9stra-f0wif4    9stra-f0wjy6    9stra-f0wpr6    9stra-f0wq48    9stra-f0wq49    9stra-f0wr05    9stra-f0wve8    9stra-f0wx44    9stra-f0wzn9    9stra-f0we19    9stra-f0wqy5    9stra-f0w333
Gene_locus_frgt 9stra-f0wqy4

Citations formats

Kemen E, Gardiner A, Schultz-Larsen T, Kemen AC, Balmuth AL, Robert-Seilaniantz A, Bailey K, Holub E, Studholme DJ, Maclean D, Jones JD (2011)
Gene gain and loss during evolution of obligate parasitism in the white rust pathogen of Arabidopsis thaliana
PLoS Biol 9 :e1001094

Kemen E, Gardiner A, Schultz-Larsen T, Kemen AC, Balmuth AL, Robert-Seilaniantz A, Bailey K, Holub E, Studholme DJ, Maclean D, Jones JD (2011)
PLoS Biol 9 :e1001094