Kistler HC

References (6)

Title : Effector profiles distinguish formae speciales of Fusarium oxysporum - van Dam_2016_Environ.Microbiol_18_4087
Author(s) : van Dam P , Fokkens L , Schmidt SM , Linmans JH , Kistler HC , Ma LJ , Rep M
Ref : Environ Microbiol , 18 :4087 , 2016
Abstract : Formae speciales (ff.spp.) of the fungus Fusarium oxysporum are often polyphyletic within the species complex, making it impossible to identify them on the basis of conserved genes. However, sequences that determine host-specific pathogenicity may be expected to be similar between strains within the same forma specialis. Whole genome sequencing was performed on strains from five different ff.spp. (cucumerinum, niveum, melonis, radicis-cucumerinum and lycopersici). In each genome, genes for putative effectors were identified based on small size, secretion signal, and vicinity to a "miniature impala" transposable element. The candidate effector genes of all genomes were collected and the presence/absence patterns in each individual genome were clustered. Members of the same forma specialis turned out to group together, with cucurbit-infecting strains forming a supercluster separate from other ff.spp. Moreover, strains from different clonal lineages within the same forma specialis harbour identical effector gene sequences, supporting horizontal transfer of genetic material. These data offer new insight into the genetic basis of host specificity in the F. oxysporum species complex and show that (putative) effectors can be used to predict host specificity in F. oxysporum.
ESTHER : van Dam_2016_Environ.Microbiol_18_4087
PubMedSearch : van Dam_2016_Environ.Microbiol_18_4087
PubMedID: 27387256
Gene_locus related to this paper: fusox-w9hvf0 , fusox-x0d9n6 , gibm7-w7n4n0

Title : Genome Sequence of Fusarium oxysporum f. sp. melonis Strain NRRL 26406, a Fungus Causing Wilt Disease on Melon - Ma_2014_Genome.Announc_2_e00730
Author(s) : Ma LJ , Shea T , Young S , Zeng Q , Kistler HC
Ref : Genome Announc , 2 : , 2014
Abstract : Horizontal chromosome transfer introduces host-specific pathogenicity among members of the Fusarium oxysporum species complex and is responsible for some of the most destructive and intractable plant diseases. This paper reports the genome sequence of F. oxysporum f. sp. melonis (NRRL 26406), a causal agent of Fusarium wilt disease on melon.
ESTHER : Ma_2014_Genome.Announc_2_e00730
PubMedSearch : Ma_2014_Genome.Announc_2_e00730
PubMedID: 25081257
Gene_locus related to this paper: fusox-a0a1d3s5h0 , fusox-w9p5i8 , fusox-w9hvf0

Title : Comparative genomics reveals mobile pathogenicity chromosomes in Fusarium - Ma_2010_Nature_464_367
Author(s) : Ma LJ , van der Does HC , Borkovich KA , Coleman JJ , Daboussi MJ , Di Pietro A , Dufresne M , Freitag M , Grabherr M , Henrissat B , Houterman PM , Kang S , Shim WB , Woloshuk C , Xie X , Xu JR , Antoniw J , Baker SE , Bluhm BH , Breakspear A , Brown DW , Butchko RA , Chapman S , Coulson R , Coutinho PM , Danchin EG , Diener A , Gale LR , Gardiner DM , Goff S , Hammond-Kosack KE , Hilburn K , Hua-Van A , Jonkers W , Kazan K , Kodira CD , Koehrsen M , Kumar L , Lee YH , Li L , Manners JM , Miranda-Saavedra D , Mukherjee M , Park G , Park J , Park SY , Proctor RH , Regev A , Ruiz-Roldan MC , Sain D , Sakthikumar S , Sykes S , Schwartz DC , Turgeon BG , Wapinski I , Yoder O , Young S , Zeng Q , Zhou S , Galagan J , Cuomo CA , Kistler HC , Rep M
Ref : Nature , 464 :367 , 2010
Abstract : Fusarium species are among the most important phytopathogenic and toxigenic fungi. To understand the molecular underpinnings of pathogenicity in the genus Fusarium, we compared the genomes of three phenotypically diverse species: Fusarium graminearum, Fusarium verticillioides and Fusarium oxysporum f. sp. lycopersici. Our analysis revealed lineage-specific (LS) genomic regions in F. oxysporum that include four entire chromosomes and account for more than one-quarter of the genome. LS regions are rich in transposons and genes with distinct evolutionary profiles but related to pathogenicity, indicative of horizontal acquisition. Experimentally, we demonstrate the transfer of two LS chromosomes between strains of F. oxysporum, converting a non-pathogenic strain into a pathogen. Transfer of LS chromosomes between otherwise genetically isolated strains explains the polyphyletic origin of host specificity and the emergence of new pathogenic lineages in F. oxysporum. These findings put the evolution of fungal pathogenicity into a new perspective.
ESTHER : Ma_2010_Nature_464_367
PubMedSearch : Ma_2010_Nature_464_367
PubMedID: 20237561
Gene_locus related to this paper: fusox-a0a1d3s5h0 , gibf5-fus2 , fusof-f9f2k2 , fusof-f9f3l6 , fusof-f9f6t8 , fusof-f9f6v2 , fusof-f9f132 , fusof-f9f781 , fusof-f9fd72 , fusof-f9fd90 , fusof-f9fem0 , fusof-f9fhk2 , fusof-f9fj19 , fusof-f9fj20 , fusof-f9fki8 , fusof-f9fmx2 , fusof-f9fnt4 , fusof-f9fpy4 , fusof-f9fvs6 , fusof-f9fwu0 , fusof-f9fxz4 , fusof-f9fzy5 , fusof-f9g2a2 , fusof-f9g3b1 , fusof-f9g5h7 , fusof-f9g6e6 , fusof-f9g6y7 , fusof-f9g7b0 , fusof-f9g797 , fusof-f9g972 , fusof-f9ga50 , fusof-f9gck4 , fusof-f9gd15 , gibze-a8w610 , gibze-b1pdn0 , gibze-i1r9e6 , gibze-i1rda9 , gibze-i1rdk7 , gibze-i1rec8 , gibze-i1rgs0 , gibze-i1rgy0 , gibze-i1rh52 , gibze-i1rhi8 , gibze-i1rig9 , gibze-i1rip5 , gibze-i1rpg6 , gibze-i1rsg2 , gibze-i1rv36 , gibze-i1rxm5 , gibze-i1rxp8 , gibze-i1rxv5 , gibze-i1s1u3 , gibze-i1s3j9 , gibze-i1s6l7 , gibze-i1s8i8 , gibze-i1s9x4 , gibze-q4huy1 , gibze-i1rg17 , fuso4-j9mvr9 , fuso4-j9ngs6 , fuso4-j9niq8 , fuso4-j9nqm2 , gibze-i1rb76 , gibze-i1s1m7 , gibze-i1s3z6 , gibze-i1rd78 , gibze-i1rgl9 , gibze-i1rjp7 , gibze-i1s1q6 , gibze-i1ri35 , gibze-i1rf76 , gibze-i1rhp3 , fusc1-n4uj11 , fusc4-n1s9p6 , gibf5-s0dqr2 , gibm7-w7n1b5 , fusof-f9g6q0 , gibm7-w7n497 , fusox-x0bme4 , gibm7-w7mcf8 , gibm7-w7mak5 , fusox-x0a2c5 , gibm7-w7mum7 , fusox-w9iyc7 , gibm7-w7maw6 , gibm7-w7msi0 , gibm7-w7luf0 , gibm7-w7msa3 , gibm7-w7mna8 , gibm7-w7n8b7 , gibm7-w7n564 , fusox-w9jpi0 , gibm7-w7ngc3 , gibm7-w7m4v6 , gibm7-w7m4v2 , gibm7-w7lt61 , gibm7-w7mly6 , gibm7-w7ncn3 , fusox-w9ibd7 , fusof-f9fnm6 , gibm7-w7n526 , gibza-a0a016pda4 , gibza-a0a016pl96 , gibm7-w7muq1 , fusof-f9gfd3 , gibm7-w7mt52 , gibze-i1rjb5 , gibf5-s0ehu3 , fusox-w9hvf0 , gibze-i1rkc4 , gibm7-w7mv30 , gibze-a0a1c3ylb1 , fuso4-a0a0c4diy4 , gibm7-w7n4n0 , gibze-gra11 , gibze-fsl2 , gibf5-fub4 , gibf5-fub5 , gibf5-fus5 , gibm7-dlh1

Title : Multilocus genotyping and molecular phylogenetics resolve a novel head blight pathogen within the Fusarium graminearum species complex from Ethiopia - O'Donnell_2008_Fungal.Genet.Biol_45_1514
Author(s) : O'Donnell K , Ward TJ , Aberra D , Kistler HC , Aoki T , Orwig N , Kimura M , Bjornstad S , Klemsdal SS
Ref : Fungal Genet Biol , 45 :1514 , 2008
Abstract : A survey of Fusarium head blight (FHB)-contaminated wheat in Ethiopia recovered 31 isolates resembling members of the Fusarium graminearum species complex. Results of a multilocus genotyping (MLGT) assay for FHB species and trichothecene chemotype determination suggested that 22 of these isolates might represent a new species within the Fg complex. Phylogenetic analyses of multilocus DNA sequence data resolved the 22 Ethiopian isolates as a novel, phylogenetically distinct species. The new species also appears to be novel in that MLGT probe data and sequence analysis of both ends of the TRI-cluster identified 15ADON and NIV recombination blocks, documenting inter-chemotype recombination involving the chemotype-determining genes near the ends of the TRI-cluster. Results of pathogenicity experiments and analyses of trichothecene mycotoxins demonstrated that this novel Fg complex species could induce FHB on wheat and elaborate 15ADON in planta. Herein the FHB pathogen from Ethiopia is formally described as a novel species.
ESTHER : O'Donnell_2008_Fungal.Genet.Biol_45_1514
PubMedSearch : O'Donnell_2008_Fungal.Genet.Biol_45_1514
PubMedID: 18824240
Gene_locus related to this paper: gibze-TRI8

Title : The Fusarium graminearum genome reveals a link between localized polymorphism and pathogen specialization - Cuomo_2007_Science_317_1400
Author(s) : Cuomo CA , Guldener U , Xu JR , Trail F , Turgeon BG , Di Pietro A , Walton JD , Ma LJ , Baker SE , Rep M , Adam G , Antoniw J , Baldwin T , Calvo S , Chang YL , Decaprio D , Gale LR , Gnerre S , Goswami RS , Hammond-Kosack K , Harris LJ , Hilburn K , Kennell JC , Kroken S , Magnuson JK , Mannhaupt G , Mauceli E , Mewes HW , Mitterbauer R , Muehlbauer G , Munsterkotter M , Nelson D , O'Donnell K , Ouellet T , Qi W , Quesneville H , Roncero MI , Seong KY , Tetko IV , Urban M , Waalwijk C , Ward TJ , Yao J , Birren BW , Kistler HC
Ref : Science , 317 :1400 , 2007
Abstract : We sequenced and annotated the genome of the filamentous fungus Fusarium graminearum, a major pathogen of cultivated cereals. Very few repetitive sequences were detected, and the process of repeat-induced point mutation, in which duplicated sequences are subject to extensive mutation, may partially account for the reduced repeat content and apparent low number of paralogous (ancestrally duplicated) genes. A second strain of F. graminearum contained more than 10,000 single-nucleotide polymorphisms, which were frequently located near telomeres and within other discrete chromosomal segments. Many highly polymorphic regions contained sets of genes implicated in plant-fungus interactions and were unusually divergent, with higher rates of recombination. These regions of genome innovation may result from selection due to interactions of F. graminearum with its plant hosts.
ESTHER : Cuomo_2007_Science_317_1400
PubMedSearch : Cuomo_2007_Science_317_1400
PubMedID: 17823352
Gene_locus related to this paper: fusof-f9fxz4 , gibze-a8w610 , gibze-b1pdn0 , gibze-i1r9e6 , gibze-i1rda9 , gibze-i1rdk7 , gibze-i1rec8 , gibze-i1rgs0 , gibze-i1rgy0 , gibze-i1rh52 , gibze-i1rhi8 , gibze-i1rig9 , gibze-i1rip5 , gibze-i1rpg6 , gibze-i1rsg2 , gibze-i1rv36 , gibze-i1rxm5 , gibze-i1rxp8 , gibze-i1rxv5 , gibze-i1s1u3 , gibze-i1s3j9 , gibze-i1s6l7 , gibze-i1s8i8 , gibze-i1s9x4 , gibze-ppme1 , gibze-q4huy1 , gibze-i1rg17 , gibze-i1rb76 , gibze-i1s1m7 , gibze-i1s3z6 , gibze-i1rd78 , gibze-i1rgl9 , gibze-i1rjp7 , gibze-i1s1q6 , gibze-i1ri35 , gibze-i1rf76 , gibze-i1rhp3 , gibza-a0a016pda4 , gibza-a0a016pl96 , gibze-i1rjb5 , gibze-i1rkc4 , gibze-a0a1c3ylb1 , gibze-gra11 , gibze-fsl2

Title : Nrs1, a repetitive element linked to pisatin demethylase genes on a dispensable chromosome of Nectria haematococca - Kim_1995_Mol.Plant.Microbe.Interact_8_524
Author(s) : Kim HG , Meinhardt LW , Benny U , Kistler HC
Ref : Mol Plant Microbe Interact , 8 :524 , 1995
Abstract : We have identified a repetitive DNA element in Nectria haematococca mating population VI, isolate T-2. This repetitive sequence has been called Nrs1. DNA hybridization analysis indicates the sequence is found in several isolates of the fungus pathogenic to Pisum sativum. A 2,027-bp clone containing the Nrs1-2 allele contains a long polyA sequence, imperfect RNA polymerase III promoter sequences, multiple inverted repeats, and the potential for extensive secondary structure similar to known RNA polymerase III transcripts and related retroelements. Ten of the 11 HindIII restriction fragments from isolate T-2 DNA that hybridize to Nrs1-2 segregate in a manner consistent with a 1:1 ratio for random ascospore progeny. The 10 restriction fragment length polymorphism (RFLP) loci define three linkage groups and correspond to three chromosome-sized DNAs from T-2 separated by pulsed field gel electrophoresis. Three RFLP loci defined by hybridization to the gene for pisatin demethylase and localized on the 1.6 million base pair (Mb) chromosome were genetically linked to each other and to several Nrs1 loci. These sequences recombined despite the fact that no obvious homolog exists for the 1.6-Mb chromosome in one parent strain. Allelic RFLPs corresponding to the gene sequence of cutinase were unlinked to Nrs1 loci.
ESTHER : Kim_1995_Mol.Plant.Microbe.Interact_8_524
PubMedSearch : Kim_1995_Mol.Plant.Microbe.Interact_8_524
PubMedID: 8589408