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33 Records found.
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1.
Niehaus, E.M.* et al.: Comparative genomics of geographically distant Fusarium fujikuroi isolates revealed two distinct pathotypes correlating with secondary metabolite profiles. PLoS Pathog. 13:e1006670 (2017)
2.
Palma, M.* ; Münsterkötter, M. ; Peça, J.* ; Güldener, U. & Sá-Correia, I.*: Genome sequence of the highly weak-acid-tolerant Zygosaccharomyces bailii IST302, amenable to genetic manipulations and physiological studies. FEMS Yeast Res., accepted (2017)
3.
Salazar, S.B.* et al.: Comparative genomic and transcriptomic analyses unveil novel features of azole resistance and adaptation to the human host in Candida glabrata. FEMS Yeast Res., accepted (2017)
4.
Boedi, S.* et al.: Comparison of Fusarium graminearum transcriptomes on living or dead wheat differentiates substrate-responsive and defense-responsive genes. Front. Microbiol. 7:1113 (2016)
5.
Dutheil, J.Y.* et al.: A tale of genome compartmentalization: The evolution of virulence clusters in smut fungi. Genome Biol. Evol. 8, 681-704 (2016)
6.
Penselin, D.* et al.: Comparative genomics to explore phylogenetic relationship, cryptic sexual potential and host specificity of Rhynchosporium species on grasses. BMC Genomics 17:953 (2016)
7.
Rabe, F.* et al.: A complete toolset for the study of Ustilago bromivora and Brachypodium sp. as a fungal-temperate grass pathosystem. eLife 5:e20522 (2016)
8.
Schlegel, M.* et al.: Globally distributed root endophyte Phialocephala subalpina links pathogenic and saprophytic lifestyles. BMC Genomics 17:1015 (2016)
9.
Michielse, C.B.* et al.: The global regulator FfSge1 is required for expression of secondary metabolite gene clusters, but not for pathogenicity in Fusarium fujikuroi. Environ. Microbiol. 17, 2690–2708 (2015)
10.
Mira, N.P.* et al.: The genome sequence of the highly acetic acid-tolerant Zygosaccharomyces bailii-derived interspecies hybrid strain ISA1307, isolated from a sparkling wine plant. DNA Res. 21, 299-313 (2014)
11.
Sieber, C.M.K. et al.: The Fusarium graminearum genome reveals more secondary metabolite gene clusters and hints of horizontal gene transfer. PLoS ONE 9:e110311 (2014)
12.
Niehaus, E.-M.* et al.: Genetic manipulation of the Fusarium fujikuroi fusarin gene cluster yields insight into the complex regulation and fusarin biosynthetic pathway. Chem. Biol. 20, 1055-1066 (2013)
13.
Schardl, C.L.* et al.: Plant-symbiotic fungi as chemical engineers: Multi-genome analysis of the clavicipitaceae reveals dynamics of alkaloid loci. PLoS Genet. 9:e1003323 (2013)
14.
Wiemann, P.* et al.: Deciphering the cryptic genome: Genome-wide analyses of the rice pathogen Fusarium fujikuroi reveal complex regulation of secondary metabolism and novel metabolites. PLoS Pathog. 9:e1003475 (2013)
15.
Laurie, J.D.* et al.: Genome comparison of barley and maize smut fungi reveals targeted loss of RNA silencing components and species-specific presence of transposable elements. Plant Cell 24, 1733-1745 (2012)
16.
Amselem, J.* et al.: Genomic analysis of the necrotrophic fungal pathogens Sclerotinia sclerotiorum and Botrytis cinerea. PLoS Genet. 7:e1002230 (2011)
17.
Wong, P. et al.: FGDB: Revisiting the genome annotation of the plant pathogen Fusarium graminearum. Nucleic Acids Res. 39, D637-D639 (2011)
18.
Zuccaro, A.* et al.: Endophytic life strategies decoded by genome and transcriptome analyses of the mutualistic root symbiont Piriformospora indica. PLoS Pathog. 7:e1002290 (2011)
19.
Schinko, T.* et al.: Transcriptome analysis of nitrate assimilation in Aspergillus nidulans reveals connections to nitric oxide metabolism. Mol. Microbiol. 78, 720-738 (2010)
20.
Schirawski, J.* et al.: Pathogenicity determinants in smut fungi revealed by genome comparison. Science 330, 1546-1548 (2010)