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Items: 34

1.

Targeted manipulation of bZIP53 DNA-binding properties influences Arabidopsis metabolism and growth.

Garg A, Kirchler T, Fillinger S, Wanke F, Stadelhofer B, Stahl M, Chaban C.

J Exp Bot. 2019 Jun 28. pii: erz309. doi: 10.1093/jxb/erz309. [Epub ahead of print]

PMID:
31257431
2.

Correction for Omrane et al., "Plasticity of the MFS1 Promoter Leads to Multidrug Resistance in the Wheat Pathogen Zymoseptoria tritici".

Omrane S, Audéon C, Ignace A, Duplaix C, Aouini L, Kema G, Walker AS, Fillinger S.

mSphere. 2018 Jun 27;3(3). pii: e00322-18. doi: 10.1128/mSphere.00322-18. Print 2018 Jun 27. No abstract available.

3.

Plasticity of the MFS1 Promoter Leads to Multidrug Resistance in the Wheat Pathogen Zymoseptoria tritici.

Omrane S, Audéon C, Ignace A, Duplaix C, Aouini L, Kema G, Walker AS, Fillinger S.

mSphere. 2017 Oct 25;2(5). pii: e00393-17. doi: 10.1128/mSphere.00393-17. eCollection 2017 Sep-Oct. Erratum in: mSphere. 2018 Jun 27;3(3):.

4.

dRNA-seq transcriptional profiling of the FK506 biosynthetic gene cluster in Streptomyces tsukubaensis NRRL18488 and general analysis of the transcriptome.

Bauer JS, Fillinger S, Förstner K, Herbig A, Jones AC, Flinspach K, Sharma C, Gross H, Nieselt K, Apel AK.

RNA Biol. 2017 Nov 2;14(11):1617-1626. doi: 10.1080/15476286.2017.1341020. Epub 2017 Jul 31.

5.

Phenylpyrroles: 30 Years, Two Molecules and (Nearly) No Resistance.

Kilani J, Fillinger S.

Front Microbiol. 2016 Dec 16;7:2014. doi: 10.3389/fmicb.2016.02014. eCollection 2016. Review.

6.

Proposal for a unified nomenclature for target-site mutations associated with resistance to fungicides.

Mair W, Lopez-Ruiz F, Stammler G, Clark W, Burnett F, Hollomon D, Ishii H, Thind TS, Brown JK, Fraaije B, Cools H, Shaw M, Fillinger S, Walker AS, Mellado E, Schnabel G, Mehl A, Oliver RP.

Pest Manag Sci. 2016 Aug;72(8):1449-59. doi: 10.1002/ps.4301. Epub 2016 Jun 16.

7.

Fungicide efflux and the MgMFS1 transporter contribute to the multidrug resistance phenotype in Zymoseptoria tritici field isolates.

Omrane S, Sghyer H, Audéon C, Lanen C, Duplaix C, Walker AS, Fillinger S.

Environ Microbiol. 2015 Aug;17(8):2805-23. doi: 10.1111/1462-2920.12781. Epub 2015 Mar 2.

PMID:
25627815
8.

Phosphoproteome profiles of the phytopathogenic fungi Alternaria brassicicola and Botrytis cinerea during exponential growth in axenic cultures.

Davanture M, Dumur J, Bataillé-Simoneau N, Campion C, Valot B, Zivy M, Simoneau P, Fillinger S.

Proteomics. 2014 Jul;14(13-14):1639-45. doi: 10.1002/pmic.201300541. Epub 2014 Jun 16.

PMID:
24825570
9.

Fitness measurement reveals contrasting costs in homologous recombinant mutants of Botrytis cinerea resistant to succinate dehydrogenase inhibitors.

Lalève A, Fillinger S, Walker AS.

Fungal Genet Biol. 2014 Jun;67:24-36. doi: 10.1016/j.fgb.2014.03.006. Epub 2014 Mar 30.

PMID:
24694728
10.

Site-directed mutagenesis of the P225, N230 and H272 residues of succinate dehydrogenase subunit B from Botrytis cinerea highlights different roles in enzyme activity and inhibitor binding.

Lalève A, Gamet S, Walker AS, Debieu D, Toquin V, Fillinger S.

Environ Microbiol. 2014 Jul;16(7):2253-66. doi: 10.1111/1462-2920.12282. Epub 2013 Oct 10.

PMID:
24119086
11.

A functional bikaverin biosynthesis gene cluster in rare strains of Botrytis cinerea is positively controlled by VELVET.

Schumacher J, Gautier A, Morgant G, Studt L, Ducrot PH, Le Pêcheur P, Azeddine S, Fillinger S, Leroux P, Tudzynski B, Viaud M.

PLoS One. 2013;8(1):e53729. doi: 10.1371/journal.pone.0053729. Epub 2013 Jan 7.

12.

Role of sterol 3-ketoreductase sensitivity in susceptibility to the fungicide fenhexamid in Botrytis cinerea and other phytopathogenic fungi.

Debieu D, Bach J, Montesinos E, Fillinger S, Leroux P.

Pest Manag Sci. 2013 May;69(5):642-51. doi: 10.1002/ps.3418. Epub 2012 Nov 9.

PMID:
23139232
13.

Functional and structural comparison of pyrrolnitrin- and iprodione-induced modifications in the class III histidine-kinase Bos1 of Botrytis cinerea.

Fillinger S, Ajouz S, Nicot PC, Leroux P, Bardin M.

PLoS One. 2012;7(8):e42520. doi: 10.1371/journal.pone.0042520. Epub 2012 Aug 13.

14.

The allele-specific probe and primer amplification assay, a new real-time PCR method for fine quantification of single-nucleotide polymorphisms in pooled DNA.

Billard A, Laval V, Fillinger S, Leroux P, Lachaise H, Beffa R, Debieu D.

Appl Environ Microbiol. 2012 Feb;78(4):1063-8. doi: 10.1128/AEM.06957-11. Epub 2011 Dec 9.

15.

Strong resistance to the fungicide fenhexamid entails a fitness cost in Botrytis cinerea, as shown by comparisons of isogenic strains.

Billard A, Fillinger S, Leroux P, Lachaise H, Beffa R, Debieu D.

Pest Manag Sci. 2012 May;68(5):684-91. doi: 10.1002/ps.2312. Epub 2011 Nov 2.

PMID:
22045588
16.

Genomic analysis of the necrotrophic fungal pathogens Sclerotinia sclerotiorum and Botrytis cinerea.

Amselem J, Cuomo CA, van Kan JA, Viaud M, Benito EP, Couloux A, Coutinho PM, de Vries RP, Dyer PS, Fillinger S, Fournier E, Gout L, Hahn M, Kohn L, Lapalu N, Plummer KM, Pradier JM, Quévillon E, Sharon A, Simon A, ten Have A, Tudzynski B, Tudzynski P, Wincker P, Andrew M, Anthouard V, Beever RE, Beffa R, Benoit I, Bouzid O, Brault B, Chen Z, Choquer M, Collémare J, Cotton P, Danchin EG, Da Silva C, Gautier A, Giraud C, Giraud T, Gonzalez C, Grossetete S, Güldener U, Henrissat B, Howlett BJ, Kodira C, Kretschmer M, Lappartient A, Leroch M, Levis C, Mauceli E, Neuvéglise C, Oeser B, Pearson M, Poulain J, Poussereau N, Quesneville H, Rascle C, Schumacher J, Ségurens B, Sexton A, Silva E, Sirven C, Soanes DM, Talbot NJ, Templeton M, Yandava C, Yarden O, Zeng Q, Rollins JA, Lebrun MH, Dickman M.

PLoS Genet. 2011 Aug;7(8):e1002230. doi: 10.1371/journal.pgen.1002230. Epub 2011 Aug 18.

17.

Two promoter rearrangements in a drug efflux transporter gene are responsible for the appearance and spread of multidrug resistance phenotype MDR2 in Botrytis cinerea isolates in French and German vineyards.

Mernke D, Dahm S, Walker AS, Lalève A, Fillinger S, Leroch M, Hahn M.

Phytopathology. 2011 Oct;101(10):1176-83. doi: 10.1094/PHYTO-02-11-0046.

18.

The osmosensing signal transduction pathway from Botrytis cinerea regulates cell wall integrity and MAP kinase pathways control melanin biosynthesis with influence of light.

Liu W, Soulié MC, Perrino C, Fillinger S.

Fungal Genet Biol. 2011 Apr;48(4):377-87. doi: 10.1016/j.fgb.2010.12.004. Epub 2010 Dec 19.

PMID:
21176789
19.

Fungicide-driven evolution and molecular basis of multidrug resistance in field populations of the grey mould fungus Botrytis cinerea.

Kretschmer M, Leroch M, Mosbach A, Walker AS, Fillinger S, Mernke D, Schoonbeek HJ, Pradier JM, Leroux P, De Waard MA, Hahn M.

PLoS Pathog. 2009 Dec;5(12):e1000696. doi: 10.1371/journal.ppat.1000696. Epub 2009 Dec 18.

20.

Genetic analysis of fenhexamid-resistant field isolates of the phytopathogenic fungus Botrytis cinerea.

Fillinger S, Leroux P, Auclair C, Barreau C, Al Hajj C, Debieu D.

Antimicrob Agents Chemother. 2008 Nov;52(11):3933-40. doi: 10.1128/AAC.00615-08. Epub 2008 Sep 8.

21.

The HOG1-like MAP kinase Sak1 of Botrytis cinerea is negatively regulated by the upstream histidine kinase Bos1 and is not involved in dicarboximide- and phenylpyrrole-resistance.

Liu W, Leroux P, Fillinger S.

Fungal Genet Biol. 2008 Jul;45(7):1062-74. doi: 10.1016/j.fgb.2008.04.003. Epub 2008 Apr 10.

PMID:
18495505
22.

A class III histidine kinase acts as a novel virulence factor in Botrytis cinerea.

Viaud M, Fillinger S, Liu W, Polepalli JS, Le Pêcheur P, Kunduru AR, Leroux P, Legendre L.

Mol Plant Microbe Interact. 2006 Sep;19(9):1042-50.

23.

Glycerol dehydrogenase, encoded by gldB is essential for osmotolerance in Aspergillus nidulans.

de Vries RP, Flitter SJ, van de Vondervoort PJ, Chaveroche MK, Fontaine T, Fillinger S, Ruijter GJ, d'Enfert C, Visser J.

Mol Microbiol. 2003 Jul;49(1):131-41.

24.

Essential Bacillus subtilis genes.

Kobayashi K, Ehrlich SD, Albertini A, Amati G, Andersen KK, Arnaud M, Asai K, Ashikaga S, Aymerich S, Bessieres P, Boland F, Brignell SC, Bron S, Bunai K, Chapuis J, Christiansen LC, Danchin A, Débarbouille M, Dervyn E, Deuerling E, Devine K, Devine SK, Dreesen O, Errington J, Fillinger S, Foster SJ, Fujita Y, Galizzi A, Gardan R, Eschevins C, Fukushima T, Haga K, Harwood CR, Hecker M, Hosoya D, Hullo MF, Kakeshita H, Karamata D, Kasahara Y, Kawamura F, Koga K, Koski P, Kuwana R, Imamura D, Ishimaru M, Ishikawa S, Ishio I, Le Coq D, Masson A, Mauël C, Meima R, Mellado RP, Moir A, Moriya S, Nagakawa E, Nanamiya H, Nakai S, Nygaard P, Ogura M, Ohanan T, O'Reilly M, O'Rourke M, Pragai Z, Pooley HM, Rapoport G, Rawlins JP, Rivas LA, Rivolta C, Sadaie A, Sadaie Y, Sarvas M, Sato T, Saxild HH, Scanlan E, Schumann W, Seegers JF, Sekiguchi J, Sekowska A, Séror SJ, Simon M, Stragier P, Studer R, Takamatsu H, Tanaka T, Takeuchi M, Thomaides HB, Vagner V, van Dijl JM, Watabe K, Wipat A, Yamamoto H, Yamamoto M, Yamamoto Y, Yamane K, Yata K, Yoshida K, Yoshikawa H, Zuber U, Ogasawara N.

Proc Natl Acad Sci U S A. 2003 Apr 15;100(8):4678-83. Epub 2003 Apr 7.

25.

cAMP and ras signalling independently control spore germination in the filamentous fungus Aspergillus nidulans.

Fillinger S, Chaveroche MK, Shimizu K, Keller N, d'Enfert C.

Mol Microbiol. 2002 May;44(4):1001-16.

26.

The bdbDC operon of Bacillus subtilis encodes thiol-disulfide oxidoreductases required for competence development.

Meima R, Eschevins C, Fillinger S, Bolhuis A, Hamoen LW, Dorenbos R, Quax WJ, van Dijl JM, Provvedi R, Chen I, Dubnau D, Bron S.

J Biol Chem. 2002 Mar 1;277(9):6994-7001. Epub 2001 Dec 13.

27.

Trehalose is required for the acquisition of tolerance to a variety of stresses in the filamentous fungus Aspergillus nidulans.

Fillinger S, Chaveroche MK, van Dijck P, de Vries R, Ruijter G, Thevelein J, d'Enfert C.

Microbiology. 2001 Jul;147(Pt 7):1851-62.

PMID:
11429462
28.

Molecular and physiological characterization of the NAD-dependent glycerol 3-phosphate dehydrogenase in the filamentous fungus Aspergillus nidulans.

Fillinger S, Ruijter G, Tamás MJ, Visser J, Thevelein JM, d'Enfert C.

Mol Microbiol. 2001 Jan;39(1):145-57.

29.

Two glyceraldehyde-3-phosphate dehydrogenases with opposite physiological roles in a nonphotosynthetic bacterium.

Fillinger S, Boschi-Muller S, Azza S, Dervyn E, Branlant G, Aymerich S.

J Biol Chem. 2000 May 12;275(19):14031-7.

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