Publications of Jessica L. Soyer

Journal Article (5)

1.
Journal Article
Soyer, J. L.; Clairet, C.; Gay, E. J.; Lapalu, N.; Rouxel, T.; Stukenbrock, E. H.; Fudal, I.: Genome-wide mapping of histone modifications in two species of Leptosphaeria maculans showing contrasting genomic organization and host specialization. Chromosome Research 29, pp. 219 - 236 (2021)
2.
Journal Article
Schotanus, K.; Soyer, J. L.; Connolly, L. R.; Grandaubert, J.; Happel, P.; Smith, K. M.; Freitag, M.; Stukenbrock, E. H.: Histone modifications rather than the novel regional centromeres of Zymoseptoria tritici distinguish core and accessory chromosomes. Epigenetics & Chromatin 8 (1), 41 (2015)
3.
Journal Article
Soyer, J. L.; Rouxel, T.; Fudal, I.: Chromatin-based control of effector gene expression in plant-associated fungi. Current Opinion in Plant Biology 26, pp. 51 - 56 (2015)
4.
Journal Article
Soyer, J. L.; Hamiot, A.; Ollivier, B.; Balesdent, M.-H.; Rouxel, T.; Fudal, I.: The APSES transcription factor LmStuA is required for sporulation, pathogenic development and effector gene expression in Leptosphaeria maculans. Molecular Plant Pathology, 12249 (2015)
5.
Journal Article
Soyer, J. L.; Möller, M.; Schotanus, K.; Connolly, L. R.; Galazka, J. M.; Freitag, M.; Stukenbrock, E. H.: Chromatin analyses of Zymoseptoria tritici: methods for chromatin immunoprecipitation followed by high-throughput sequencing (ChIP-seq). Fungal Genetics and Biology 79, YFGBI 2798, pp. 63 - 70 (2015)

Conference Report (1)

6.
Conference Report
Moeller, M.; Schotanus, K.; Soyer, J.; Freitag, M.; Stukenbrock, E. H.: Zymoseptoria tritici histone modifications distinguish core and accessory chromosomes and play an important role in genome stability. International Congress of Plant Pathology (ICPP), Boston, July 29, 2018 - August 03, 2018. Phytopathology 108 (10), Supplement S1 Ed., pp. 282 - 283 (2018)

Working Paper (1)

7.
Working Paper
Soyer, J. L.; Grandaubert, J.; Haueisen, J.; Schotanus, K.; Stukenbrock, E. H.: In planta chromatin immunoprecipitation in Zymoseptoria tritici reveals chromatin-based regulation of putative effector gene expression. bioRxiv (2019)
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