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Genome Sequence Resource of Fusarium graminearum TaB10 and Fusarium avenaceum KA13, Causal Agents of Stored Apple Rot

Journal article

M. Petreš, J. Hrustić, N. Vučinić, Li‐Jun Ma, Dilay Hazal Ayhan, M. Grahovac
Molecular Plant-Microbe Interactions, 2022
Semantic Scholar DOI PubMedCentral PubMed
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APA   Click to copy
Petreš, M., Hrustić, J., Vučinić, N., Ma, L. J., Ayhan, D. H., & Grahovac, M. (2022). Genome Sequence Resource of Fusarium graminearum TaB10 and Fusarium avenaceum KA13, Causal Agents of Stored Apple Rot. Molecular Plant-Microbe Interactions.

Chicago/Turabian   Click to copy
Petreš, M., J. Hrustić, N. Vučinić, Li‐Jun Ma, Dilay Hazal Ayhan, and M. Grahovac. “Genome Sequence Resource of Fusarium Graminearum TaB10 and Fusarium Avenaceum KA13, Causal Agents of Stored Apple Rot.” Molecular Plant-Microbe Interactions (2022).

MLA   Click to copy
Petreš, M., et al. “Genome Sequence Resource of Fusarium Graminearum TaB10 and Fusarium Avenaceum KA13, Causal Agents of Stored Apple Rot.” Molecular Plant-Microbe Interactions, 2022.

BibTeX   Click to copy 

@article{m2022a,
  title = {Genome Sequence Resource of Fusarium graminearum TaB10 and Fusarium avenaceum KA13, Causal Agents of Stored Apple Rot},
  year = {2022},
  journal = {Molecular Plant-Microbe Interactions},
  author = {Petreš, M. and Hrustić, J. and Vučinić, N. and Ma, Li‐Jun and Ayhan, Dilay Hazal and Grahovac, M.}
}

Abstract

The filamentous fungus Fusarium graminearum is a well-known cereal pathogen and F. avenaceum is a pathogen with a wide host range. Recently, both species were reported as causal agents of apple rot, raising concerns about postharvest yield losses and mycotoxin contamination. Here, we report genome assemblies of F. avenaceum KA13 and F. graminearum TaB10, both isolated from fruits with symptoms of apple rot. The final F. avenaceum KA13 genome sequence assembly of 41.7 Mb consists of 34 scaffolds, with an N50 value of 2.2 Mb and 15,886 predicted genes. The total size of the final F. graminearum TaB10 assembly is 36.76 Mb, consisting of 54 scaffolds with an N50 value of 1.7 Mb, and it consists of 14,132 predicted genes. These new genomes provide valuable resources to better understand plant-microbe interaction in stored apple rot disease.