selected publications
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article
- Insight rifampicin-resistant (rpoB) mutation in Pseudomonas stutzeri leads to enhance the biosynthesis of secondary metabolites to survive against harsh environments. Archives of Microbiology. 2022
- Identification of eight QTL controlling multiple yield components in a German multi-parental wheat population, including Rht24, WAPO-A1, WAPO-B1 and genetic loci on chromosomes 5A and 6A.. Theoretical and Applied Genetics. 2021
- Identification and cross-validation of genetic loci conferring resistance to Septoria nodorum blotch using a German multi-founder winter wheat population. Theoretical and Applied Genetics. 134:125-142. 2021
- Septoria nodorum blotch of wheat: disease management and resistance breeding in the face of shifting disease dynamics and a changing environment. Phytopathology. 2020
- Genetic mapping using a wheat multi-founder population reveals a locus on chromosome 2A controlling resistance to both leaf and glume blotch caused by the necrotrophic fungal pathogen Parastagonospora nodorum. Theoretical and Applied Genetics. 133:785-808. 2020
- Near infrared spectroscopy detection of the content of wheat based on improved deep belief network 2017
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document
- A Rifampicin-resistant (rpoB) Mutation in Pseudomonas Stutzeri Leads to Enhance the Biosynthesis of Secondary Metabolites and Nitrogen Fixation to Adapt Against Harsh Environments 2022
- A Rifampicin-resistant (rpoB) Mutation in Pseudomonas Stutzeri Leads to Enhance the Biosynthesis of Secondary Metabolites and Nitrogen Fixation to Adapt Against Harsh Environments. ResearchSquare. 2022