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职业迁徙
个人简介
Research Areas
Plant Immunity, Hybrid Necrosis, Evolutionary Genetics, Functional Genomics
Research Interests
Adaptive traits contribute to reproductive success of an organism, and therefore the evolutionary history of adaptation is encoded in the genomes of a species. Now is the most exciting time to investigate intraspecific variation in adaptive traits, as the advent of new sequencing tools made tremendous population genomic information available in a given plant species (1001 Genomes Consortium, 2016). By exploiting systems genetics approaches, we aim to understand how plants build their immunity under constant environmental challenges, how intraspecific variability in the immunity ensures population’s fitness, and how complex network in the plant immune system play a role in finely modulating growth and defense. Given that plants in nature or in the field are not faced with one, but with a great multitude of stresses, and that individual variability in stress responses is crucial for adaptation, species-, genome-wide approaches will greatly complement current understanding on plant adaptation, most of which stemmed from generalized results from a single-genetic background experiments. We foresee that knowledges gained from our research can be translated to develop germplasm with optimized combinations of stress response and agronomic performance
Plant Immunity, Hybrid Necrosis, Evolutionary Genetics, Functional Genomics
Research Interests
Adaptive traits contribute to reproductive success of an organism, and therefore the evolutionary history of adaptation is encoded in the genomes of a species. Now is the most exciting time to investigate intraspecific variation in adaptive traits, as the advent of new sequencing tools made tremendous population genomic information available in a given plant species (1001 Genomes Consortium, 2016). By exploiting systems genetics approaches, we aim to understand how plants build their immunity under constant environmental challenges, how intraspecific variability in the immunity ensures population’s fitness, and how complex network in the plant immune system play a role in finely modulating growth and defense. Given that plants in nature or in the field are not faced with one, but with a great multitude of stresses, and that individual variability in stress responses is crucial for adaptation, species-, genome-wide approaches will greatly complement current understanding on plant adaptation, most of which stemmed from generalized results from a single-genetic background experiments. We foresee that knowledges gained from our research can be translated to develop germplasm with optimized combinations of stress response and agronomic performance
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论文共 43 篇作者统计合作学者相似作者
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biorxiv(2023)
Li Fan,Katja Fröhlich, Eric Melzer,Rory N. Pruitt,Isabell Albert,Lisha Zhang,Anna Joe,Chenlei Hua, Yanyue Song,Markus Albert,Sang-Tae Kim,Detlef Weigel,
user-6073b1344c775e0497f43bf9(2022)
The New phytologistno. 3 (2021): 1296
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