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Julian pioneered characterizations of plant ion channels, which led to models of their unique functions in plant biology. He also pioneered functional characterizations of genes encoding plant ion transport proteins and their roles in stress tolerance. His present research has identified mechanisms and genes that allow plants to withstand drought and salinity stress. His laboratory has discovered CO2-binding proteins and mechanisms that mediate plant responses to the continuing atmospheric CO2 elevation and leaf CO2 concentration changes and has found that these CO2 binding proteins can be used to increase the instantaneous water use efficiency of plants. Julian Schroeder has received awards, including the Presidential Young Investigator Award from NSF, the Charles Albert Shull Award from the American Soc. of Plant Biologists, the DFG Heinz-Maier-Leibnitz Research Prize, the Blasker Award in Environmental Science and Engineering, was named Highly Cited Researcher by the Institute for Scientific Information, received a Feodor-Lynen Fellowship from the Alexander von Humboldt Foundation as a post doctoral scholar and with collaborators shared the Cozzarelli Prize from PNAS (2010) and in a top 10 breakthrough of the year selected by Science (2009).
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bioRxiv : the preprint server for biology (2023)
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Priyanka Kushwaha,Alexandria Tran, Diego Quintero,Miranda Song,Qi Yu,Ruth Yu, Michael Downes,Ronald M. Evans,Alicja Babst-Kostecka,Julian I. Schroeder,Raina M. Maier
The Science of the total environment (2023): 165667-165667
Götz Thomalla, Mira Upneja,Stephan Camen,Märit Jensen,Julian Schröder,Ewgenia Barow, Stefan Boskamp, Birgit Ostermeier, Sandra Kissling,Elke Leinisch, Claudia Tiburtius, Henning Clausen,
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