APA
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Dirr, A., Del Greco, A., Howe, S., Walker, L. S., Perri, M., Shukla, V., … Flashman, E. (2025). Engineering reduced activity in the oxygen-sensing Arabidopsis thaliana plant cysteine oxidase 4 enzyme results in improved flood resilience. BioRxiv, 2025–2007.
Chicago/Turabian
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Dirr, Anna, Arianna Del Greco, Simon Howe, Leah S Walker, Monica Perri, Vinay Shukla, Francesco Licausi, and Emily Flashman. “Engineering Reduced Activity in the Oxygen-Sensing Arabidopsis Thaliana Plant Cysteine Oxidase 4 Enzyme Results in Improved Flood Resilience.” bioRxiv (2025): 2025–07.
MLA
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Dirr, Anna, et al. “Engineering Reduced Activity in the Oxygen-Sensing Arabidopsis Thaliana Plant Cysteine Oxidase 4 Enzyme Results in Improved Flood Resilience.” BioRxiv, Cold Spring Harbor Laboratory, 2025, pp. 2025–07.
BibTeX Click to copy
@article{dirr2025a,
title = {Engineering reduced activity in the oxygen-sensing Arabidopsis thaliana plant cysteine oxidase 4 enzyme results in improved flood resilience},
year = {2025},
journal = {bioRxiv},
pages = {2025--07},
publisher = {Cold Spring Harbor Laboratory},
author = {Dirr, Anna and Del Greco, Arianna and Howe, Simon and Walker, Leah S and Perri, Monica and Shukla, Vinay and Licausi, Francesco and Flashman, Emily}
}