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Publication Abstract from PubMed

Urea is a primary nitrogen source used as fertilizer in agricultural plant production and a crucial nitrogen metabolite in plants, playing an essential role in modern agriculture. In plants, DUR3 is a proton-driven high-affinity urea transporter located on the plasma membrane. It not only absorbs external low-concentration urea as a nutrient but also facilitates nitrogen transfer by recovering urea from senescent leaves. Despite its importance, the high-affinity urea transport mechanism in plants remains insufficiently understood. In this study, we determine the structures of Arabidopsis thaliana DUR3 in two different conformations: the inward-facing open state of the apo structure and the occluded urea-bound state, with overall resolutions of 2.8 A and 3.0 A, respectively. By comparing these structures and analyzing their functional characteristics, we elucidated how urea molecules are specifically recognized. In the urea-bound structure, we identified key titratable amino acid residues and proposed a model for proton involvement in urea transport based on structural and functional data. This study enhances our understanding of proton-driven urea transport mechanisms in DUR3.

Structural basis of urea transport by Arabidopsis thaliana DUR3.,An W, Gao Y, Liu L, Bai Q, Zhao J, Zhao Y, Zhang XC Nat Commun. 2025 Feb 20;16(1):1782. doi: 10.1038/s41467-025-56943-2. PMID:39972035^[3]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.