6lcq
From Proteopedia
Crystal structure of rice defensin OsAFP1
Structural highlights
FunctionCAL1_ORYSJ Plant defensin-like protein involved in accumulation of cadmium (Cd) in rice leaves. Mediates Cd efflux from cytosol into extracellular spaces via chelation. This drives Cd secretion from xylem parenchyma cells into the xylem vessels, hence lowering Cd levels in cytosol meanwhile promoting Cd translocation from roots to shoots.[1] Publication Abstract from PubMedDefensins are antibacterial peptides that function in the innate immune system. OsAFP1, a defensin identified from Oryza sativa (rice), exhibits antimicrobial activity against rice pathogens. Intriguingly, OsAFP1 was also shown to demonstrate potent antifungal activity against the human pathogenic fungus Candida albicans by inducing apoptosis in target cells, suggesting that OsAFP1 represents a potential new antibiotic candidate; however, further analyses, particularly at the structural level, are required to elucidate the mechanistic underpinnings of OsAFP1 antifungal activity. Here, we determined the three-dimensional structure of OsAFP1 using X-ray crystallography. OsAFP1 features the cysteine-stabilized alphabeta structure highly conserved in plant defensins and presents a dimeric structure that appears necessary for antifungal activity. Superimposition of the OsAFP1 structure with that of Nicotiana alata NaD1 complexed with phosphatidic acid indicated that the target molecule is likely trapped between the S2-S3 loops of each OsAFP1 dimer. In lipid-binding analyses performed using nitrocellulose membranes immobilized with various membrane lipid components, OsAFP1 was found to bind to phosphatidylinositols (PIPs) harboring phosphate groups, particularly PI(3)P. These results indicate that OsAFP1 exerts antifungal activity by binding to PI(3)P contained in the C. albicans cell membrane, thereby applying cellular stress and inducing apoptosis. Furthermore, the OsAFP1 structure and site-specific-mutation analyses revealed that Arg1, His2, Leu4, Arg9, and Phe10 play critical roles in OsAFP1 dimer formation. Thus, our study provides novel insights into the antifungal mechanism of OsAFP1. Crystal structure of rice defensin OsAFP1 and molecular insight into lipid-binding.,Ochiai A, Ogawa K, Fukuda M, Suzuki M, Ito K, Tanaka T, Sagehashi Y, Taniguchi M J Biosci Bioeng. 2020 Mar 16. pii: S1389-1723(19)31119-3. doi:, 10.1016/j.jbiosc.2020.02.011. PMID:32192842[2] From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine. References
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Categories: Large Structures | Oryza sativa | Fukuda M | Ito K | Ochiai A | Ogawa K | Sagehashi Y | Suzuki M | Tanaka T | Taniguchi M
