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W4387235004 endingPage "1918" @default.
W4387235004 startingPage "1918" @default.
W4387235004 abstract "Arbuscular mycorrhizal fungi (AMF) form a vital symbiotic relationship with plants. Through their extensive hyphal networks, AMF extend the absorptive capacity of plant roots, thereby allowing plants to reach otherwise inaccessible micronutrient sources. Iron, a critical micronutrient involved in photosynthesis and other metabolic processes, often becomes inaccessible owing to its tendency to form insoluble complexes in soil. AMF symbiosis significantly ameliorates this challenge by enhancing iron uptake and homeostasis in plants, altering root architecture, and producing root exudates that improve iron solubility. Moreover, the interaction with diverse soil bacteria, particularly plant growth-promoting rhizobacteria, can potentiate the benefits of AMF symbiosis. Siderophores are low-molecular-weight chelators with iron-binding capacities produced by various microorganisms and plant roots. They play pivotal roles in regulating intracellular iron and have been identified in different mycorrhizal associations, including AMF. While molecular mechanisms behind AMF-mediated iron uptake have been partially explored, the intricate networks involving AMF, plants, siderophores, and other soil microbiota are largely unknown. This review focuses on the multifaceted roles of AMF in plant–iron homeostasis, interactions with soil bacteria, and the potential of siderophores in these processes, emphasizing the possibilities for harnessing these relationships for sustainable agriculture and enhancing plant productivity." @default.
W4387235004 created "2023-10-02" @default.
W4387235004 creator A5021461327 @default.
W4387235004 creator A5039715992 @default.
W4387235004 creator A5084624399 @default.
W4387235004 date "2023-09-30" @default.
W4387235004 modified "2023-10-16" @default.
W4387235004 title "Exploring the Roles of Arbuscular Mycorrhizal Fungi in Plant–Iron Homeostasis" @default.
W4387235004 cites W1705604029 @default.
W4387235004 cites W1969028440 @default.
W4387235004 cites W1970546603 @default.
W4387235004 cites W1987270409 @default.
W4387235004 cites W1988024684 @default.
W4387235004 cites W1993138539 @default.
W4387235004 cites W2010421115 @default.
W4387235004 cites W2014723793 @default.
W4387235004 cites W2015336962 @default.
W4387235004 cites W2020580739 @default.
W4387235004 cites W2024178681 @default.
W4387235004 cites W2029785731 @default.
W4387235004 cites W2039662911 @default.
W4387235004 cites W2044887846 @default.
W4387235004 cites W2063905064 @default.
W4387235004 cites W2064340631 @default.
W4387235004 cites W2073730073 @default.
W4387235004 cites W2099143902 @default.
W4387235004 cites W2114012147 @default.
W4387235004 cites W2115600629 @default.
W4387235004 cites W2118436257 @default.
W4387235004 cites W2123595241 @default.
W4387235004 cites W2136748450 @default.
W4387235004 cites W2140888222 @default.
W4387235004 cites W2145646735 @default.
W4387235004 cites W2146005565 @default.
W4387235004 cites W2171519459 @default.
W4387235004 cites W2172598864 @default.
W4387235004 cites W2288816696 @default.
W4387235004 cites W2333485315 @default.
W4387235004 cites W2373105510 @default.
W4387235004 cites W2477053143 @default.
W4387235004 cites W2541088423 @default.
W4387235004 cites W2625609843 @default.
W4387235004 cites W2744873404 @default.
W4387235004 cites W2769075795 @default.
W4387235004 cites W2792482912 @default.
W4387235004 cites W2805286428 @default.
W4387235004 cites W2893529842 @default.
W4387235004 cites W2898102907 @default.
W4387235004 cites W2899885101 @default.
W4387235004 cites W2900261612 @default.
W4387235004 cites W2903453779 @default.
W4387235004 cites W2904158021 @default.
W4387235004 cites W2911452928 @default.
W4387235004 cites W2957001197 @default.
W4387235004 cites W2986887440 @default.
W4387235004 cites W2999833120 @default.
W4387235004 cites W3002386334 @default.
W4387235004 cites W3009386573 @default.
W4387235004 cites W3010227316 @default.
W4387235004 cites W3011814862 @default.
W4387235004 cites W3012596379 @default.
W4387235004 cites W3022813447 @default.
W4387235004 cites W3034201177 @default.
W4387235004 cites W3034871987 @default.
W4387235004 cites W3040936779 @default.
W4387235004 cites W3048316001 @default.
W4387235004 cites W3089748766 @default.
W4387235004 cites W3109304891 @default.
W4387235004 cites W3133469065 @default.
W4387235004 cites W3168401786 @default.
W4387235004 cites W3181168811 @default.
W4387235004 cites W3184745983 @default.
W4387235004 cites W3196217795 @default.
W4387235004 cites W3199586571 @default.
W4387235004 cites W3209579615 @default.
W4387235004 cites W3212656465 @default.
W4387235004 cites W4200345036 @default.
W4387235004 cites W4210683320 @default.
W4387235004 cites W4210998316 @default.
W4387235004 cites W4212773705 @default.
W4387235004 cites W4220785752 @default.
W4387235004 cites W4221027300 @default.
W4387235004 cites W4281765216 @default.
W4387235004 cites W4281946183 @default.
W4387235004 cites W4282917660 @default.
W4387235004 cites W4283653455 @default.
W4387235004 cites W4295346142 @default.
W4387235004 cites W4321596165 @default.
W4387235004 cites W4324128675 @default.
W4387235004 cites W4327841726 @default.
W4387235004 cites W4376137553 @default.
W4387235004 cites W4378384675 @default.
W4387235004 cites W4385264389 @default.
W4387235004 cites W56578306 @default.
W4387235004 doi "https://doi.org/10.3390/agriculture13101918" @default.
W4387235004 hasPublicationYear "2023" @default.
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