02573naa a2200313 a 450000100080000000500110000800800410001910000160006024501300007626000090020650001510021552014970036665000130186365000260187665000130190265000260191565300230194165300370196465300150200165300260201665300340204270000210207670000200209770000160211770000250213370000240215870000170218277300600219921093682019-09-05       2019    bl uuuu     u00u1 u    #d1 aVERGARA, C.  aPlant-mycorrhizal fungi interaction and response to inoculation with different growth-promoting fungi.h[electronic resource]  c2019  aTítulo em português: Interação da planta com fungo micorrízico e sua resposta à inoculação com diferentes fungos promotores de crescimento  aThe symbiotic interaction between arbuscular mycorrhizal fungi (AMF) and 70?90% of the plant species is largely studied, but ectomycorrhizal fungi, Piriformospora indica, Trichoderma sp., and dark septate endophytes (DSE), also establish beneficial interactions with plants. Despite this, the joint discussion on the biochemical, physiological, and molecular aspects of nutrient transfer, mainly from the extraradical mycelium (ERM) to the plant, is still limited. The objective of this review is to present biochemical, physiological, and molecular approaches to the plant-AMF interaction, as well as to analyze the response of plants to inoculations with different growthpromoting fungi. Here, are highlighted the characteristics of the H+-ATPases and of the transporters of NH4 + and H2PO4 - involved in the absorption of phosphorus and nitrogen by the soil through the ERM of the AMF, besides the biochemical aspects of the metabolism of both nutrients in the ERM and their translocations from the ERM to the intraradical mycelium and to the host plant. Finally, the nitrogen fertilizer recovery efficiency in plants inoculated with AMF, Trichoderma sp., P. indica, and DSE fungi is presented. By examining, together, the biochemical, physiological, and molecular aspects of the plant-AMF interaction and the nitrogen fertilizer recovery efficiency in inoculated plants, it is possible to conclude that a low-input agriculture could be achieved with the use of these fungi in agrosystems.  aarginine  aPiriformospora indica  aArginina  aTrichoderma Harzianum  aDark septate fungi  aFungos endofíticos dark septate  aH+-ATPases  aNutrient transporters  aTransportadores de nutrientes1 aARAUJO, K. E. C.1 aSOUZA, S. R. de1 aSCHULTZ, N.1 aSAGGIN JUNIOR, O. J.1 aSPERANDIO, M. V. L.1 aZILLI, J. E.  tPesquisa Agropecuária Brasileiragv. 54, e25140, 2019.