Innate immunity is the first line of the host cell defensing against viral infection,in which the pattern recognition re-ceptors(PRRs)such as Toll-like receptors(TLRs)and retinoic acid induces gene Ⅰ-like receptors(RLRs)play an important role.After virus infection,mitochondrial antiviral signaling protein(MAVS)in PRRs-mediated signaling pathway,which are of the com-mon linker molecule for downstream signal transmission,can receive signals transmitted by upstream TLR and RIG-Ⅰ,activate down-stream NF-κB and IRF3/7 signaling pathways leading to the activation of interferon(IFN)expression.Therefore MAVS acts as a bridge in the innate immune signaling pathway.More and more studies have shown that viruses have evolved a series of mechanism to escape the innate immune response over the long course of their evolution,and evaded the host's antiviral immune response by interfer-ing with multiple sites in the MAVS-mediated signaling pathway so as to complete its own replication and proliferation.In this paper,the role of MAVS in IFN-Ⅰ pathway and its latest research progress in the mechanism of anti-DNA viruses and anti-RNA viruses reac-tion are reviewed,providing theoretical basis for further studying the detailed mechanism of anti-virus of MAVS.

Iron (Fe) is an important trace element involved in many important plant physiological and metabolic processes such as photosynthesis, respiration and nitrogen metabolism. Plants maintain iron homeostasis through absorption, transporting, storage and redistribution of iron. Iron metabolism is strictly regulated in plants. Iron regulatory transcription factors and iron transporters constitute the regulatory network of plant iron absorption and transport in plants. Ferritin and iron transporter jointly regulate the response to excess iron in plants. In recent years, important progress has been made in understanding how abscisic acid (ABA) regulates iron metabolism in plants. ABA may be used as a signal to regulate the absorption, transportation and reuse of Fe, or to relieve the symptoms of iron stress by regulating the oxidative stress responses in plants. In order to gain deeper insights into the crosstalk of ABA and iron metabolism in plants, this review summarized the mechanisms of iron absorption and transport and metabolic regulatory network in plants, as well as the mechanisms of ABA in regulating iron metabolism. The relationship between ABA and FER-like iron deficiency-induced transcription factor (FIT), iron-regulated transporter 1 (IRT1), and oxidative stress of iron deficiency were highlighted, and future research directions were prospected.
Abscisic Acid/metabolism* ; Gene Expression Regulation, Plant ; Homeostasis ; Iron/metabolism* ; Plants/metabolism* ; Transcription Factors/metabolism*