When eukaryotic cells are undergoing stimulations like oxidative stress,heat shock,or vi-ral infection,cellular stress response will quickly initiate to stop translation,leading to the produc-tion of a large number of stress granules(SGs).SGs,as dynamic membraneless protein-RNA ag-gregates,play an important role in maintaining cellular homeostasis and regulating host gene ex-pression.Upon viral invasion,the host halts translation to form SGs,thereby arresting the transla-tion of viral proteins within host cells.This process recruits innate immune-related host factors,limiting the virus from exploiting host translation machinery to complete its life cycle.It activates the innate immune pathway.However,some viruses have evolved multiple mechanisms to counter SGs,in order to provide a better intracellular environment for viral replication.Here,we review the generation of SGs,antiviral mechanism of SGs,and the strategies for escaping SGs during virus e-volution,in order to provide a new perspective for the development of antiviral drugs.

Coronavirus infection can cause serious respiratory and digestive system diseases in hu-mans and animals.In recent years,the frequent outbreaks and newly outbreaks of coronavirus in-fection have threatened global public health and the development of livestock and poultry.Howev-er,the development of anti-coronavirus drugs and vaccines was restricted due to the insufficient understanding of the mechanisms of coronavirus pathogenesis and cross species transmission.Re-verse genetic manipulation technology is a powerful tool in virological research,which can be used for the study of pathogenesis mechanisms,replication mechanisms and function analysis of protein.It is also be used in the development of attenuated or gene labeled vaccines,and antiviral drugs.Due to the large genome and complex structure of the coronavirus,the reverse genetic manipulation technology of coronavirus has been lagging for a long time.With the continuous updating of molec-ular biology methods,various new construction strategies have emerged.This article focuses on the construction strategy of the reverse genetic operating system for coronavirus,as well as its applica-tion in virus transmission and pathogenic mechanisms,and development of vaccines,which will provide favorable tools for the prevention and control of the coronavirus infection.