Figure 2 Aedes aegypti mosquito (Image source: Baidu Image Library) The study of this symbiotic relationship helps to gain insight into the ecological adaptations of its ability to adapt to different environments. Understanding the positive effects of microorganisms on their hosts is expected to provide new ideas for the plasticity of the symbiotic relationship are still issues that need to be studied in depth, which will contribute to a better understanding of the interaction mechanisms between micro The diversity of gut microorganisms in and function of the microbial community and the symbiotic relationship with the host. An in area will help to reveal the role of microbes in the ecology of understanding for future prevention and control strategies. The understanding of microbial diversity will also provide useful references for research in 2 The Spread of Dengue Fever Virus in 2.1 The lifecycle of viruses The dengue virus life cycle undergoes several key steps in usually a patient with dengue fever. When this patient is bitten by an infected mosquito's body. Inside the mosquito, the virus first needs to overcome the mosquito's defenses, inc enzymes in the saliva and defense reactions in the abdomen. Figure 3 Dengue virus (Image source: Baidu Image Library) Once the dengue virus has successfully entered the mosquito's body, it will enter the mosquito's intestine. In the gut, the virus will interact with the mosquito's intestinal cells to begin the next stage of its life cycle. The virus will replicate in the gut cells and enter the mosquito's internal circulatory system through its body fluids. Over time, the virus spreads throughout t deposited in the mosquito's salivary glands, ready to be transmitted to the next host through a bite. 2.2 Host virus interaction The host's immune system plays a crucial role in the in (Souza-Neto et al., 2019). The mosquito's immune system recognizes and fights the invading virus, a complex and Journal of Mosquito Research 2024, Vol.14, No.1, 1 http://emtoscipublisher.com/index.php/jmr 3 symbiotic relationship helps to gain insight into the ecological adaptations of is expected to provide new ideas for the future regulation of mosquito-borne diseases. Notably, the stability and better understanding of the interaction mechanisms between microbes and Aedes aegypti. Aedes aegypti is a comprehensive research topic, implicating the structure ll help to reveal the role of microbes in the ecology of Aedes aegypti and provide a more comprehensive provide useful references for research in other areas of vector biology. Aedes aegypti Aedes aegypti (Figure 3). The source of infection is Aedes aegypti will interact with the mosquito's intestinal cells to begin the next stage of its life cycle. The virus Over time, the virus spreads throughout the mosquito's body, affecting multiple organs. Eventually, the virus is The host's immune system plays a crucial role in the interaction between Aedes aegypti Neto et al., 2019). The mosquito's immune system recognizes and fights the invading virus, a complex and 4, Vol.14, No.1, 1-9 Aedes aegypti and borne diseases. Notably, the stability and and function of the microbial community and the symbiotic relationship with the host. An in-depth study of this , the virus enters the mosquito's body. Inside the mosquito, the virus first needs to overcome the mosquito's defenses, including he mosquito's body, affecting multiple organs. Eventually, the virus is and dengue virus
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