@leegochengdu: Shoes at the entrance of the house are always in a mess with no place to put them. You can place a dustproof multi-layer shoe rack at the entrance, which is large-capacity and thickened. It's beautiful and practical for rental houses, dormitories, and shoe storage cabinets. #ShoeRack #StorageOrganization #Practical #HatRack #DustproofShoeRack#FridayFriyay #BonggangFridayFriyay

Leego Home Furnishings Store
Leego Home Furnishings Store
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Region: PH
Saturday 13 July 2024 01:57:25 GMT
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mrjonathan85
Jonathan :
2025-09-16 07:55:56
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user9037108619054
♕༺༽༼༻♡"مـلگهہ آلجمـآل"♡༺༽༼༻♕ :
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2025-07-09 22:26:51
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lailasalame
Laila Salame :
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2025-06-25 17:07:39
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The Influenza virus is primarily transmitted between individuals through large respiratory droplets, direct contact, or airborne dispersal. Infection occurs predominantly in the respiratory tract, beginning with the attachment of viral surface proteins to specific receptors on the host cell membrane. The virus is then internalized via receptor-mediated endocytosis, becoming enclosed within a membrane-bound vesicle that transports the viral core into the host cell. Inside the cell, the vesicle is actively transported along microtubules by kinesin motor proteins. During transit, the viral envelope fuses with the vesicle membrane, initiating capsid uncoating and the subsequent release of viral RNA and proteins into the cytoplasm. These viral components are then directed towards the nucleus, where they enter through nuclear pore complexes. Within the nucleus, the host cell’s transcriptional and replication machinery is hijacked to replicate the viral genome and produce viral messenger RNA (mRNA). The viral mRNA exits the nucleus to engage with host ribosomes, facilitating the synthesis of viral proteins. Once synthesized, certain viral proteins re-enter the nucleus to associate with newly replicated viral RNA, forming ribonucleoprotein complexes. These nucleoproteins exit the nucleus and utilize cellular transport mechanisms to reach the cell membrane. Meanwhile, viral envelope proteins are synthesized and processed in the endoplasmic reticulum and Golgi apparatus before being trafficked to the plasma membrane. At the cell surface, the newly assembled nucleoprotein complexes interact with the viral envelope proteins, facilitating the formation of progeny virions. These newly formed virions are released from the host cell via budding, enabling them to infect additional cells. Currently, vaccination remains the most effective strategy for controlling influenza and certain other viral diseases by stimulating the production of neutralizing antibodies and activating host immune responses. However, vaccines are less effective against viruses with high mutation rates and remain ineffective against certain pathogens, such as those responsible for the common cold and HIV/AIDS.#bio #cold #flu #Science #biotech #biotechpulse #influenza
The Influenza virus is primarily transmitted between individuals through large respiratory droplets, direct contact, or airborne dispersal. Infection occurs predominantly in the respiratory tract, beginning with the attachment of viral surface proteins to specific receptors on the host cell membrane. The virus is then internalized via receptor-mediated endocytosis, becoming enclosed within a membrane-bound vesicle that transports the viral core into the host cell. Inside the cell, the vesicle is actively transported along microtubules by kinesin motor proteins. During transit, the viral envelope fuses with the vesicle membrane, initiating capsid uncoating and the subsequent release of viral RNA and proteins into the cytoplasm. These viral components are then directed towards the nucleus, where they enter through nuclear pore complexes. Within the nucleus, the host cell’s transcriptional and replication machinery is hijacked to replicate the viral genome and produce viral messenger RNA (mRNA). The viral mRNA exits the nucleus to engage with host ribosomes, facilitating the synthesis of viral proteins. Once synthesized, certain viral proteins re-enter the nucleus to associate with newly replicated viral RNA, forming ribonucleoprotein complexes. These nucleoproteins exit the nucleus and utilize cellular transport mechanisms to reach the cell membrane. Meanwhile, viral envelope proteins are synthesized and processed in the endoplasmic reticulum and Golgi apparatus before being trafficked to the plasma membrane. At the cell surface, the newly assembled nucleoprotein complexes interact with the viral envelope proteins, facilitating the formation of progeny virions. These newly formed virions are released from the host cell via budding, enabling them to infect additional cells. Currently, vaccination remains the most effective strategy for controlling influenza and certain other viral diseases by stimulating the production of neutralizing antibodies and activating host immune responses. However, vaccines are less effective against viruses with high mutation rates and remain ineffective against certain pathogens, such as those responsible for the common cold and HIV/AIDS.#bio #cold #flu #Science #biotech #biotechpulse #influenza

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