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작성자 Fermin 작성일24-12-16 21:38 조회7회 댓글0건관련링크
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SV388 is a well-characterized cell line that has garnered significant interest among researchers in the fields of virology, oncology, and immunology. Derived from the embryonic tissues of chickens, specifically the bursa of Fabricius, SV388 is often utilized as a model to study various aspects of cell biology and pathology due to its unique properties and characteristics.
SV388 was initially established in the 1970s from a tumor in chickens, specifically those afflicted with a viral-induced lymphoid neoplasm. The cells are abnormal in nature and capable of continuous growth in vitro, which is a vital feature for laboratory studies. The cell line exhibits characteristics typical of transformed cells, including increased proliferation rates and altered morphology. It is adherent and forms monolayer cultures that contribute to its ease of use in laboratory settings.
One of the noteworthy attributes of SV388 is its susceptibility to various viral infections, including those caused by avian retroviruses. This makes it a suitable model for studying virus-cell interactions, viral pathogenesis, and responses to viral treatments. Its origins from avian species allow researchers to explore avian-specific diseases and their similarities or differences when compared to mammalian systems.
Research utilizing SV388 spans several domains, with notable emphasis on understanding cancer biology and viral interactions. The cell line is frequently employed to investigate the mechanisms of tumorigenesis and the pathways involved in oncogenic transformation. Studies have focused on cellular signaling pathways such as those driven by oncogenes and tumor suppressors, providing insights that could inform therapeutic strategies for cancer in both avian and mammalian species.
Additionally, SV388 is pivotal in virology research, predominantly concerning avian diseases. Researchers often utilize this cell line to evaluate the effects of viral infections on cellular processes. This includes studies on viral replication, cellular responses to infection, and the testing of antiviral compounds. Through the use of SV388, researchers can gain a deeper understanding of how viruses impact host cells and the potential for developing vaccines or treatments for viral infections.
Moreover, SV388 has been employed in immunological studies, especially those examining the immune responses in avian species. Understanding how the immune system of chickens reacts to various stimuli, including infections and tumors, has implications for poultry health and management. This knowledge is increasingly vital in the context of zoonotic diseases, where avian pathogens could potentially influence human health.
SV388 continues to serve as an invaluable resource in biological research, url particularly in understanding cancer and viral dynamics. Its unique characteristics and properties make it a vital tool for researchers aiming to unravel the complexities of cell transformation, viral infection mechanisms, and immune responses. As advancements in molecular biology and genetic engineering evolve, the applications of SV388 may expand further, potentially leading to breakthroughs in both veterinary and human medicine. The ongoing study of this cell line underscores the importance of using model systems to elucidate biological processes critical for health and disease.
Origin and Characteristics
SV388 was initially established in the 1970s from a tumor in chickens, specifically those afflicted with a viral-induced lymphoid neoplasm. The cells are abnormal in nature and capable of continuous growth in vitro, which is a vital feature for laboratory studies. The cell line exhibits characteristics typical of transformed cells, including increased proliferation rates and altered morphology. It is adherent and forms monolayer cultures that contribute to its ease of use in laboratory settings.
One of the noteworthy attributes of SV388 is its susceptibility to various viral infections, including those caused by avian retroviruses. This makes it a suitable model for studying virus-cell interactions, viral pathogenesis, and responses to viral treatments. Its origins from avian species allow researchers to explore avian-specific diseases and their similarities or differences when compared to mammalian systems.
Applications in Research
Research utilizing SV388 spans several domains, with notable emphasis on understanding cancer biology and viral interactions. The cell line is frequently employed to investigate the mechanisms of tumorigenesis and the pathways involved in oncogenic transformation. Studies have focused on cellular signaling pathways such as those driven by oncogenes and tumor suppressors, providing insights that could inform therapeutic strategies for cancer in both avian and mammalian species.
Additionally, SV388 is pivotal in virology research, predominantly concerning avian diseases. Researchers often utilize this cell line to evaluate the effects of viral infections on cellular processes. This includes studies on viral replication, cellular responses to infection, and the testing of antiviral compounds. Through the use of SV388, researchers can gain a deeper understanding of how viruses impact host cells and the potential for developing vaccines or treatments for viral infections.
Moreover, SV388 has been employed in immunological studies, especially those examining the immune responses in avian species. Understanding how the immune system of chickens reacts to various stimuli, including infections and tumors, has implications for poultry health and management. This knowledge is increasingly vital in the context of zoonotic diseases, where avian pathogens could potentially influence human health.
Conclusion
SV388 continues to serve as an invaluable resource in biological research, url particularly in understanding cancer and viral dynamics. Its unique characteristics and properties make it a vital tool for researchers aiming to unravel the complexities of cell transformation, viral infection mechanisms, and immune responses. As advancements in molecular biology and genetic engineering evolve, the applications of SV388 may expand further, potentially leading to breakthroughs in both veterinary and human medicine. The ongoing study of this cell line underscores the importance of using model systems to elucidate biological processes critical for health and disease.
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