oligodendria damage
少突膠質細胞損傷
oligodendria loss
少突膠質細胞損失
oligodendria regeneration
少突膠質細胞再生
damaged oligodendria
受損的少突膠質細胞
healthy oligodendria
健康的少突膠質細胞
oligodendria repair
少突膠質細胞修復
oligodendria maturation
少突膠質細胞成熟
oligodendria injury
少突膠質細胞受傷
oligodendria protection
少突膠質細胞保護
oligodendria development
少突膠質細胞發展
oligodendria produce the myelin sheath that insulates nerve fibers in the central nervous system.
少突膠質細胞產生髓鞘,用以隔絕中樞神經系統中的神經纖維。
damage to oligodendria can lead to multiple sclerosis and other demyelinating diseases.
少突膠質細胞受損可能導致多發性硬化症及其他脫髓鞘疾病。
oligodendria transport lipids and proteins to maintain the integrity of myelin sheaths.
少突膠質細胞運輸脂質和蛋白質以維持髓鞘的完整性。
the development of oligodendria is regulated by specific growth factors in the brain.
少突膠質細胞的發育受到大腦中特定生長因子的調控。
each oligodendrocyte can extend processes to myelinate multiple axons simultaneously.
每個少突膠質細胞都能延伸出過程,同時對多條軸突進行髓鞘化。
oligodendria play a critical role in maintaining the speed of nerve impulse conduction.
少突膠質細胞在維持神經衝動傳導速度方面起著關鍵作用。
research has shown that oligodendria can regenerate under certain conditions.
研究顯示少突膠質細胞在特定條件下可以再生。
the loss of oligodendria contributes to cognitive decline in aging populations.
少突膠質細胞的喪失會導致老年人認知功能下降。
oligodendria require metabolic support from astrocytes to function properly.
少突膠質細胞需要星形膠質細胞提供的代謝支持才能正常發揮功能。
abnormal oligodendria development has been linked to certain psychiatric disorders.
少突膠質細胞異常發育與某些精神疾病有關。
advanced imaging techniques allow scientists to observe oligodendria in living tissue.
先進的影像技術使科學家能夠觀察活體組織中的少突膠質細胞。
oligodendria synthesize myelin basic protein essential for structural stability.
少突膠質細胞合成對結構穩定性至關重要的髓鞘基本蛋白。
oligodendria damage
少突膠質細胞損傷
oligodendria loss
少突膠質細胞損失
oligodendria regeneration
少突膠質細胞再生
damaged oligodendria
受損的少突膠質細胞
healthy oligodendria
健康的少突膠質細胞
oligodendria repair
少突膠質細胞修復
oligodendria maturation
少突膠質細胞成熟
oligodendria injury
少突膠質細胞受傷
oligodendria protection
少突膠質細胞保護
oligodendria development
少突膠質細胞發展
oligodendria produce the myelin sheath that insulates nerve fibers in the central nervous system.
少突膠質細胞產生髓鞘,用以隔絕中樞神經系統中的神經纖維。
damage to oligodendria can lead to multiple sclerosis and other demyelinating diseases.
少突膠質細胞受損可能導致多發性硬化症及其他脫髓鞘疾病。
oligodendria transport lipids and proteins to maintain the integrity of myelin sheaths.
少突膠質細胞運輸脂質和蛋白質以維持髓鞘的完整性。
the development of oligodendria is regulated by specific growth factors in the brain.
少突膠質細胞的發育受到大腦中特定生長因子的調控。
each oligodendrocyte can extend processes to myelinate multiple axons simultaneously.
每個少突膠質細胞都能延伸出過程,同時對多條軸突進行髓鞘化。
oligodendria play a critical role in maintaining the speed of nerve impulse conduction.
少突膠質細胞在維持神經衝動傳導速度方面起著關鍵作用。
research has shown that oligodendria can regenerate under certain conditions.
研究顯示少突膠質細胞在特定條件下可以再生。
the loss of oligodendria contributes to cognitive decline in aging populations.
少突膠質細胞的喪失會導致老年人認知功能下降。
oligodendria require metabolic support from astrocytes to function properly.
少突膠質細胞需要星形膠質細胞提供的代謝支持才能正常發揮功能。
abnormal oligodendria development has been linked to certain psychiatric disorders.
少突膠質細胞異常發育與某些精神疾病有關。
advanced imaging techniques allow scientists to observe oligodendria in living tissue.
先進的影像技術使科學家能夠觀察活體組織中的少突膠質細胞。
oligodendria synthesize myelin basic protein essential for structural stability.
少突膠質細胞合成對結構穩定性至關重要的髓鞘基本蛋白。
探索常見搜尋詞彙