phagolysosomal fusion
吞噬溶酶體融合
phagolysosomal pathway
吞噬溶酶體途徑
phagolysosomal degradation
吞噬溶酶體降解
phagolysosomal membrane
吞噬溶酶體膜
induced phagolysosomal
誘導性吞噬溶酶體
phagolysosomal compartment
吞噬溶酶體區室
phagolysosomal process
吞噬溶酶體過程
altered phagolysosomal
改變的吞噬溶酶體
the study investigated the role of phagolysosomal fusion in bacterial clearance.
該研究探討了吞噬溶酶體融合在細菌清除中的作用。
defective phagolysosomal trafficking contributes to impaired pathogen degradation.
吞噬溶酶體運輸缺陷會導致病原體降解受阻。
formation of phagolysosomal structures is crucial for effective autophagy.
吞噬溶酶體結構的形成對有效的自噬至關重要。
we analyzed the dynamics of phagolysosomal membrane remodeling during infection.
我們分析了感染期間吞噬溶酶體膜重塑的動態。
the phagolysosomal pathway is essential for clearing cellular debris after apoptosis.
吞噬溶酶體途徑在細胞凋亡後清除細胞碎片中是必不可少的。
mutations in genes affecting phagolysosomal function can lead to severe immunodeficiency.
影響吞噬溶酶體功能的基因突變可能導致嚴重的免疫缺陷。
microbes often evade destruction by disrupting phagolysosomal maturation.
微生物通常通過干擾吞噬溶酶體成熟來逃避破壞。
the phagolysosomal environment is highly acidic, facilitating enzymatic digestion.
吞噬溶酶體環境高度酸性,有助於酶解。
we observed increased phagolysosomal biogenesis in response to inflammatory stimuli.
我們觀察到在炎症刺激下吞噬溶酶體生物合成增加。
the efficiency of phagolysosomal degradation is influenced by lipid composition.
吞噬溶酶體降解的效率受脂質組成的影響。
targeting phagolysosomal processes represents a potential therapeutic strategy.
針對吞噬溶酶體過程可能代表一種潛在的治療策略。
phagolysosomal fusion
吞噬溶酶體融合
phagolysosomal pathway
吞噬溶酶體途徑
phagolysosomal degradation
吞噬溶酶體降解
phagolysosomal membrane
吞噬溶酶體膜
induced phagolysosomal
誘導性吞噬溶酶體
phagolysosomal compartment
吞噬溶酶體區室
phagolysosomal process
吞噬溶酶體過程
altered phagolysosomal
改變的吞噬溶酶體
the study investigated the role of phagolysosomal fusion in bacterial clearance.
該研究探討了吞噬溶酶體融合在細菌清除中的作用。
defective phagolysosomal trafficking contributes to impaired pathogen degradation.
吞噬溶酶體運輸缺陷會導致病原體降解受阻。
formation of phagolysosomal structures is crucial for effective autophagy.
吞噬溶酶體結構的形成對有效的自噬至關重要。
we analyzed the dynamics of phagolysosomal membrane remodeling during infection.
我們分析了感染期間吞噬溶酶體膜重塑的動態。
the phagolysosomal pathway is essential for clearing cellular debris after apoptosis.
吞噬溶酶體途徑在細胞凋亡後清除細胞碎片中是必不可少的。
mutations in genes affecting phagolysosomal function can lead to severe immunodeficiency.
影響吞噬溶酶體功能的基因突變可能導致嚴重的免疫缺陷。
microbes often evade destruction by disrupting phagolysosomal maturation.
微生物通常通過干擾吞噬溶酶體成熟來逃避破壞。
the phagolysosomal environment is highly acidic, facilitating enzymatic digestion.
吞噬溶酶體環境高度酸性,有助於酶解。
we observed increased phagolysosomal biogenesis in response to inflammatory stimuli.
我們觀察到在炎症刺激下吞噬溶酶體生物合成增加。
the efficiency of phagolysosomal degradation is influenced by lipid composition.
吞噬溶酶體降解的效率受脂質組成的影響。
targeting phagolysosomal processes represents a potential therapeutic strategy.
針對吞噬溶酶體過程可能代表一種潛在的治療策略。
探索常見搜尋詞彙