deglycosylation process
糖基化移除过程
enzyme deglycosylation
酶促脱糖基化
studying deglycosylation
研究脱糖基化
deglycosylation assay
脱糖基化测定
reversible deglycosylation
可逆脱糖基化
deglycosylation analysis
脱糖基化分析
protein deglycosylation
蛋白质脱糖基化
following deglycosylation
脱糖基化后
deglycosylation effects
脱糖基化影响
induced deglycosylation
诱导脱糖基化
the researchers investigated the effects of deglycosylation on protein folding.
研究人员调查了糖基化移除对蛋白质折叠的影响。
enzymatic deglycosylation is a crucial step in some glycoprotein processing pathways.
酶促糖基化移除是某些糖蛋白加工途径中的关键步骤。
we observed increased aggregation after extensive deglycosylation of the target molecule.
我们观察到目标分子经过广泛的糖基化移除后,聚集性增加。
chemical deglycosylation methods are often used to simplify complex glycan structures.
化学糖基化移除方法常用于简化复杂的糖链结构。
the impact of deglycosylation on antibody binding affinity was a key focus of the study.
研究的关键重点是糖基化移除对抗体结合亲和力的影响。
partial deglycosylation can alter the pharmacokinetic properties of therapeutic proteins.
部分糖基化移除会改变治疗性蛋白的药代动力学特性。
site-specific deglycosylation is challenging but offers valuable insights into glycosylation's role.
位点特异性糖基化移除具有挑战性,但提供了对糖基化作用宝贵见解。
the process of deglycosylation can be influenced by factors such as ph and temperature.
糖基化移除的过程可能受ph值和温度等因素的影响。
following deglycosylation, we performed mass spectrometry analysis to identify the modified peptides.
糖基化移除后,我们进行了质谱分析以识别修饰的肽段。
understanding deglycosylation mechanisms is vital for designing improved biotherapeutics.
理解糖基化移除机制对于设计改进的生物治疗药物至关重要。
the researchers used pngase f for efficient deglycosylation of n-linked glycans.
研究人员使用pngase f进行高效的n型糖基化移除。
deglycosylation process
糖基化移除过程
enzyme deglycosylation
酶促脱糖基化
studying deglycosylation
研究脱糖基化
deglycosylation assay
脱糖基化测定
reversible deglycosylation
可逆脱糖基化
deglycosylation analysis
脱糖基化分析
protein deglycosylation
蛋白质脱糖基化
following deglycosylation
脱糖基化后
deglycosylation effects
脱糖基化影响
induced deglycosylation
诱导脱糖基化
the researchers investigated the effects of deglycosylation on protein folding.
研究人员调查了糖基化移除对蛋白质折叠的影响。
enzymatic deglycosylation is a crucial step in some glycoprotein processing pathways.
酶促糖基化移除是某些糖蛋白加工途径中的关键步骤。
we observed increased aggregation after extensive deglycosylation of the target molecule.
我们观察到目标分子经过广泛的糖基化移除后,聚集性增加。
chemical deglycosylation methods are often used to simplify complex glycan structures.
化学糖基化移除方法常用于简化复杂的糖链结构。
the impact of deglycosylation on antibody binding affinity was a key focus of the study.
研究的关键重点是糖基化移除对抗体结合亲和力的影响。
partial deglycosylation can alter the pharmacokinetic properties of therapeutic proteins.
部分糖基化移除会改变治疗性蛋白的药代动力学特性。
site-specific deglycosylation is challenging but offers valuable insights into glycosylation's role.
位点特异性糖基化移除具有挑战性,但提供了对糖基化作用宝贵见解。
the process of deglycosylation can be influenced by factors such as ph and temperature.
糖基化移除的过程可能受ph值和温度等因素的影响。
following deglycosylation, we performed mass spectrometry analysis to identify the modified peptides.
糖基化移除后,我们进行了质谱分析以识别修饰的肽段。
understanding deglycosylation mechanisms is vital for designing improved biotherapeutics.
理解糖基化移除机制对于设计改进的生物治疗药物至关重要。
the researchers used pngase f for efficient deglycosylation of n-linked glycans.
研究人员使用pngase f进行高效的n型糖基化移除。
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