| Novel Protein-oligonucleotide Conjugation Method Involving a High-affinity Capture HaloTag
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Author:
Date:
2020-09-20
[Abstract] Highly sensitive quantitative protein profiling can play a key role in the early diagnosis of diseases, such as autoimmune diseases and cancer. We developed a modified protein-oligonucleotide conjugation method termed HaloTag-mediated barcoding, for quantifying protein molecules at a higher sensitivity than conventional protein quantification methods. This novel and efficient conjugation method can be used to prepare HaloTag-barcoded proteins using a click chemistry-based labeling technique. Here, we describe the preparation of protein-DNA complexes and detection of protein-protein interactions which can be used in a HaloTag protein barcode assay to detect an antibody. The protocol includes procedures for preparing the ligand-oligonucleotide complex, plasmid DNA preparation for protein ...
[摘要] [摘要 ] 高灵敏度的定量蛋白质谱分析可以在疾病的早期诊断中发挥关键作用,例如自身免疫性疾病和癌症。我们开发了一种改良的蛋白质-寡核苷酸缀合方法,称为HaloTag 介导的条形码,用于以比常规蛋白质定量方法更高的灵敏度来定量蛋白质分子。可以使用这种基于点击化学的标记技术,将这种新颖而有效的结合方法用于制备HaloTag 条形码蛋白。在这里,我们描述了可在HaloTag中使用的蛋白质-DNA复合物的制备和蛋白质-蛋白质相互作用的检测 蛋白质条形码检测以检测抗体。该方案包括制备配体-寡核苷酸复合物的程序,用于蛋白质表达的质粒DNA制备以及蛋白质-寡核苷酸复合物的制备。所描述的基于点击反应的方案简化了常规胺-酯反应方法,该方法需要色谱纯化的额外步骤。
[背景 ] 蛋白质分子可通过常规实验进行定量酶联免疫吸附测定法,western印迹和质谱的方法,例如。这些常规的定量蛋白质谱分析技术涉及使用校准曲线进行相对测量,而没有考虑DNA扩增的高灵敏度,这限制了蛋白质本身绝对量的检测。化学蛋白质组学成为可能多重测定我n中的相对定量方式,例如串联质量标签标记方法加上质谱(汤普森等人,2003 )。蛋白质条形码技术与下一代测序技术相结合已经可以识别目标蛋白质分子。这些方法包括CITE- SEQ ,的Ab- SEQ 和L1 BRA- SEQ ...
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| Characterization of Protein Domain Function via in vitro DNA Shuffling
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Author:
Date:
2018-06-05
[Abstract] We recently investigated the molecular events that drive evolution of the CTX-M-type β-lactamases by DNA shuffling of fragments of the blaCTX-M-14 and blaCTX-M-15 genes. Analysis of a total of 51 hybrid enzymes showed that enzymatic activity could be maintained in most cases, yet the enzymatically active hybrids were found to possess much fewer amino acid substitutions than the few hybrids that became inactive, suggesting that point mutations in the constructs rather than reshuffling of the fragments of the two target genes would more likely cause disruption of CTX-M activity. Certain important residues that played important functional roles in mediating enzyme activity were identified. These findings suggest that DNA shuffling is an effective ...
[摘要] 我们最近研究了通过对CTX-M-14和EMX-M-14的片段进行DNA改组来驱动CTX-M型β-内酰胺酶进化的分子事件, bla CTX-M-15基因。 总共51种杂合酶的分析显示酶活性在大多数情况下可以保持,但是酶活性杂合体被发现比少数杂交体具有少得多的氨基酸取代,这表明构建体中的点突变而不是 两个靶基因片段的重新洗牌将更可能导致CTX-M活性的破坏。 确定了一些在介导酶活性中起重要作用的重要残基。 这些发现表明,DNA改组是一种有效的方法来鉴定和表征细菌蛋白质中的重要功能结构域。
【背景】DNA重组是一种自然过程,通过该过程,细菌之间交换遗传物质以增强环境压力下的生存适应性。几种杂交CTX-M-内酰胺酶(CTX-M-64,CTX-M-123,CTX-M-137和CTX-M-132)可能是由bla CTX-M-14和 bla CTX-M-15基因是世界上最常见的变异体,近年来已有报道(Nagano et al。 ,2009; Tian et al。,2014; He et al。,2015; Liu et。, 2015年)。在这些杂合酶中,包含CTX-M-15的N-和C-末端部分和CTX-M-14的中间片段的CTX-M-64显示出比其亲本原型更高的催化活性(He <等)。,2015)。
DNA改组是一种分子途径,被设计为通过PCR介导的两种靶基因的随机组合来模拟和加速进化过程(Crameri ...
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