Department of Pathology and Laboratory Medicine, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina; Lineberger Comprehensive Cancer Center, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina.
Department of Pathology and Laboratory Medicine, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina; Lineberger Comprehensive Cancer Center, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina.
J Mol Diagn. 2020 Apr;22(4):437-446. doi: 10.1016/j.jmoldx.2020.01.012. Epub 2020 Feb 7.
A problematic aspect of massive parallel sequencing is that somatic mutations and viral loads are typically quantified as a fraction relative to wild-type human DNA, yet wild-type levels vary with diverse biologic and preanalytic interferences. A novel strategy was devised to quantify target analytes in copies per mL of plasma after normalizing for read counts of spiked DNAs. Five synthetic DNAs (called EndoGenus spikes) were added to plasma before library preparation (modified ArcherDX LiquidPlex 28). By normalizing to the fractional recovery of EndoGenus spike reads, numerical values for each disease marker were reportable in units of copies per mL. To show how well this system operates, replicate assays were performed on 40 mock plasmas having 23 engineered mutations and on 21 natural plasmas. Reads for all five EndoGenus spikes were recovered (means, 313 and 376 copies/mL in mock and natural plasmas, respectively). Normalizing read counts for the proportional recovery of spikes helped control for variables in the multistep protocol, reducing the CV in replicate tests from 34% to 22% for mutations and from 25% to 7% for viral loads. In conclusion, the EndoGenus system is useful for evaluating efficiency of the total test system and for precisely quantifying target molecules. This system may benefit patients being monitored for disease burden while also tracking emerging subclones.
大规模平行测序的一个问题是,体细胞突变和病毒载量通常被量化为相对于野生型人 DNA 的分数,但野生型水平会受到多种生物学和分析前干扰的影响而变化。我们设计了一种新策略,通过对加标 DNA 的读取计数进行标准化,来定量血浆中的目标分析物拷贝数/mL。在文库制备之前(改良 ArcherDX LiquidPlex 28),将 5 种合成 DNA(称为 EndoGenus spikes)添加到血浆中。通过将 EndoGenus spike 读取的分数回收率标准化,每个疾病标志物的数值可以以拷贝数/mL 的单位报告。为了展示该系统的性能,我们在 40 个具有 23 个工程突变的模拟血浆和 21 个天然血浆中重复进行了检测。所有 5 个 EndoGenus spikes 的读取均被回收(平均值分别为模拟和天然血浆中的 313 和 376 拷贝/mL)。通过标准化 Spike 比例回收率的读取计数有助于控制多步方案中的变量,使突变和病毒载量的重复测试的 CV 从 34%分别降低到 22%和 25%分别降低到 7%。总之,EndoGenus 系统可用于评估整个测试系统的效率,并精确定量目标分子。该系统可能有益于监测疾病负担的患者,同时还可以跟踪新兴的亚克隆。
