The dynamics of genomic loci pairs and their interactions are essential for transcriptional regulation and genome organization. However, a robust method for tracking pairwise genomic loci in living cells is lacking. Here we developed a multicolor DNA labeling system, mParSpot (multicolor ParSpot), to track pairs of genomic loci and their interactions in living cells. The mParSpot system is derived from the ParB/ParS in the parABS system and Noc/NBS in its paralogous nucleoid occlusion system. The insertion of 16 base-pair palindromic ParSs or NBSs into the genomic locus allows the cognate binding protein ParB or Noc to spread kilobases of DNA around ParSs or NBSs for loci-specific visualization. We tracked two loci with a genomic distance of 53 kilobases and measured their spatial distance over time. Using the mParSpot system, we labeled the promoter and terminator of the MSI2 gene span 423 kb and measured their spatial distance. We also tracked the promoter and terminator dynamics of the MUC4 gene in living cells. In sum, the mParSpot is a robust and sensitive DNA labeling system for tracking genomic interactions in space and time under physiological or pathological contexts.
展开▼
机译:基因组位点对的动力学及其相互作用对于转录调控和基因组组织至关重要。然而,缺乏一种在活细胞中追踪成对基因组位点的可靠方法。在这里,我们开发了一种多色 DNA 标记系统 mParSpot (multicolor ParSpot),用于追踪成对的基因组位点及其在活细胞中的相互作用。mParSpot 系统来源于 parABS 系统中的 ParB/ParS 和其旁系核闭塞系统中的 Noc/NBS。将 16 个碱基对回文 ParS 或 NBS 插入基因组位点,允许同源结合蛋白 ParB 或 Noc 将数千个碱基的 DNA 分布在 ParS 或 NBS 周围,以实现位点特异性可视化。我们跟踪了两个基因组距离为 53 kb 的基因座,并测量了它们随时间变化的空间距离。使用 mParSpot 系统,我们标记了 MSI2 基因跨度 423 kb 的启动子和终止子,并测量了它们的空间距离。我们还跟踪了活细胞中 MUC4 基因的启动子和终止子动力学。总之,mParSpot 是一种稳健而灵敏的 DNA 标记系统,用于在生理或病理背景下追踪基因组在空间和时间上的相互作用。
展开▼
