Mattia Lion, Michael Y. Tolstorukov, Marjorie A. Oettinger
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引用次数: 1
Abstract
An understanding of the dynamic structural properties of chromatin requires techniques that allow the profiling of regions of both open and closed chromatin as well as the assessment of nucleosome occupancy. The recently developed MNase accessibility (MACC) technique allows for the simultaneous measurement of chromatin opening and compaction, as well as nucleosome occupancy, on a genome-wide scale in a single assay. This article presents a low-input MACC procedure that considerably extends the utility of the original MACC assay. Low-input MACC generates high-quality data using very low cell numbers (as few as 50 cells per titration point), making it ideal for samples obtained after fluorescence-activated cell sorting or dissection, or in clinical settings. Moreover, low-input MACC has significantly improved several steps of the initial method, offering a more rapid and robust methodology. © 2019 by John Wiley & Sons, Inc.
染色质低输入mnc可及性(低输入MACC)
了解染色质的动态结构特性需要能够分析开放和封闭染色质区域以及核小体占用评估的技术。最近开发的MNase可及性(MACC)技术允许在单次分析中同时测量染色质打开和压实以及核小体占用,在全基因组范围内。本文提出了一个低输入MACC程序,大大扩展了原来的MACC测定的效用。低输入MACC使用非常低的细胞数(每个滴定点少至50个细胞)产生高质量的数据,使其非常适合荧光激活细胞分选或解剖后获得的样品,或在临床环境中。此外,低输入MACC显著改进了初始方法的几个步骤,提供了一个更快速和健壮的方法。©2019 by John Wiley &儿子,Inc。
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