PROTOCOLS: Chromatin Immunoprecipitation from Arabidopsis Tissues.

The arabidopsis book Pub Date : 2014-02-17 eCollection Date: 2014-01-01 DOI:10.1199/tab.0170
Nobutoshi Yamaguchi, Cara M Winter, Miin-Feng Wu, Chang Seob Kwon, Dilusha A William, Doris Wagner
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引用次数: 132

Abstract

The ability of proteins to associate with genomic DNA in the context of chromatin is critical for many nuclear processes including transcription, replication, recombination, and DNA repair. Chromatin immunoprecipication (ChIP) is a practical and useful technique for characterizing protein / DNA association in vivo. The procedure generally includes six steps: (1) crosslinking the protein to the DNA; (2) isolating the chromatin; (3) chromatin fragmentation; (4) imunoprecipitation with antibodies against the protein of interest; (5) DNA recovery; and (6) PCR identification of factor associated DNA sequences. In this protocol, we describe guidelines, experimental setup, and conditions for ChIP in intact Arabidopsis tissues. This protocol has been used to study association of histone modifications, of chromatin remodeling ATPases, as well as of sequence-specific transcription factors with the genomic DNA in various Arabidopsis thaliana tissues. The protocol described focuses on ChIP-qPCR, but can readily be adapted for use in ChIP-chip or ChIP-seq experiments. The entire procedure can be completed within 3 days.

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方案:拟南芥组织的染色质免疫沉淀。
在染色质的背景下,蛋白质与基因组DNA结合的能力对许多核过程至关重要,包括转录、复制、重组和DNA修复。染色质免疫沉淀(ChIP)技术是一种非常实用的体内蛋白/ DNA关联表征技术。该过程通常包括六个步骤:(1)将蛋白质与DNA交联;(2)分离染色质;(3)染色质断裂;(4)针对目标蛋白的抗体免疫沉淀;(5) DNA恢复;(6)因子相关DNA序列的PCR鉴定。在本协议中,我们描述了在完整的拟南芥组织中进行ChIP的指导方针、实验设置和条件。该方案已被用于研究组蛋白修饰,染色质重塑atp酶,以及序列特异性转录因子与各种拟南芥组织基因组DNA的关联。所描述的方案侧重于ChIP-qPCR,但可以很容易地适用于ChIP-chip或ChIP-seq实验。整个程序可在3天内完成。
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