Abstract
The discovery of the position effect variegation phenomenon and the subsequent comprehensive analysis of its molecular mechanisms led to understanding that the local chromatin composition has a dramatic effect on gene activity. To study this effect in a high-throughput mode and at the genome-wide level, the Thousands of Reporters Integrated in Parallel (TRIP) approach based on the usage of barcoded reporter gene constructs was recently developed. Here we describe the construction and quality checks of high-diversity barcoded plasmid libraries supposed to be used for high-throughput analysis of chromatin position effects in Drosophila cells. First, we highlight the critical parameters that should be considered in the generation of barcoded plasmid libraries and introduce a simple method to assess the diversity of random sequences (barcodes) of synthetic oligonucleotides using PCR amplification followed by Sanger sequencing. Second, we compare the conventional restriction-ligation method with the Gibson assembly approach for cloning barcodes into the same plasmid vector. Third, we provide optimized parameters for the construction of barcoded plasmid libraries, such as the vector : insert ratio in the Gibson assembly reaction and the voltage used for electroporation of bacterial cells with ligation products. We also compare different approaches to check the quality of barcoded plasmid libraries. Finally, we briefly describe alternative approaches that can be used for the generation of such libraries. Importantly, all improvements and modifications of the techniques described here can be applied to a wide range of experiments involving barcoded plasmid libraries.
Highlights
In a eukaryotic cell, an enormous number of specialized proteins are responsible for dense packaging of very long genomic DNA molecules into a nucleus
Quality control of barcoded oligonucleotides The main problems associated with preparations of long (>30 nt) synthetic barcoded oligonucleotides, which are the key element in the cloning of barcoded plasmid libraries, are (i) single-base deletions/insertions arising from incomplete coupling of nucleotide monomers during oligonucleotide synthesis and (ii) unequal representation of different nucleotides at each position along the barcode
PAGE purification of the synthesized oligonucleotides can partially reduce the first problem, but, to the best of our knowledge, no fast, simple, and cheap approach to assess the randomness of barcode sequences in an oligonucleotide preparation has been described so far
Summary
An enormous number of specialized proteins are responsible for dense packaging of very long genomic DNA molecules into a nucleus. These proteins play a crucial role in the maintenance and replication of the genome as well as in gene expression. Recent genome-wide localization studies of chromatin components revealed up to 15 principal chromatin types depending on the nature of cells. These chromatin types differ in composition and gene activity levels. The activity of genes greatly varies even within the same chromatin type (Filion et al, 2010; Ernst et al, 2011; Kharchenko et al, 2011; Riddle et al, 2011)
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