Methods in molecular biology
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Genetic reporter systems provide a good alternative to monitor cellular functions in vitro and in vivo and are contributing immensely in experimental research. Reporters like fluorescence and bioluminescence genes, which support optical measurements, provide exquisite sensitivity to the assay systems. In recent years several activatable strategies have been developed, which can relay specialized molecular functions from inside the cells. ⋯ In recent years, the applicability of BRET has been greatly enhanced by the adaptation of the assay to multiple detection devices such as a luminescence plate reader, a bioluminescence microscope and a small animal optical imaging platform. Apart from quantitative measurement studies of PPIs and protein dimerization, molecular spectral imaging has expanded the scope for fast screening of pharmacological compounds that modulate PPIs by unifying in vitro, live cell and in vivo animal/plant measurement, all using one assay. Using examples from the literature, we will describe methods to perform in vitro and in vivo BRET imaging experiments and some of its applications.
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Exon skipping is an emerging approach to treating Duchenne muscular dystrophy (DMD), one of the most common lethal genetic disorders. Exon skipping uses synthetic antisense oligonucleotides (AONs) to splice out frame-disrupting exon(s) of DMD mRNA to restore the reading frame of the gene products and produce truncated yet functional proteins. ⋯ Although the success of multiple exon skipping in a DMD dog model has made a significant impact on the development of therapeutics for DMD, unmodified AONs such as phosphorodiamidate morpholino oligomers (PMOs) have little efficacy in cardiac muscles. Here, we describe our technique of intravenous injection of a cocktail of peptide-conjugated PMOs (PPMOs) to skip multiple exons, exons 6 and 8, in both skeletal and cardiac muscles in dystrophic dogs and the evaluation of the efficacy and toxicity.
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Superoxide and hydrogen peroxide produced by mitochondria play important roles in various physiological and pathological processes. This chapter describes a plate-based method to measure rates of superoxide and/or hydrogen peroxide production at specific sites in isolated mitochondria.
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DNA methylation profiling in the epigenome of Arabidopsis thaliana (Arabidopsis) has provided great insights in the role of this epigenetic mark for the regulation of transcription in plants, and is often based on high-throughput sequencing. The analysis of these data involves a series of steps including quality checks, filtering, alignment, identification of methyl-cytosines, and the identification of differentially methylated regions. This chapter outlines the computational methodology required to profile genome-wide differential methylation patterns based on publicly available Arabidopsis base-resolution bisulfite sequencing data. The methylPipe Bioconductor package is adopted for the identification of the differentially methylated regions, and all the steps from the raw data to the required input are described in detail.
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Exon skipping therapy using synthetic DNA-like molecules called antisense oligonucleotides (ASOs) is a promising therapeutic candidate for overcoming the dystrophin mutation that causes Duchenne muscular dystrophy (DMD). This treatment involves splicing out the frame-disrupting segment of the dystrophin mRNA, which restores the reading frame and produces a truncated yet functional dystrophin protein. Phosphorodiamidate morpholino oligomer (PMO) is the safest ASO for patients among ASOs and has recently been approved under the accelerated approval pathway by the U. ⋯ Food and Drug Administration (FDA) as the first drug for DMD. Here, we describe the methodology and protocol of PMO transfection and evaluation of the exon skipping efficacy in the mdx52 mouse, an exon 52 deletion model of DMD produced by gene targeting. The mdx52 mouse model offers advantages over the mdx mouse, a spontaneous DMD model with a nonsense mutation in exon 23, in terms of the deletion in a hotspot of deletion mutations in DMD patients, the analysis of caveolae and also Dp140 and Dp260, shorter dystrophin isoforms.