Titlebook: Disease Gene Identification; Methods and Protocol Johanna K.‘DiStefano Book 2018Latest edition Springer Science+Business Media, LLC 2018 bi

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Quo Vadis, Environmental Management?malian cells. Protocols for using lipid-based transfection reagents and electroporation techniques are provided. Potential challenges and problems associated with the siRNA technology are also discussed.

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Induced Pluripotent Stem Cells in Disease Modeling and Gene Identificationding disease pathophysiology, identifying disease-causing genes, and developing more precise therapeutics, including advances in regenerative medicine. In this chapter, we discuss the technological perspectives and recent developments in the application of patient-derived iPSC lines for human disease modeling and disease gene identification.

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miRNA Quantification Method Using Quantitative Polymerase Chain Reaction in Conjunction with ,, MethPCR) has been the gold standard for measuring relative gene expression, and is now also widely used to assess miRNA abundance. In this chapter, we describe a quick protocol for miRNA extraction, reverse transcription, qPCR, and data analysis.

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Identification of Disease Susceptibility Alleles in the Next Generation Sequencing Erafacilitated the discovery of causal mutations in both rare, monogenic diseases and common, heterogeneous disorders, leading to unprecedented improvements in disease diagnosis and treatment strategies. Given the rapid evolution of NGS platforms, it is now possible to analyze whole genomes and exomes

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Induced Pluripotent Stem Cells in Disease Modeling and Gene Identificationmponent influencing, the disease phenotype. The breakthrough development of induced pluripotent stem cell (iPSC) technology represents a quantum leap in experimental modeling of human diseases, providing investigators with a self-renewing and, thus, unlimited source of pluripotent cells for targeted

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What Can We Learn About Human Disease from the Nematode ,?n about the mechanism of disease development, but also provides potential avenues for better diagnosis and treatment. In this chapter, we review the use of the nonmammalian model organism . for the identification of human disease genes. Studies utilizing this relatively simple organism offer a good