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Your search keyword '"Goodman, Daniel B."' showing total 5 results
Start Over Author "Goodman, Daniel B." Topic dna
5 results on '"Goodman, Daniel B."'

1. Product length, dye choice, and detection chemistry in the bead-emulsion amplification of millions of single DNA molecules in parallel.

Author

Tiemann-Boege I, Curtis C, Shinde DN, Goodman DB, Tavaré S, and Arnheim N

Subjects
Absorption, Alleles, Animals, Base Composition, Cattle, Color, DNA chemistry, Emulsions, Humans, DNA analysis, DNA genetics, Fluorescent Dyes chemistry, Microspheres, Nucleic Acid Amplification Techniques methods
Abstract

The amplification of millions of single molecules in parallel can be performed on microscopic magnetic beads that are contained in aqueous compartments of an oil-buffer emulsion. These bead-emulsion amplification (BEA) reactions result in beads that are covered by almost-identical copies derived from a single template. The post-amplification analysis is performed using different fluorophore-labeled probes. We have identified BEA reaction conditions that efficiently produce longer amplicons of up to 450 base pairs. These conditions include the use of a Titanium Taq amplification system. Second, we explored alternate fluorophores coupled to probes for post-PCR DNA analysis. We demonstrate that four different Alexa fluorophores can be used simultaneously with extremely low crosstalk. Finally, we developed an allele-specific extension chemistry that is based on Alexa dyes to query individual nucleotides of the amplified material that is both highly efficient and specific.

Published
2009
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2. A Multiplexed Assay for Exon Recognition Reveals that an Unappreciated Fraction of Rare Genetic Variants Cause Large-Effect Splicing Disruptions

Author

Cheung, Rocky, Insigne, Kimberly D, Yao, David, Burghard, Christina P, Wang, Jeffrey, Hsiao, Yun-Hua E, Jones, Eric M, Goodman, Daniel B, Xiao, Xinshu, and Kosuri, Sriram

Subjects
Biological Sciences, Genetics, Human Genome, Aetiology, 2.1 Biological and endogenous factors, Cell Separation, Computational Biology, Exons, Flow Cytometry, Gene Expression Profiling, HEK293 Cells, HeLa Cells, Hep G2 Cells, High-Throughput Nucleotide Sequencing, Humans, Introns, K562 Cells, Mutation, Oligonucleotide Array Sequence Analysis, RNA Splicing, Reproducibility of Results, Sequence Analysis, DNA, Hela Cells, exon recognition, massively parallel reporter assay, population variation, rare variation, splicing, variant classification, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

Mutations that lead to splicing defects can have severe consequences on gene function and cause disease. Here, we explore how human genetic variation affects exon recognition by developing a multiplexed functional assay of splicing using Sort-seq (MFASS). We assayed 27,733 variants in the Exome Aggregation Consortium (ExAC) within or adjacent to 2,198 human exons in the MFASS minigene reporter and found that 3.8% (1,050) of variants, most of which are extremely rare, led to large-effect splice-disrupting variants (SDVs). Importantly, we find that 83% of SDVs are located outside of canonical splice sites, are distributed evenly across distinct exonic and intronic regions, and are difficult to predict a priori. Our results indicate extant, rare genetic variants can have large functional effects on splicing at appreciable rates, even outside the context of disease, and MFASS enables their empirical assessment at scale.

Published
2019

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