Small airway-on-a-chip improves study of human COPD and asthma – Harvard School of Engineering and Applied Sciences


Harvard School of Engineering and Applied Sciences

Small airway-on-a-chip improves study of human COPD and asthma
Harvard School of Engineering and Applied Sciences
A research team at the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) and the Wyss Institute for Biologically Inspired Engineering at Harvard University leveraged its organ-on-a-chip technology to develop a model of the human …
Modeling COPD and asthma in a human small airway-on-a-chipMedical Xpress

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Airway muscle-on-a-chip mimics asthma – Harvard School of Engineering and Applied Sciences


Harvard School of Engineering and Applied Sciences

Airway muscle-on-a-chip mimics asthma
Harvard School of Engineering and Applied Sciences
Cambridge/Boston, Mass – September 23, 2014 – The majority of drugs used to treat asthma today are the same ones that were used 50 years ago. New drugs are urgently needed to treat this chronic respiratory disease, which causes nearly 25 million …

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Comprehensive FISH Probe Design Tool Applied to Imaging Human Immunoglobulin Class Switch Recombination.

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Comprehensive FISH Probe Design Tool Applied to Imaging Human Immunoglobulin Class Switch Recombination.

PLoS One. 2012;7(12):e51675

Authors: Nedbal J, Hobson PS, Fear DJ, Heintzmann R, Gould HJ

Abstract
We present a web engine boosted fluorescence in-situ hybridization (webFISH) algorithm using a genome-wide sequence similarity search to design target-specific single-copy and repetitive DNA FISH probes. The webFISH algorithm featuring a user-friendly interface (http://www.webfish2.org/) maximizes the coverage of the examined sequences with FISH probes by considering locally repetitive sequences absent from the remainder of the genome. The highly repetitive human immunoglobulin heavy chain sequence was analyzed using webFISH to design three sets of FISH probes. These allowed direct simultaneous detection of class switch recombination in both immunoglobulin-heavy chain alleles in single cells from a population of cultured primary B cells. It directly demonstrated asynchrony of the class switch recombination in the two alleles in structurally preserved nuclei while permitting parallel readout of protein expression by immunofluorescence staining. This novel technique offers the possibility of gaining unprecedented insight into the molecular mechanisms involved in class switch recombination.

PMID: 23272136 [PubMed – in process]

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