Alex H. Beesley scite author profile

Background: The use of microarray technology to assess gene expression levels is now widespread in biology. The validation of microarray results using independent mRNA quantitation techniques remains a desirable element of any microarray experiment. To facilitate the comparison of microarray expression data between laboratories it is essential that validation methodologies be critically examined. We have assessed the correlation between expression scores obtained for 48 human genes using oligonucleotide microarrays and the expression levels for the same genes measured by quantitative real-time RT-PCR (qRT-PCR).

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Influenza virus inhibits amiloride-sensitive Na⁺channels in respiratory epithelia

Kunzelmann

Beesley

King

et al. 2000

Proc. Natl. Acad. Sci. U.S.A.

108

124

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Many pathogens causing diarrhea do so by modulating ion transport in the gut. Respiratory pathogens are similarly associated with disturbances of fluid balance in the respiratory tract, although it is not known whether they too act by altering epithelial ion transport. Here we show that influenza virus A͞PR͞8͞34 inhibits the amiloride-sensitive Na ؉ current across mouse tracheal epithelium with a half-time of about 60 min. We further show that the inhibitory effect of the influenza virus is caused by the binding of viral hemagglutinin to a cell-surface receptor, which then activates phospholipase C and protein kinase C. Given the importance of epithelial Na ؉ channels in controlling the amount of fluid in the respiratory tract, we suggest that down-regulation of Na ؉ channels induced by influenza virus may play a role in the fluid transport abnormalities that are associated with influenza infections.hemagglutinin ͉ protein kinase C ͉ ENaC ͉ phospholipase C

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Relapse in children with acute lymphoblastic leukemia involving selection of a preexisting drug-resistant subclone

et al. 2007

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Relapse following remission induction chemotherapy remains a barrier to survival in approximately 20% of children suffering from acute lymphoblastic leukemia (ALL). To investigate the mechanism of relapse, 27 matched diagnosis and relapse ALL samples were analyzed for clonal populations using polymerase chain reaction (PCR)-based detection of multiple antigen receptor gene rearrangements. These clonal markers revealed the emergence of apparently new populations at relapse in 13 patients. More sensitive clone-specific PCR revealed that, in 8 cases, these "relapse clones" were present at diagnosis and a significant relationship existed between presence of the relapse clone at diagnosis and time to first relapse (P < .007). Furthermore, in cases where the relapse clone could be quantified, time to first relapse was dependent on the amount of the relapse clone at diagnosis (r ‫؍‬ ؊0.84; P ‫؍‬ .018). This observation, together with demonstrated differential chemosensitivity between subclones at diagnosis, argues against therapy-induced acquired resistance as the mechanism of relapse in the informative patients. Instead these data indicate that relapse in ALL patients may commonly involve selection of a minor intrinsically resistant subclone that is undetectable by routine PCR-based methods. Relapse prediction may be improved with strategies to detect minor potentially resistant subclones early during treatment, hence allowing intensification of therapy.

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Alex H. Beesley

Gene expression levels assessed by oligonucleotide microarray analysis and quantitative real-time RT-PCR – how well do they correlate?

Influenza virus inhibits amiloride-sensitive Na⁺channels in respiratory epithelia

Relapse in children with acute lymphoblastic leukemia involving selection of a preexisting drug-resistant subclone

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Alex H. Beesley

Gene expression levels assessed by oligonucleotide microarray analysis and quantitative real-time RT-PCR – how well do they correlate?

Influenza virus inhibits amiloride-sensitive Na+channels in respiratory epithelia

Relapse in children with acute lymphoblastic leukemia involving selection of a preexisting drug-resistant subclone

Contact Info

Product

Resources

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Influenza virus inhibits amiloride-sensitive Na⁺channels in respiratory epithelia