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BMCBI
2010

Hybridization thermodynamics of NimbleGen Microarrays

13 years 11 months ago
Hybridization thermodynamics of NimbleGen Microarrays
Background: While microarrays are the predominant method for gene expression profiling, probe signal variation is still an area of active research. Probe signal is sequence dependent and affected by probe-target binding strength and the competing formation of probe-probe dimers and secondary structures in probes and targets. Results: We demonstrate the benefits of an improved model for microarray hybridization and assess the relative contributions of the probe-target binding strength and the different competing structures. Remarkably, specific and unspecific hybridization were apparently driven by different energetic contributions: For unspecific hybridization, the melting temperature Tm was the best predictor of signal variation. For specific hybridization, however, the effective interaction energy that fully considered competing structures was twice as powerful a predictor of probe signal variation. We show that this was largely due to the effects of secondary structures in the prob...
Ulrike Mückstein, Germán G. Leparc, Al
Added 08 Dec 2010
Updated 08 Dec 2010
Type Journal
Year 2010
Where BMCBI
Authors Ulrike Mückstein, Germán G. Leparc, Alexandra Posekany, Ivo L. Hofacker, David P. Kreil
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