A novel approach for evaluating the efficiency of siRNAs on protein levels in cultured cells

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Published online 22 January 2004

Nucleic Acids Research, 2004, Vol. 32, No. 2 e17
© 2004 Oxford University Press

A novel approach for evaluating the efficiency of siRNAs on protein levels in cultured cells

Weilin Wu, Emily Hodges, Jenny Redelius and Christer Höög^*

Center for Genomics and Bioinformatics, Karolinska Institutet, S-171 77 Stockholm, Sweden

*To whom correspondence should be addressed. Tel: +46 8 728 7365; Fax: +48 8 31 35 29; Email: christer.hoog{at}cgb.ki.se

An important aim in the post-sequencing age of functional genomicsis to translate gene sequences into protein functions. Thisshift of focus is particularly necessary for a very large numberof human genes, referred to as novel genes, where we have noor very rudimentary information about their biochemical functions.Recently, a new method for investigating human gene functionsusing small interfering RNA molecules (siRNAs) has become available.siRNAs are powerful reagents for post-transcriptional silencing,where mRNA targeted by the siRNAs is degraded in vivo and thelevel of the encoded protein is reduced. However, the lack ofantibodies against proteins encoded by novel genes restrictsthe general value of siRNAs as functional tools, as only themRNA levels can be measured for these genes. We report a methodthat combines measurements of protein levels in cell culturefor novel, exogenously expressed genes, with parallel measurementsof the endogenous mRNA levels of the same genes. We find thatthis combinatorial approach correctly predicts siRNAs that efficientlyreduce mRNA and protein levels in cultured cells. Furthermore,this method identifies proteins that have a slow turnover, whichweakens the value of the RNA interference method as a tool forfunctional studies of such genes. The described method shouldprove to be valuable for large-scale functional studies of novelhuman genes.

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