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Por favor, use este identificador para citar o enlazar a este item: http://hdl.handle.net/10261/125315

Sensitive and label-free biosensing of RNA with predicted secondary structures by a triplex affinity capture method

AutorCarrascosa, Laura G. ; Gómez-Montes, Silvia ; Aviñó, Anna; Nadal, Anna ; Pla, Maria P.; Eritja Casadellà, Ramón; Lechuga, Laura M.
Palabras claveBase Sequence
Surface Plasmon Resonance
Fecha de publicaciónabr-2012
EditorOxford University Press
CitaciónNucleic Acids Research
ResumenA novel biosensing approach for the label-free detection of nucleic acid sequences of short and large lengths has been implemented, with special emphasis on targeting RNA sequences with secondary structures. The approach is based on selecting 8-aminoadenine-modified parallel-stranded DNA tail-clamps as affinity bioreceptors. These receptors have the ability of creating a stable triplex-stranded helix at neutral pH upon hybridization with the nucleic acid target. A surface plasmon resonance biosensor has been used for the detection. With this strategy, we have detected short DNA sequences (32-mer) and purified RNA (103-mer) at the femtomol level in a few minutes in an easy and level-free way. This approach is particularly suitable for the detection of RNA molecules with predicted secondary structures, reaching a limit of detection of 50fmol without any label or amplification steps. Our methodology has shown a marked enhancement for the detection (18 for short DNA and 54 for RNA), when compared with the conventional duplex approach, highlighting the large difficulty of the duplex approach to detect nucleic acid sequences, especially those exhibiting stable secondary structures. We believe that our strategy could be of great interest to the RNA field.
Versión del editorDOI: 10.1093/nar/gkr1304
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