In this paper, denatured bovine serum albumin (dBSA) has been developed as a useful scaffold for appending multiple oligonucleotides (ODNs), and the resulted novel dBSA-ODNs covalent hybrid can be self-assembled to the surface of CdTe quantum dots (QDs) via complexation with unoccupied coordination metal sites on QDs' surface. The formed QDs/dBSA-ODNs bioconjugate could keep a long-term stability in aqueous solution while maintaining its fluorescence quantum yield and spectral properties. Furthermore, the QDs/dBSA-ODNs also can be readily hybridized with an anti-rHuEPO-α aptamers linked AuNPs (Apt-AuNPs) to form a fluorescent resonance energy transfer-based nano-biosensing system for highly sensitive and selective detection of rHuEPO-α protein lowered to 53.6 pM in a rapid, simple manner.
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