An ssDNA aptamer specific for detection and purification of hexahistidine-tagged proteins.

Aptamers are small-sized RNA or ssDNA ligands with a unique structure, which have high specificity and affinity to their cognate targets. Thus, in addition to the extensive values in various bio-medical fields, aptamers can also be alternatively used as affinity ligands in the bioprocess, such as for protein purification. In the present study, a hexahistidine specific aptamer named AptHis-C, was developed through the SELEX methodology, which has high affinity to hexahistidine, and its dissociation constant was as low as 20.8 nM. The structural prediction revealed that AptHis-C contains two connected stem-loop conformations. AptHis-C can only specifically recognize recombinant proteins with the hexahistidine-tag in simple or complex situations, and not to those with other tags. When immobilized on magnetic beads, AptHis-C can be used as a tool for hexahistidine-tagged recombinant protein purification. Its effectiveness is as good as traditional Ni-based beads. Besides, due to the intrinsic characteristics of nucleic acids, such as high thermal/chemical stability, immobilized aptamer-magnetic beads can be reused many times without an obvious decrease of purification effectiveness. This aptamer may represent a novel method for the detection and purification of hexahistidine-tagged recombinant proteins.

Wu S ，Liu Y ，Sun H ，Zhong M ，Dai B ，Pan B ，Shen Z ... -  《-》

Imidazole-free purification of His3-tagged recombinant proteins using ssDNA aptamer-based affinity chromatography.

Immobilized metal ion affinity chromatography (IMAC) is widely used for the purification of many different His6-tagged recombinant proteins. On the one hand, it is a powerful technique but on the other hand it has its disadvantages. In this report, we present the development of a unique ssDNA aptamer for the purification of His3-tagged recombinant proteins. Our study shows that stability of the His3-tag/H3T aptamer complex can be controlled by the sodium ion concentration. Based on this feature, we demonstrate that H3T aptamer resin was successfully employed for the purification of three out of four tested His3-tagged recombinant proteins from an E. coli total protein extract using imidazole-free buffers. Finally, we show that the purity of His3-tagged proteins is superior when purified with the help of the H3T aptamer in comparison with Ni-NTA resin.

Bartnicki F ，Kowalska E ，Pels K ，Strzalka W ... -  《-》

Automated 96-well purification of hexahistidine-tagged recombinant proteins on MagneHis Ni(2)+-particles.

Lin CT ，Moore PA ，Kery V 《-》

Aptamer-modified magnetic beads in affinity separation of proteins.

Zhu G ，Walter JG 《-》

Aptamer-based downstream processing of his-tagged proteins utilizing magnetic beads.

Aptamers are synthetic nucleic acid-based high affinity ligands that are able to capture their corresponding target via molecular recognition. Here, aptamer-based affinity purification for His-tagged proteins was developed. Two different aptamers directed against the His-tag were immobilized on magnetic beads covalently. The resulting aptamer-modified magnetic beads were characterized and successfully applied for purification of different His-tagged proteins from complex E. coli cell lysates. Purification effects comparable to conventional immobilized metal affinity chromatography were achieved in one single purification step. Moreover, we have investigated the possibility to regenerate and reuse the aptamer-modified magnetic beads and have shown their long-term stability over a period of 6 months.

Kökpinar Ö ，Walter JG ，Shoham Y ，Stahl F ，Scheper T ... -  《-》