| Title : Site-specific and reversible anchoring of active proteins onto cellulose using a cellulosome-like complex - Eklund_2004_J.Biotechnol_109_277 |
| Author(s) : Eklund M , Sandstrom K , Teeri TT , Nygren PA |
| Ref : J Biotechnol , 109 :277 , 2004 |
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Abstract :
Protein engineering strategies facilitating controlled and spontaneous assembly of macromolecular complexes are of great interest for the design of artificial multi-enzyme systems of pre-defined composition. Here we have combined affinity proteins from different sources to achieve specific and reversible anchoring of affinity domain-tagged reporter proteins to a cellulose-anchored fusion protein. The design principle mimics the architecture of macromolecular cellulosome complexes produced by some cellulolytic microbes. A fusion protein between a cellulose-binding module (CBM1Cel6A) of the Trichoderma reesei cellobiohydrolase Cel6A and a five-domain staphylococcal protein A (SPA) was constructed to serve as platform for docking of easily detectable reporter proteins onto cellulose surfaces. In turn, the reporter proteins were produced as fusions to two copies of a SPA-binding affinity protein (an affibody denoted Z(SPA-1)), selected from a phage display library constructed by combinatorial protein engineering. In a series of experiments, involving repeated washing and low pH elution, affinity-tagged Enhanced Green Fluorescent Protein (EGFP) and Fusarium solani pisi lipase cutinase reporter proteins were both found to be specifically directed from solution to the same region of a cellulose filter paper where SPA-CBM1Cel6A fusion protein had been previously applied. This showed that the SPA-CBM1Cel6A fusion protein had been stably anchored to the cellulose surface without loss of binding capacity and that the interaction between SPA and the Z(SPA-1) affibody domains was selective. The generality of this biospecificity-driven system for assembly applications is discussed. |
| PubMedSearch : Eklund_2004_J.Biotechnol_109_277 |
| PubMedID: 15066765 |
Eklund M, Sandstrom K, Teeri TT, Nygren PA (2004)
Site-specific and reversible anchoring of active proteins onto cellulose using a cellulosome-like complex
J Biotechnol
109 :277
Eklund M, Sandstrom K, Teeri TT, Nygren PA (2004)
J Biotechnol
109 :277