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CRD SAT Generated by pCARGHO: A New Efficient Lectin‐Based Affinity Tag Method for Safe, Simple, and Low‐Cost Protein Purification

2018; Wiley; Volume: 14; Issue: 4 Linguagem: Inglês

10.1002/biot.201800214

1860-7314

Alexandre Kriznik, Mélissa Yelehe‐Okouma, Jean‐Christophe Lec, Guillaume Groshenry, Hélène Le Cordier, Christophe Charron, Marc Quinternet, Hortense Mazon, François Talfournier, Sandrine Boschi‐Müller, Jean‐Yves Jouzeau, Pascal Reboul,

Glycosylation and Glycoproteins Research

Purification of recombinant proteins remains a bottleneck for downstream processing. The authors engineered a new galectin 3 truncated form (CRDSAT ), functionally and structurally characterized, with preserved solubility and lectinic activity. Taking advantage of these properties, the authors designed an expression vector (pCARGHO), suitable for CRDSAT -tagged protein expression in prokaryotes. CRDSAT binds to lactose-Sepharose with a high specificity and facilitates solubilization of fusion proteins. This tag is structurally stable and can be easily removed from fusion proteins using TEV protease. Furthermore, due to their basic isoelectric point (pI), CRDSAT , and TEV are efficiently eliminated using cationic exchange chromatography. When pI of the protein of interest (POI) and CRDSAT are close, other chromatographic methods are successfully tested. Using CRDSAT tag, the authors purified several proteins from prokaryote and eukaryote origin and demonstrated as examples, the preservation of both Escherichia coli Thioredoxin 1 and human CDC25Bcd activities. Overall, yields of proteins obtained after tag removal are about 5-50 mg per litre of bacterial culture. Our purification method displays various advantages described herein that may greatly interest academic laboratories, biotechnology, and pharmaceutical companies.