Tobacco etch virus protease: mechanism of autolysis and rational design of stable mutants with wild-type catalytic proficiency

Kapust, Rachel B.; Tőzsér, József; Fox, Jeffrey D.; Anderson, D.Eric; Cherry, Scott; Copeland, Terry D.; Waugh, David S.

doi:10.1093/protein/14.12.993

Cited by 767 publications

(683 citation statements)

References 34 publications

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“…This has always been the Achilles' heel of the fusion approach. Although highly specific endoproteases, such as those encoded by the tobacco etch virus (AcTEV, Invitrogen) [29] and the human rhinovirus (PreScission, Amersham Biotech.) [30], have largely mitigated the problem of nonspecific cleavage, processing efficiency varies with each fusion protein in an unpredictable manner.…”

Section: Removal Of Affinity Tagsmentioning

confidence: 99%

“…The MBP moiety improves the yield and enhances the solubility of the passenger protein while the His 6 -tag facilitates its purification. The fusion protein (His 6 -MBP-passenger) is purified by IMAC on Ni-NTA resin and then cleaved in vitro with His 6 -tagged TEV protease [29] to separate the His 6 -MBP from the passenger protein. In the final step, the unwanted byproducts of the digest (His 6 -MBP, His 6 -TEV protease, and any undigested fusion protein)…”

Section: Combinatorial Taggingmentioning

confidence: 99%

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Making the most of affinity tags

Waugh

2005

Trends in Biotechnology

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Section: Removal Of Affinity Tagsmentioning

confidence: 99%

Section: Combinatorial Taggingmentioning

confidence: 99%

Making the most of affinity tags

Waugh

2005

Trends in Biotechnology

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478

324

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“…The lysate was centrifuged at 15,000 rpm at 4 C using an SA-600 rotor, filtered, and then the HisMBP fusion proteins were purified by immobilized metal affinity chromatography (IMAC) as described. 20 Fractions containing the fusion proteins were pooled, cleaved overnight with hexahistidine-tagged TEV protease, 22 and then subjected to another round of IMAC as described. 20 The flow-through fractions containing YscU were pooled and applied to an amylose column (New England Biolabs, Beverely, MA) to remove a small amount of His 6 -MBP that did not bind to the second Ni-NTA column.…”

Section: Cloning Expression and Purificationmentioning

confidence: 99%

Atomic resolution structure of the cytoplasmic domain of Yersinia pestis YscU, a regulatory switch involved in type III secretion

et al. 2009

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Crystal structures of cleaved and uncleaved forms of the YscU cytoplasmic domain, an essential component of the type III secretion system (T3SS) in Yersinia pestis, have been solved by single-wavelength anomolous dispersion and refined with X-ray diffraction data extending up to atomic resolution (1.13 Å ). These crystallographic studies provide structural insights into the conformational changes induced upon auto-cleavage of the cytoplasmic domain of YscU. The structures indicate that the cleaved fragments remain bound to each other. The conserved NPTH sequence that contains the site of the N263-P264 peptide bond cleavage is found on a b-turn which, upon cleavage, undergoes a major reorientation of the loop away from the catalytic N263, resulting in altered electrostatic surface features at the site of cleavage. Additionally, a significant conformational change was observed in the N-terminal linker regions of the cleaved and noncleaved forms of YscU which may correspond to the molecular switch that influences substrate specificity. The YscU structures determined here also are in good agreement with the auto-cleavage mechanism described for the flagellar homolog FlhB and E. coli EscU.

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“…Insertion of the gene encoding MBP, amplified by PCR from the vector pRK739 [17], into the leader sequence encoding region of pMCSG7 gave pMCSG9 (Fig. 1, Materials and methods).…”

Section: Salvaging Poorly Soluble Proteins Through Mbp Fusions-pmcsg9mentioning

confidence: 99%

“…The MBP encoding region was generated by PCR using plasmid pRK793 [17] as template (a generous gift from David Waugh) and the primers 5′-TTTTAGATCTGATGTCCCCTATACTAGGTTATTGG and 5′-TTTTGGTACCTGGGATATCGTAATCATCCGATTTTGGAGGATGGT (purchased from the Howard Hughes Medical Institute-Keck Laboratory of Yale University, New Haven, CT). The vector was digested with KpnI and dephosphorylated with calf intestinal phosphatase (Promega, Madison, WI), and ligated to the KpnI-treated PCR product.…”

Section: Construction Of Pmcsg9 and Pmcsg19mentioning

confidence: 99%

An expression vector tailored for large-scale, high-throughput purification of recombinant proteins

Donnelly

Zhou

Millard

et al. 2006

Protein Expression and Purification

159

172

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Production of milligram quantities of numerous proteins for structural and functional studies requires an efficient purification pipeline. We found that the dual tag, his 6 -tag-maltose-binding protein (MBP), intended to facilitate purification and enhance proteins' solubility, disrupted such a pipeline, requiring additional screening and purification steps. Not all proteins rendered soluble by fusion to MBP remained soluble after its proteolytic removal, and in those cases where the protein remained soluble, standard purification protocols failed to remove completely the stoichiometric amount of his 6 -tagged MBP generated by proteolysis. Both liabilities were alleviated by construction of a vector that produces fusion proteins in which MBP, the his 6 -tag and the target protein are separated by highly specific protease cleavage sites in the configuration MBP-site-his 6 -site-protein. In vivo cleavage at the first site by co-expressed protease generated untagged MBP and his 6 -tagged target protein.Proteins not truly rendered soluble by transient association with MBP precipitated, and untagged MBP was easily separated from the his-tagged target protein by conventional protocols. The second protease cleavage site allowed removal of the his 6 -tag. KeywordsHigh-throughput; Structural genomics; Maltose-binding protein; TVMV protease; Ligationindependent cloningThe burgeoning genomic information now available makes vast numbers of proteins accessible for structural and functional studies, and many large-scale projects have developed automated protocols for amplifying, cloning, and expressing genes, and for screening proteins for desirable properties [1][2][3][4][5]. Similar strides have been made in streamlining protein purification, but production of sufficient material for detailed structural and functional characterization remains labor-intensive and time-consuming [3,4,6,7]. Typically, purification is facilitated by fusing proteins to affinity tags, most commonly a his-tag, which allows purification by immobilized metal-ion affinity chromatography (IMAC,[8]). Additional tags are often attached to improve proteins' solubility, such as maltose-binding protein (MBP) [2][3][4]9,10]. In typical protein production pipelines, the resulting fusion proteins are first screened for ☆ This manuscript has been created by the University of Chicago as operator of Argonne National Laboratory under Contract No.W-31-109-ENG-38 with the US Department of Energy. The US government retains for itself, and others acting on its behalf, a paid-up, nonexclusive, irrevocable worldwide license in said article to reproduce, prepare derivative works, distribute copies to the public, and perform publicly and display publicly, by or on behalf of the government. The US Government's right to retain a nonexclusive royaltyfree license in and to the copyright covering this paper, for governmental purposes, is acknowledged. NIH-PA Author ManuscriptNIH-PA Author Manuscript NIH-PA Author Manuscript solubility, then purified by semi-robotic p...

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Tobacco etch virus protease: mechanism of autolysis and rational design of stable mutants with wild-type catalytic proficiency

Cited by 767 publications

References 34 publications

Making the most of affinity tags

Making the most of affinity tags

Atomic resolution structure of the cytoplasmic domain of Yersinia pestis YscU, a regulatory switch involved in type III secretion

An expression vector tailored for large-scale, high-throughput purification of recombinant proteins

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