The Ways of Realization of High Specificity and Efficiency of Enteropeptidase

Mikhailova, A. G.; Likhareva, V. V.; Teich, Niels; Румш, Л. Д.

doi:10.2174/092986607780090793

Cited by 11 publications

(7 citation statements)

References 16 publications

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“…Here, enterokinase was our target because it is specific to the trypsinogen‐trypsin conversion. Nonetheless, the mechanism for activating trypsin is well understood (26), making it possible to genetically or chemically modify the activation domain of trypsinogen or the catalytic activity of enterokinase (27). There are other identified autoactivating zymogens that are proteolytic (28, 29).…”

Section: Discussionmentioning

confidence: 99%

Self‐degrading, MRI‐detectable hydrogel sensors with picomolar target sensitivity

Colomb

Louie

Massia

et al. 2010

Magnetic Resonance in Med

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Nanostructured hydrogels have been developed as synthetic tissues and scaffolds for cell and drug delivery, and as guides for tissue regeneration. A fundamental problem in the development of synthetic hydrogels is that implanted gel structure is difficult to monitor noninvasively. This work demonstrates that the aggregation of magnetic nanoparticles, attached to specific macromolecules in biological and synthetic hydrogels, can be controlled to detect changes in gel macromolecular structure with MRI. It is further shown that the gels can be made to self‐degrade when they come into contact with a target molecule in as low as pM concentrations. The sensitivity of the gels to the target is finely controlled using an embedded zymogen cascade amplifier. These “MRI reporter gels” may serve as smart, responsive polymer implants, as tissue scaffolds to deliver drugs, or to detect specific pathogens in vivo. Magn Reson Med, 2010. © 2010 Wiley‐Liss, Inc.

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Section: Discussionmentioning

confidence: 99%

Self‐degrading, MRI‐detectable hydrogel sensors with picomolar target sensitivity

Colomb

Louie

Massia

et al. 2010

Magnetic Resonance in Med

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“…For example, the catalytic constants of L-HEP for small peptide GD 4 K-na and mammalian trypsinogen activation peptide APFD 4 KIVGG are 10 and 17 times higher, respectively, than those of bovine enzyme [23,26]. Moreover, L-HEP and L-BEP also differ significantly in specificity toward various noncanonical peptides [15].…”

Section: Introductionmentioning

confidence: 98%

Heterogeneous catalysis on the phage surface: Display of active human enteropeptidase

et al. 2013

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“…18,22,23 The monomeric rbEP L from E. coli proved superior to the native heterodimeric bEP at cleaving fusion proteins. 18 Human EP L has greater catalytic efficiency compared to bovine EP L for D 4 R$ X and D 4 K$ X substrates 24,25 and recombinant hEP light chain (rhEP L ) was shown to have a 10-fold higher specificity constant (k cat /K M ) for the D 4 K$ X sequence than bEP L .…”

Section: Introductionmentioning

confidence: 99%

Human enteropeptidase light chain: Bioengineering of recombinants and kinetic investigations of structure and function

Smith

Johnson

2013

Protein Science

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The serine protease enteropeptidase exhibits a high level of substrate specificity for the cleavage sequence DDDDK~X, making this enzyme a useful tool for the separation of recombinant protein fusion domains. In an effort to improve the utility of enteropeptidase for processing fusion proteins and to better understand its structure and function, two substitution variants of human enteropeptidase, designated R96Q and Y174R, were created and produced as active (>92%) enzymes secreted by Pichia pastoris with yields in excess of 1.7 mg/Liter. The Y174R variant showed improved specificities for substrates containing the sequences DDDDK (k cat /K M 5 6.83 3 10 6 M 21 sec 21) and DDDDR (k cat /K M 5 1.89 3 10 7 M 21 sec 21) relative to all other enteropeptidase variants reported to date. BPTI inhibition of Y174R was significantly decreased. Kinetic data demonstrate the important contribution of the positively charged residue 96 to extended substrate specificity in human enteropeptidase. Modeling shows the importance of the charge-charge interactions in the extended substrate binding pocket.

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The Ways of Realization of High Specificity and Efficiency of Enteropeptidase

Cited by 11 publications

References 16 publications

Self‐degrading, MRI‐detectable hydrogel sensors with picomolar target sensitivity

Self‐degrading, MRI‐detectable hydrogel sensors with picomolar target sensitivity

Heterogeneous catalysis on the phage surface: Display of active human enteropeptidase

Human enteropeptidase light chain: Bioengineering of recombinants and kinetic investigations of structure and function

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