Yukito Tsuruda scite author profile

Yukito Tsuruda

2Publications

82Citation Statements Received

44Citation Statements Given

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Kyushu University

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Transglutaminase‐Mediated Synthesis of a DNA–(Enzyme)_n Probe for Highly Sensitive DNA Detection

Kitaoka

Tsuruda

Tanaka

et al. 2011

Chemistry A European J

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A new synthetic strategy for DNA-enzyme conjugates with a novel architecture was explored using a natural cross-linking catalyst, microbial transglutaminase (MTG). A glutamine-donor substrate peptide of MTG was introduced at the 5-position on the pyrimidine of deoxyuridine triphosphate to prepare a DNA strand with multiple glutamine-donor sites by polymerase chain reaction (PCR). A substrate peptide that contained an MTG-reactive lysine residue was fused to the N terminus of a thermostable alkaline phoshatase from Pyrococcus furiosus (PfuAP) by genetic engineering. By combining enzymatically the substrate moieties of MTG introduced to the DNA template and the recombinant enzyme, a DNA-(enzyme)(n) conjugate with 1:n stoichiometry was successfully obtained. The enzyme/DNA ratio of the conjugate increased as the benzyloxycarbonyl-L-glutaminylglycine (Z-QG) moiety increased in the DNA template. The potential utility of the new conjugate decorated with signaling enzymes was validated in a dot blot hybridization assay. The DNA-(enzyme)(n) probe could clearly detect 10(4) copies of the target nucleic acid with the complementary sequence under harsh hybridization conditions, thereby enabling a simple detection procedure without cumbersome bound/free processes associated with a conventional hapten-antibody reaction-based DNA-detection system.

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Exploring enzymatic catalysis at a solid surface: a case study with transglutaminase-mediated protein immobilization

et al. 2007

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The factors affecting enzymatic protein immobilization with microbial transglutaminase (MTG) were explored. As model proteins, enhanced green fluorescent protein (EGFP) and glutathione S-transferase (GST) were chosen and tagged with a neutral Gln-donor substrate peptide for MTG (Leu-Leu-Gln-Gly, LLQG-tag) at their C-terminus. To create a specific surface, displaying reactive Lys residues, to be cross-linked with the Gln residue in the LLQG-tag of target proteins by MTG catalysis, a polystyrene surface was physically coated with b-casein. Both recombinant proteins were immobilized onto the b-casein-coated surface only in the presence of active MTG, indicating that those proteins were enzymatically immobilized to the surface. MTG-mediated protein immobilization markedly depends on the pH and ionic strength of the reaction media. The optimal pH range of MTG-mediated immobilization of both recombinant proteins was around 5, at which point the MTG-catalyzed reaction in aqueous solution is not normally preferred. By utilizing a pH-dependent change in EGFP fluorescence, we found that the apparent pH at the surface is likely to be lower than bulk pH, this difference is not attributed to an optimal pH shift in MTG-mediated immobilization. On the other hand, lower yields of protein immobilization at higher ionic strength suggest that electrostatic interaction is a key factor governing MTG catalysis at a solid surface. The results of this study indicate that, in enzymatic catalysis at a solid surface, the concentration of substrates at the surface can enhance the catalytic efficiency, and this could alter the pH dependence of enzymatic catalysis.

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Yukito Tsuruda

Transglutaminase‐Mediated Synthesis of a DNA–(Enzyme)_n Probe for Highly Sensitive DNA Detection

Exploring enzymatic catalysis at a solid surface: a case study with transglutaminase-mediated protein immobilization

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Yukito Tsuruda

Transglutaminase‐Mediated Synthesis of a DNA–(Enzyme)n Probe for Highly Sensitive DNA Detection

Exploring enzymatic catalysis at a solid surface: a case study with transglutaminase-mediated protein immobilization

Contact Info

Product

Resources

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Transglutaminase‐Mediated Synthesis of a DNA–(Enzyme)_n Probe for Highly Sensitive DNA Detection