Rafael Real‐Guerra scite author profile

In this work we compared two plant ureases, jackbean urease (JBU) and embryo-specific soybean urease (SBU) and a bacterial (Bacillus pasteurii) urease, for kinetic parameters and other biological properties described recently for ureases that are independent of the ureolytic activity. The insecticidal effect of ureases was investigated in feeding trials with the cotton sucker bug, Dysdercus peruvianus (Hemiptera) as an insect model. Contrasting with B. pasteurii urease (PBU), both plant ureases presented potent insecticidal activity, with LD 50 values of 0.017% (w/w) and 0.052% (w/w) for JBU and SBU, respectively. The insecticidal property of JBU or SBU was not affected by treatment with p-hydroxymercuribenzoate, an irreversible inhibitor of ureolytic activity of both proteins. Also, contrasting with canatoxin -a urease isoform from jackbean seeds that displays a toxic effect in mice (LD 50 ¼ 2 mgAEkg ). Similarly to canatoxin, the three enzymes promoted aggregation of blood platelets (EC 50 ¼ 400.0 lgAEmL , 15.8 lgAEmL )1 for BPU, SBU and JBU, respectively). This platelet activating property was also independent of urease activity. Comparison of the kinetic properties indicated that SBU is fivefold less susceptible than JBU to inhibition by acetohydroxamic acid, a chelator of Ni +2 and Zn +2 ions. The ureases also showed different susceptibility to agents that modify cysteine residues, such as p-hydroxymercuribenzoate and p-benzoquinone. Altogether, these data emphasize that biological properties that are independent of ureolytic activity are not restricted to jackbean ureases and that these proteins may have a role in plant defense against insect predators.

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Pliable natural biocide: Jaburetox is an intrinsically disordered insecticidal and fungicidal polypeptide derived from jack bean urease

Lopes

Dobrovolska

Real‐Guerra

et al. 2015

The FEBS Journal

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Jaburetox is a polypeptide derived from jack bean (Canavalia ensiformis) urease and toxic to a broad spectrum of insects, phytopathogenic filamentous fungi and yeasts of medical importance. The elucidation of the structural basis for the mode of action of Jaburetox is the focus of this multifaceted study. Jaburetox in solution is a monomer of 11.0 kDa featuring a large hydrodynamic radius, suggestive of a disordered polypeptide. The intrinsically disordered nature of Jaburetox was theoretically predicted by a comprehensive bioinformatics analysis and experimentally confirmed by light scattering as well as by circular dichroism and NMR spectroscopy. NMR signal assignment provided backbone secondary chemical shifts that indicated that Jaburetox has a low propensity to assume a stable secondary structure. 15N relaxation studies revealed significant backbone mobility, especially in the N-terminal portion of the polypeptide. The solution structure of Jaburetox shows the presence of an a-helical motif close to the N terminus, together with two turn-like structures situated in the central portion of the protein and close to the C terminus. Similar regions were predicted as potential protein-protein interaction sites using computational tools. The knowledge of the structural properties of Jaburetox in solution is a key step to correlate its structural and biological activities.Abbreviations HSQC, heteronuclear single quantum coherence; IDP, intrinsically disordered protein; JBU, jack bean urease; LUV, large unilamellar vesicle;

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Expression analysis and molecular characterization of aquaporins in Rhodnius prolixus

Stanisçuaski

Paluzzi

Real‐Guerra

et al. 2013

Journal of Insect Physiology

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Stage-specific gut proteinases of the cotton stainer bug Dysdercus peruvianus: Role in the release of entomotoxic peptides from Canavalia ensiformis urease

Piovesan

Stanisçuaski

Marco-Salvadori

et al. 2008

Insect Biochemistry and Molecular Biology

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Biochemical and structural studies on native and recombinant Glycine max UreG: a detailed characterization of a plant urease accessory protein

et al. 2012

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Urea is the nitrogen fertilizer most utilized in crop production worldwide. Understanding all factors involved in urea metabolism in plants is an essential step towards assessing and possibly improving the use of urea by plants. Urease, the enzyme responsible for urea hydrolysis, and its accessory proteins, necessary for nickel incorporation into the enzyme active site and concomitant activation, have been extensively characterized in bacteria. In contrast, little is known about their plant counterparts. This work reports a detailed characterization of Glycine max UreG (GmUreG), a urease accessory protein. Two forms of native GmUreG, purified from seeds, were separated by metal affinity chromatography, and their properties (GTPase activity in absence and presence of Ni(2+) or Zn(2+), secondary structure and metal content) were compared with the recombinant protein produced in Escherichia coli. The binding affinity of recombinant GmUreG (rGmUreG) for Ni(2+) and Zn(2+) was determined by isothermal titration calorimetry. rGmUreG binds Zn(2+) or Ni(2+) differently, presenting a very tight binding site for Zn(2+) (K (d) = 0.02 ± 0.01 μM) but not for Ni(2+), thus suggesting that Zn(2+) may play a role on the plant urease assembly process, as suggested for bacteria. Size exclusion chromatography showed that Zn(2+) stabilizes a dimeric form of the rGmUreG, while NMR measurements indicate that rGmUreG belongs to the class of intrinsically disordered proteins. A homology model for the fully folded GmUreG was built and compared to bacterial UreG models, and the possible sites of interaction with other accessory proteins were investigated.

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