Ariz Arnedo, Idoia
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Ariz Arnedo
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Idoia
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IMAB. Research Institute for Multidisciplinary Applied Biology
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Publication Open Access A self-induction method to produce high quantities of recombinant functional flavo-leghemoglobin reductase(Elsevier, 2008-01-29) Urarte Rodríguez, Estíbaliz; Auzmendi, Iñigo; Rol, Selene; Ariz Arnedo, Idoia; Aparicio Tejo, Pedro María; Arredondo-Peter, Raúl; Morán Juez, José Fernando; Institute for Multidisciplinary Research in Applied Biology - IMAB; Gobierno de Navarra / Nafarroako GobernuaFerric leghemoglobin reductase (FLbR) is able to reduce ferric leghemoglobin (Lb3+) to ferrous (Lb2+) form. This reaction makes Lb functional in performing its role since only reduced hemoglobins bind O2. FLbR contains FAD as prosthetic group to perform its activity. FLbR-1 and FLbR-2 were isolated from soybean root nodules and it has been postulated that they reduce Lb3+. The existence of Lb2+ is essential for the nitrogen fixation process that occurs in legume nodules; thus, the isolation of FLbR for the study of this enzyme in the nodule physiology is of interest. However, previous methods for the production of recombinant FLbR are inefficient as yields are too low. We describe the production of a recombinant FLbR-2 from Escherichia coli BL21(DE3) by using an overexpression method based on the self-induction of the recombinant E. coli. This expression system is four times more efficient than the previous overexpression method. The quality of recombinant FLbR-2 (based on spectroscopy, SDS-PAGE, IEF, and native PAGE) is comparable to that of the previous expression system. Also, FLbR-2 is purified near to homogeneity in only few steps (in a time scale, the full process takes 3 days). The purification method involves affinity chromatography using a Ni-nitrilotriacetic acid column. Resulting rFLbR-2 showed an intense yellow color, and spectral characterization of rFLbR-2 indicated that rFLbR-2 contains flavin. Pure rFLbR-2 was incubated with soybean Lba and NADH, and time drive rates showed that rFLbR-2 efficiently reduces Lb3+.Publication Open Access Use of recombinant iron-superoxide dismutase as a marker of nitrative stress(Elservier, 2008-04-20) Larrainzar Rodríguez, Estíbaliz; Urarte Rodríguez, Estíbaliz; Auzmendi, Iñigo; Ariz Arnedo, Idoia; Arrese-Igor Sánchez, César; González García, Esther; Morán Juez, José Fernando; Ciencias del Medio Natural; Natura Ingurunearen Zientziak; IdAB. Instituto de Agrobiotecnología / Agrobioteknologiako Institutua; Gobierno de Navarra / Nafarroako Gobernua, 57/2007Superoxide dismutases (SODs; EC 1.15.1.1) are a group of metalloenzymes which are essential to protect cells under aerobic conditions. In biological systems, it has been reported that SODs and other proteins are susceptible to be attacked by peroxynitrite (ONOO-) which can be originated from the reaction of nitric oxide with superoxide radical. ONOO- is a strong oxidant molecule capable of nitrating peptides and proteins at the phenyl side chain of the tyrosine residues. In the present work, bovine serum albumin (BSA) and recombinant iron¿superoxide dismutase from the plant cowpea (Vu_FeSOD) are used as target molecules to estimate ONOO- production. The method employs the compound SIN-1, which simultaneously generates -NO and O2- in aerobic aqueous solutions. First, assay conditions were optimized incubating BSA with different concentrations of SIN-1, and at a later stage, the effect on the tyrosine nitration and catalytic activity of Vu_FeSOD was examined by in-gel activity and spectrophotometric assays. Both BSA and Vu_FeSOD are nitrated in a dose-dependent manner, and, at least in BSA nitration, the reaction seems to be metal catalyzed.