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Purification and kinetic characterization of two peroxidases of Selaginella martensii Spring. involved in lignification.

Plant physiology and biochemistry : PPB (2012-02-07)
Teresa Martínez-Cortés, Federico Pomar, José Manuel Espiñeira, Fuencisla Merino, Esther Novo-Uzal
RESUMEN

Two cationic peroxidases from Selaginella martensii Spring. (SmaPrx2 and SmaPrx3) were purified using a three-step protocol which includes ammonium sulfate precipitation, adsorption chromatography on phenyl sepharose and cationic exchange chromatography on SP sepharose. The molecular mass for SmaPrx2 and SmaPrx3 was calculated to be 36.3 kDa and 45.6 kDa, respectively, according to MALDI-TOF/TOF. The isoelectric points were estimated in 9.2 and 9.5 for SmaPrx2 and SmaPrx3, respectively, according to isoelectrofocusing. Both enzymes show a typical peroxidase UV-visible spectrum with a Soret peak at 403 nm for SmaPrx2 and 404 nm for SmaPrx3. The specific activities showed against several substrates and the kinetic parameters suggest SmaPrx2 and SmaPrx3 have specific roles in cell wall formation and especially in lignin biosynthesis. Several peptides from tryptic digestion of both peroxidases were identified through MALDI-TOF MS/MS. The presence in these peptides of structural determinants typical of syringyl peroxidases indicates these proteins show no structural restrictions to oxidize syringyl moieties. These data, along with the in vitro capacity of using sinapyl alcohol as substrate and the low K(m) in the μM range suggest these two peroxidases may be responsible for the oxidation of syringyl monolignols that leads to syringyl lignins biosynthesis.

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Sigma-Aldrich
Fenil-sefarosa CL-4B, extent of labeling: ~40 μmol per mL
Sigma-Aldrich
Phenyl-Sepharose 6 flujo rápido, high substitution, extent of labeling: ~40 μmol per mL (high substitution)
Sigma-Aldrich
Phenyl-Sepharose 6 flujo rápido, low substitution, extent of labeling: ~20 μmol per mL