Molecular cloning and characterization of soybean peroxidase gene families

Plant peroxidases play major roles in many physiological processes. A soybean seedbud (21 days after flowering) Uni-ZAP XR cDNA library was screened with a peroxidase-specific probe. The probe was generated by 3′ rapid amplification of cDNA ends with soybean seedbud total RNA and a degenerate primer derived from a plant peroxidase conserved amino acid region (distal heme ligand). Positive clones were recovered by PCR using the degenerate peroxidase-specific primer and the vector primer T₇ flanking the cloning site. Four cDNAs, designated GmEpa1, GmEpa2, GmEpb1, and GmEpb2, contained 1298, 1326, 1171, and 1145 nucleotides, excluding poly(A) tail, and encoded mature proteins of 303, 303, 292, and 292 amino acids, respectively. The four predicted amino acid sequences showed homology to other peroxidases. GmEpa1 and GmEpa2 exhibited 97% amino acid identity, GmEpb1 and GmEpb2 exhibited 93% amino acid identity, and GmEpa1 and GmEpb1 exhibited 47% amino acid identity. GmEPa1 and GmEPb1 were expressed as fusion proteins in Escherichia coli. The recombinant fusion proteins were sequestered in inclusion bodies and active forms of the two denatured proteins were recovered after in vitro folding in a medium containing hemin, urea and Ca²⁺. GmEpa1 and GmEpa2 messages were detected in developing seed and root, while GmEpb1 and GmEpb2 messages were present in root, leaf, stem and seed pod. These cDNAs and cDNA-specific primers will allow investigations into peroxidase’s role in development, stress response and in other physiological processes.