NO‐degradation by alfalfa class 1 hemoglobin (Mhb1): a possible link to PR‐1a gene expression in Mhb1‐overproducing tobacco plants

Tobacco plants overproducing alfalfa class 1 hemoglobin (HOT plants) have been shown to have reduced necrotic symptom development. Here, we show that this altered pathogenic response is linked to a significant increase in the nitric oxide (NO)‐affected pathogenesis‐related ( PR‐1a ) transcript accumulation in the transgenic plants. Homogenates of HOT transgenic seedlings were also found to have higher NO‐scavenging activity than non‐transformed ones. The NO‐scavenging properties of recombinant alfalfa class1 hemoglobin have been examined. Recombinant Mhb1 (rMhb1) was produced in bacteria and purified using polyethylene glycol (10–25%) fractionation, chromatography on DEAE–Sephacel, and Phenyl Superose columns. After the final purification step, the obtained preparations were near homogeneous and had a molecular weight of 44 kDa determined by size‐exclusion chromatography and 23 kDa by SDS–PAGE, indicating that rMhb1 is a dimer. The protein participated in NO‐degradation activity with NAD(P)H as a cofactor. After ion‐exchange columns, addition of FAD was necessary for exhibiting maximal NO‐degradation activity. The NAD(P)H‐dependent NO‐scavenging activity of rMhb1, which is similar to that of barley hemoglobin, supports a conclusion that both monocot and dicot class 1 hemoglobins can affect cellular NO levels by scavenging NO formed during hypoxia, pathogen attack and other stresses.