4.5 Article

Characterization of the haem oxygenase protein family in Arabidopsis thaliana reveals a diversity of functions

Journal

BIOCHEMICAL JOURNAL
Volume 425, Issue -, Pages 425-434

Publisher

PORTLAND PRESS LTD
DOI: 10.1042/BJ20090775

Keywords

Arabidopsis thaliana; biliverdin (BV); haem oxygenase (HO); HO2; protoporphyrin IX (proto IX)

Funding

  1. Deutsche Forschungsgemeinschaft
  2. Japan Society for Promotion of Science [21027021]
  3. Grants-in-Aid for Scientific Research [21027021] Funding Source: KAKEN

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HOs (haem oxygenases) catalyse the oxidative cleavage of haem to BV (biliverdin), iron and carbon monoxide. In plants, the product of the reaction is BV IX alpha, the precursor of the PHY (phytochrome) chromophore and is thus essential for proper photomorphogenesis. Arabidopsis thaliana contains one major biochemically characterized HO (HY1) and three additional putative HOs (HO2, HO3 and HO4). All four proteins are encoded in the nucleus but contain chloroplast translocation sequences at their N-termini. The transit peptides of all four proteins are sufficient for chloroplast trans localization as shown by GFP (green fluorescent protein) reporter gene fusions. Overall, all four proteins can be divided into two subfamilies: HO1 and HO2. Here we show that all members of the HO1 subfamily (HY1, HO3 and HO4) are active monomeric HOs and can convert haem to BV IX alpha using spinach Fd (ferredoxin) as an electron donor. Addition of a second electron donor, such as ascorbate, led to a 10-fold increase in the haem conversion rate. Furthermore. haem turnover is also promoted by light when spinach thylakoids are present. All HO1 family members displayed similar kinetic parameters indicating they all have a possible involvement in PHY chromophore biosynthesis. HO2 did not yield sufficient amounts of soluble protein and therefore required the construction of a synthetic gene adapted to the codon usage of Escherichia coli. HO2 is unable to bind or degrade haem and therefore it is not a haem oxygenase. However, HO2 shows strong binding of proto IX (protoporphyrin IX), a precursor for both haem and chlorophyll biosynthesis. A possible function of HO2 in the regulation of tetrapyrrole metabolism is discussed.

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