Abstract
Cyanobacteria, red algae, and cryptophytes contain phycobiliproteins which function as photosynthetic light-harvesting pigments. The chromophores of phycobiliproteins are phycobilins, open-chain tetrapyrroles that are synthesized from protoheme. The first step of phycobilin formation is the conversion of protoheme to biliverdin IX alpha in a reaction that is catalyzed by heme oxygenase. In the unicellular red alga, Cyanidium caldarium, light is required for the accumulation of phycobiliproteins. It has been reported previously that the synthesis of the apoprotein components of allophycocyanin and phycocyanin is induced by light in C. caldarium, that the phycobilin precursors, delta-aminolevulinic acid (ALA), protoporphyrin IX, and protoheme can substitute for light, and that the regulation is exerted at the level of mRNA synthesis. We have determined that a key enzyme of phycobilin formation is induced by light in C. caldarium. Extractable heme oxygenase activity is low in dark-grown cells, and it increases approximately 6-fold during the first 24 h after the cells are illuminated. After 24 h, the activity decreases to a level approximately equal to the initial activity. Heme oxygenase is induced in unilluminated cells by administration of ALA. D-Glucose, which is known to inhibit phycocyanin accumulation in C. caldarium, inhibits the induction of heme oxygenase by light or ALA. Induction of heme oxygenase by light or ALA is blocked by cycloheximide, an inhibitor of cytoplasmic protein synthesis, but not by chloramphenicol, an inhibitor of chloroplast protein synthesis. Rifampicin, an inhibitor of algal chloroplast RNA synthesis, and gabaculine, a competitive inhibitor of ALA biosynthesis, block the induction of heme oxygenase by light but not by ALA. These results indicate that heme oxygenase in C. caldarium is induced by phycobilin precursors. The induction by light and the repression of the induction by D-glucose are probably indirect effects mediated by the effects of light and D-glucose on phycobilin precursor formation. The results also indicate that heme oxygenase is encoded by a nuclear gene and is synthesized on cytoplasmic ribosomes.
Highlights
6-foldduring the first 24 h after the cells are illuminated
RNA synthesis, and gabaculine, a competitive inhibitor of aminolevulinic acid (ALA) biosynthesis, blockthe induction of heme oxygenase by light but not by. These results indicate that heme oxygenasein C. caldarium is induced by phycobilin precursors
At 24 h, the cells have approached their maximum phycobiliproteincontent, and it would not be necessary to maintain heme oxygenase activity at thehigh level required for the initial bursotf phycobilin synthesis.A potentialalternative explanation for the decrease in heme oxygenase activity after 24 h is that some component in theminimal medium becomes depleted, and thecells cannot find enough nutrients to support further growth or pigment synthesis
Summary
Activity has been reported tobe influenced by light isferroche- phycocyanin, and chlorophyll a only in the light.’ C. caldarium strain latase (Brown e t al., 1984).When C. caldarium cells that have been grown in the dark are transferred to light, extractable ferrochelatase activity increases in parallel with the rate of phycocyanin accumulation. Onevolume of methylene method of Bradford (1976), using bovine serum albumin as the stanchloride, 95% (v/v) aqueous ethanol(l:l, v/v) was added, and thesolu- dard During the courseof these experiments, improvements were made in Sepharose (C1) prepared as previously described (Beale and Cornejo, the pigment extraction protocol that resulted in an improved product 1984). Umbilicalis ferredoxin, spinachferredoxin-NADP' reducidentified by relative retention time on HPLC and the identity was tase, bovine liver catalase, bovine serum albumin, bakers' yeastD-gluconfirmed by spectrophotometry.Pigmentswereisolated from the cose-6-phosphate dehydrogenase, o-glucose 6-phosphate, NADP+, and HPLC eluate, extracted, and concentratedby the same procedures as ascorbate were from SigmAal.l other reagents and chemicals wferorem described above for pigment extractionfrom incubations. Sobiliverdin Ma was prepared from commercial mesobilirubin Ma by oxidationwith 2,3-dichloro-5,6-dicyano-1,4-benzoquinoinedimethyl
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