Publications

• The gene carD encodes the aldehyde dehydrogenase responsible for neurosporaxanthin biosynthesis in Fusarium fujikuroi.

  Diaz-Sanchez V., Estrada A.F., Trautmann D., Al-Babili S., Avalos J.

  Neurosporaxanthin (β-apo-4'-carotenoic acid) biosynthesis has been studied in detail in the fungus Fusarium fujikuroi. The genes and enzymes for this biosynthetic pathway are known until the last enzymatic step, the oxidation of the aldehyde group of its precursor, β-apo-4'-carotenal. On the basis ... >> More

  Neurosporaxanthin (β-apo-4'-carotenoic acid) biosynthesis has been studied in detail in the fungus Fusarium fujikuroi. The genes and enzymes for this biosynthetic pathway are known until the last enzymatic step, the oxidation of the aldehyde group of its precursor, β-apo-4'-carotenal. On the basis of sequence homology to Neurospora crassa YLO-1, which mediates the formation of apo-4'-lycopenoic acid from the corresponding aldehyde substrate, we cloned the carD gene of F. fujikuroi and investigated the activity of the encoded enzyme. In vitro assays performed with heterologously expressed protein showed the formation of neurosporaxanthin and other apocarotenoid acids from the corresponding apocarotenals. To confirm this function in vivo, we generated an Escherichia coli strain producing β-apo-4'-carotenal, which was converted into neurosporaxanthin upon expression of carD. Moreover, the carD function was substantiated by its targeted disruption in a F. fujikuroi carotenoid-overproducing strain, which resulted in the loss of neurosporaxanthin and the accumulation of β-apo-4'-carotenal, its derivative β-apo-4'-carotenol, and minor amounts of other carotenoids. Intermediates accumulated in the ΔcarD mutant suggest that the reactions leading to neurosporaxanthin in Neurospora and Fusarium are different in their order. In contrast to ylo-1 in N. crassa, carD mRNA content is enhanced by light, but to a lesser extent than other enzymatic genes of the F. fujikuroi carotenoid pathway. Furthermore, carD mRNA levels were higher in carotenoid-overproducing mutants, supporting a functional role for CarD in F. fujikuroi carotenogenesis. With the genetic and biochemical characterization of CarD, the whole neurosporaxanthin biosynthetic pathway of F. fujikuroi has been established. << Less

  FEBS J. 278:3164-3176(2011) [PubMed] [EuropePMC]

• The ylo-1 gene encodes an aldehyde dehydrogenase responsible for the last reaction in the Neurospora carotenoid pathway.

  Estrada A.F., Youssar L., Scherzinger D., Al-Babili S., Avalos J.

  The accumulation of the apocarotenoid neurosporaxanthin and its carotene precursors explains the orange pigmentation of the Neurospora surface cultures. Neurosporaxanthin biosynthesis requires the activity of the albino gene products (AL-1, AL-2 and AL-3), which yield the precursor torulene. Recen ... >> More

  The accumulation of the apocarotenoid neurosporaxanthin and its carotene precursors explains the orange pigmentation of the Neurospora surface cultures. Neurosporaxanthin biosynthesis requires the activity of the albino gene products (AL-1, AL-2 and AL-3), which yield the precursor torulene. Recently, we identified the carotenoid oxygenase CAO-2, which cleaves torulene to produce the aldehyde beta-apo-4'-carotenal. This revealed a last missing step in Neurospora carotenogenesis, namely the oxidation of the CAO-2 product to the corresponding acid neurosporaxanthin. The mutant ylo-1, which exhibits a yellow colour, lacks neurosporaxanthin and accumulates several carotenes, but its biochemical basis is unknown. Based on available genetic data, we identified ylo-1 in the Neurospora genome, which encodes an enzyme representing a novel subfamily of aldehyde dehydrogenases, and demonstrated that it is responsible for the yellow phenotype, by sequencing and complementation of mutant alleles. In contrast to the precedent structural genes in the carotenoid pathway, light does not induce the synthesis of ylo-1 mRNA. In vitro incubation of purified YLO-1 protein with beta-apo-4'-carotenal produced neurosporaxanthin through the oxidation of the terminal aldehyde into a carboxyl group. We conclude that YLO-1 completes the set of enzymes needed for the synthesis of this major Neurospora pigment. << Less

  Mol. Microbiol. 69:1207-1220(2008) [PubMed] [EuropePMC]