| Abstract | dc.description.abstract | Carotenoids are synthesized in prokaryotic and eukaryotic organisms. In plants and algae, these lipophilic
molecules possess antioxidant properties acting as reactive oxygen species scavengers and exert functional
roles in hormone synthesis, photosynthesis, photomorphogenesis and in photoprotection. During the past
decade almost all carotenogenic genes have been identified as a result of molecular, genetic and biochemical
approaches utilizing Arabidopsis thaliana as the model system. Studies carried out in leaves and fruits of A.
thaliana and tomato determined that light regulates carotenoid biosynthesis preferentially through the
modulation of carotenogenic gene transcription. In this work we showed for the first time that light induces
accumulation of psy1, pds and zds2 transcripts in leaves of Daucus carota (carrot), a novel plant model. In
addition, modified roots of carrots exposed to light accumulate zds1, whereas the pds gene is highly
repressed, suggesting that some carotenogenic genes, which are expressed in roots, are regulated by light.
Additionally, light negatively regulates the development of the modified carrot root in a reversible manner.
Therefore, this suggests that light affects normal growth and carotenogenic gene expression in the modified
root of carrot plants. The molecular insight gained into the light-regulated expression of carotenoid genes in
this and other model systems will facilitate our understanding of the regulation of carotenoid biosynthesis to
improve the prospects for the metabolic engineering of carotenoid production in plants. | en_US |
