Identification and in silico characterization of cis-acting elements of genes involved in carotenoid biosynthesis in tomato.

Carotenoids, the widespread and structurally diverse class of pigments, accumulate in the fruits of tomato plants in a tissue specific manner. The carotenoid biosynthetic pathway genes have been cloned and characterized in tomato and other plants, however, its regulation is still obscure. We collected and analyzed forty different accessions of tomato for the present study. HPLC analysis revealed differential accumulation of major carotenoids (lycopene and ß-carotene) in the ripe fruit tissue. In order to understand the underlying regulatory mechanisms in carotenoid biosynthesis and accumulation, we sequenced the cis-acting elements i.e. promoter, 5' and 3' untranslated regions of the carotenoid pathway genes, in all accessions, followed by their in silico validation. Major differences observed in the CAAT Box, Opaque-2 Box and L-box in the promoters of carotenoid isomerase and lycopene-beta cyclase genes, respectively, along with the variations in musashi binding element of 5' untranslated regions of the carotenoid isomerase gene, suggest their differential role in regulating the carotenogenesis process in tomato. The binding sites for various transcription factors namely RIN, AGAMOUS, CRY, RAP2.2 and PIF1 on the promoters of important carotenoid pathway genes were predicted in silico. We propose that expression of carotenoid genes and also the formation of protein product in ripe tomato fruits, is regulated efficiently by the binding of these transcription factors at selected sites in the promoter region. Finally, the differential expression of the above-mentioned genes in different developmental tissues supports the possible involvement of promoters and untranslated regions in carotenoid biosynthesis and accumulation process. The present study has generated significant information concerning regulatory players involved in the carotenoid biosynthesis in tomato.