Characterization of Upstream Sequences of the LOJ Gene Leads to Identification of a Novel Enhancer Element Conferring Lateral Organ Junction-Specific Expression in Arabidopsis thaliana |
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Authors: | Dipnarayan Saha Vajinder Kumar Shripad Ramachandra Bhat Ramamurthy Srinivasan |
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Affiliation: | (1) National Research Center for Plant Biotechnology, Indian Agricultural Research Institute, Pusa Campus, New Delhi, 110 012, India; |
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Abstract: | Isolation and characterization of promoters are important in understanding gene regulation and genetic engineering of crop plants. Earlier, a pentatricopeptide repeat protein (PPR) encoding gene (At2g39230), designated as Lateral Organ Junction (LOJ) gene, was identified through T-DNA promoter trapping in Arabidopsis thaliana. The upstream sequence of the LOJ gene conferred on the reporter gene a novel LOJ-specific expression. The present study was aimed at identifying and characterizing the cis-regulatory motifs responsible for tissue-specific expression in the −673 and +90 bases upstream of the LOJ gene recognized as LOJ promoter. In silico analysis of the LOJ promoter revealed the presence of a few relevant regulatory motifs and a unique feature like AT-rich inverted repeat. Deletion analysis of the LOJ promoter confirmed the presence of an enhancer-like element in the distal region (−673/−214), which stimulates a minimal promoter-like sequence in the −424/−214 region in a position and orientation autonomous manner. The −136/+90 region of the LOJ promoter was efficient in driving reporter gene expression in tissues like developing anthers and seeds of Arabidopsis. A positive regulation for the seed- and anther-specific expression module was contemplated within the 5′ untranslated region of the LOJ gene. However, this function was repressed in the native context by the lateral organ junction-specific expression. The present study has led to the identification of a novel lateral organ junction-specific element and an enhancer sequence in Arabidopsis with potential applications in plant genetic engineering. |
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