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  • Title: Comparative analysis of synthetic DNA promoters for high-level gene expression in plants.
    Author: Sahoo DK, Sarkar S, Raha S, Maiti IB, Dey N.
    Journal: Planta; 2014 Oct; 240(4):855-75. PubMed ID: 25092118.
    Abstract:
    We have designed two near- constitutive and stress-inducible promoters (CmYLCV9.11 and CmYLCV4); those are highly efficient in both dicot and monocot plants and have prospective to substitute the CaMV 35S promoter. We performed structural and functional studies of the full-length transcript promoter from Cestrum yellow leaf curling virus (CmYLCV) employing promoter/leader deletion and activating cis-sequence analysis. We designed a 465-bp long CmYLCV9.11 promoter fragment (-329 to +137 from transcription start site) that showed enhanced promoter activity and was highly responsive to both biotic and abiotic stresses. The CmYLCV9.11 promoter was about 28-fold stronger than the CaMV35S promoter in transient and stable transgenic assays using β-glucuronidase (GUS) reporter gene. The CmYLCV9.11 promoter also demonstrated stronger activity than the previously reported CmYLCV promoter fragments, CmpC (-341 to +5) and CmpS (-349 to +59) in transient systems like maize protoplasts and onion epidermal cells as well as transgenic systems. A good correlation between CmYLCV9.11 promoter-driven GUS-accumulation/enzymatic activities with corresponding uidA-mRNA level in transgenic tobacco plants was shown. Histochemical (X-Gluc) staining of transgenic seedlings, root and floral parts expressing the GUS under the control of CmYLCV9.11, CaMV35S, CmpC and CmpS promoters also support the above findings. The CmYLCV9.11 promoter is a constitutive promoter and the expression level in tissues of transgenic tobacco plants was in the following order: root > leaf > stem. The tobacco transcription factor TGA1a was found to bind strongly to the CmYLCV9.11 promoter region, as shown by Gel-shift assay and South-Western blot analysis. In addition, the CmYLCV9.11 promoter was regulated by a number of abiotic and biotic stresses as studied in transgenic Arabidopsis and tobacco plants. The newly derived CmYLCV9.11 promoter is an efficient tool for biotechnological applications.
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