Please use this identifier to cite or link to this item: http://archive.cmb.ac.lk:8080/xmlui/handle/70130/6921
Title: In silico Analysis of osr40c1 Promoter Sequence Isolated from Indica Variety Pokkali
Authors: De Silva, W. S. I.
Perera, M. M. N.
Perera, K. L. N. S.
Wickramasuriya, A. M.
Jayasekara, G. A. U.
Keywords: osr40c1
promoter
cis-acting regulatory element
rice
Issue Date: 2017
Publisher: Elsevier
Citation: De Silva, W. S. I., Perera, M. M. N., Perera, K. L. N. S., Wickramasuriya, A. M., & Jayasekera, G. A. U. (2017). In silico Analysis of osr40c1 Promoter Sequence Isolated from Indica Variety Pokkali. Rice Science, 24(4), 228-234. https://doi.org/10.1016/j.rsci.2016.11.002
Abstract: The promoter region of a drought and abscisic acid (ABA) inducible gene, osr40c1, was isolated from a salt-tolerant indica rice variety Pokkali, which is 670 bp upstream of the putative translation start codon. In silico promoter analysis of resulted sequence showed that at least 15 types of putative motifs were distributed within the sequence, including two types of common promoter elements, TATA and CAAT boxes. Additionally, several putative cis-acing regulatory elements which may be involved in regulation of osr40c1 expression under different conditions were found in the 5′-upstream region of osr40c1. These are ABA-responsive element, light-responsive elements (ATCT-motif, Box I, G-box, GT1-motif, Gap-box and Sp1), myeloblastosis oncogene response element (CCAAT-box), auxin responsive element (TGA-element), gibberellin-responsive element (GARE-motif) and fungal-elicitor responsive elements (Box E and Box-W1). A putative regulatory element, required for endosperm-specific pattern of gene expression designated as Skn-1 motif, was also detected in the Pokkali osr40c1 promoter region. In conclusion, the bioinformatic analysis of osr40c1 promoter region isolated from indica rice variety Pokkali led to the identification of several important stress-responsive cis-acting regulatory elements, and therefore, the isolated promoter sequence could be employed in rice genetic transformation to mediate expression of abiotic stress induced genes.
URI: https://doi.org/10.1016/j.rsci.2016.11.002
http://archive.cmb.ac.lk:8080/xmlui/handle/70130/6921
Appears in Collections:Department of Plant Sciences

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