| Literature DB >> 21030505 |
Dongjin Shin1, Seok-Jun Moon, Seyoun Han, Beom-Gi Kim, Sang Ryeol Park, Seong-Kon Lee, Hye-Jin Yoon, Hye Eun Lee, Hawk-Bin Kwon, Dongwon Baek, Bu Young Yi, Myung-Ok Byun.
Abstract
Potato (Solanum tuberosum) is relatively vulnerable to abiotic stress conditions such as drought, but the tolerance mechanisms for such stresses in potato are largely unknown. To identify stress-related factors in potato, we previously carried out a genetic screen of potato plants exposed to abiotic environmental stress conditions using reverse northern-blot analysis. A cDNA encoding a putative R1-type MYB-like transcription factor (StMYB1R-1) was identified as a putative stress-response gene. Here, the transcript levels of StMYB1R-1 were enhanced in response to several environmental stresses in addition to drought but were unaffected by biotic stresses. The results of intracellular targeting and quadruple 9-mer protein-binding microarray analysis indicated that StMYB1R-1 localizes to the nucleus and binds to the DNA sequence (G)/(A)GATAA. Overexpression of a StMYB1R-1 transgene in potato plants improved plant tolerance to drought stress while having no significant effects on other agricultural traits. Transgenic plants exhibited reduced rates of water loss and more rapid stomatal closing than wild-type plants under drought stress conditions. In addition, overexpression of StMYB1R-1 enhanced the expression of drought-regulated genes such as AtHB-7, RD28, ALDH22a1, and ERD1-like. Thus, the expression of StMYB1R-1 in potato enhanced drought tolerance via regulation of water loss. These results indicated that StMYB1R-1 functions as a transcription factor involved in the activation of drought-related genes.Entities:
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Year: 2010 PMID: 21030505 PMCID: PMC3075785 DOI: 10.1104/pp.110.163634
Source DB: PubMed Journal: Plant Physiol ISSN: 0032-0889 Impact factor: 8.340