Title of article
Involvement of Ethylene in Stress-Induced Expression of the TLC1.1 Retrotransposon from Lycopersicon chilense Dun.
Author/Authors
Tapia، Gerardo نويسنده , , Verdugo، Isabel نويسنده , , Yanez، Monica نويسنده , , Ahumada، Ivan نويسنده , , Theoduloz، Cristina نويسنده , , Cordero، Cecilia نويسنده , , Poblete، Fernando نويسنده , , Gonzalez، Enrique نويسنده , , Ruiz-Lara، Simon نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2005
Pages
-2074
From page
2075
To page
0
Abstract
The TLC1 family is one of the four families of long terminal repeat (LTR) retrotransposons identified in the genome of Lycopersicon chilense. Here, we show that this family of retroelements is transcriptionally active and its expression is induced in response to diverse stress conditions such as wounding, protoplast preparation, and high salt concentrations. Several stress-associated signaling molecules, including ethylene, methyl jasmonate, salicylic acid, and 2,4dichlorophenoxyacetic acid, are capable of inducing TLC1 family expression in vivo. A representative of this family, named TLC1.1, was isolated from a genomic library from L. chilense. Transient expression assays in leaf protoplasts and stably transformed tobacco (Nicotiana tabacum) plants demonstrate that the U3 domain of the 5ʹ-LTR region of this element can drive stressinduced transcriptional activation of the (beta)-glucuronidase reporter gene. Two 57-bp tandem repeated sequences are found in this region, including an 8-bp motif, ATTTCAAA, previously identified as an ethylene-responsive element box in the promoter region of ethylene-induced genes. Expression analysis of wild-type LTR and single and double ethylene-responsive element box mutants fused to the (beta)-glucuronidase gene shows that these elements are required for ethyleneresponsive gene expression in protoplasts and transgenic plants. We suggest that ethylenedependent signaling is the main signaling pathway involved in the regulation of the expression of the TLC1.1 element from L. chilense.
Keywords
Particle size , mathematical models , Sedimentation , Numerical models , Abatement and removal , design
Journal title
PLANT PHYSIOLOGY
Serial Year
2005
Journal title
PLANT PHYSIOLOGY
Record number
113913
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