High-throughput virus-induced gene-silencing approach to assess the functional relevance of a moisture stress-induced cDNA homologous to lea4

doi:10.1093/jxb/erj200

JXB Advance Access published online on June 23, 2006
Journal of Experimental Botany, doi:10.1093/jxb/erj200

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© The Author [2006]. Published by Oxford University Press [on behalf of the Society for Experimental Biology]. All rights reserved. For Permissions, please e-mail: journals.permissions@oxfordjournals.org
Received July 1, 2005
Accepted March 15, 2006

RESEARCH PAPER

High-throughput virus-induced gene-silencing approach to assess the functional relevance of a moisture stress-induced cDNA homologous to lea4

M. Senthil-Kumar ¹ and M. Udayakumar ¹ ^*

¹ Department of Crop Physiology, University of Agricultural Sciences, GKVK, Bangalore 560 065, India

^* To whom correspondence should be addressed.
M. Udayakumar, E-mail: udayakumar_m{at}yahoo.com

Abstract

The abiotic stress-responsive cDNA database and their expressionprofiles suggest that stress genes are many and diverse. However,characterization and validation of their functional significancehas been a constraint to assessing their role in imparting tolerance.Virus-induced gene silencing (VIGS) is a potential option forassessing the functional significance of stress genes. Herethe effectiveness of VIGS to silence the expression of an ABA-responsivelea4 (late embryogenic abundant) gene involved in stress toleranceis documented. In the present study, low moisture-stress protocolswere developed in such a way that the plants experienced thedesired stress level when silencing the target stress gene usingVIGS was at a maximum. The functional relevance of a groundnut(Arachis hypogaea) subtracted-stress cDNA clone putative lea4was examined by VIGS in tomato. A 400 bp fragment of lea4 wascloned into tobacco rattle virus-based VIGS vector to triggerpost-transcriptional gene silencing by Agrobacterium-mediatedinoculation in tomato plants. In silenced plants only lea4 transcriptsshowed a substantial decline, whereas the expression of otherknown stress-responsive genes such as apx (ascorbate peroxidase)and elip (early light-induced protein) were unaltered. Undermoderate moisture stress, the silenced plants showed enhancedsusceptibility as measured by cell viability, superoxide radicalactivity, and cell osmotic adjustment. This approach illustratesthe potential benefits of VIGS in identifying functional relevanceof low moisture stress-responsive genes. It is also demonstratedthat heterologous probes with a fairly high degree of homologyto the native genes can be used to study the functional relevanceof stress-responsive genes using VIGS.

Keywords: LEA4; low moisture stress-induced genes; plant stress functional genomics; VIGS.

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