Feasibility of landmine detection using transgenic plants

Genetically modified plants that detect TNT and its degradation products are potentially powerful aids in humanitarian demining and detection of unexploded ordnance. Although the feasibility of TNT detection by plants and microorganisms has been demonstrated by several research teams world wide, thus far, none of these previously demonstrated systems has the sensitivity and specificity to be effective under field conditions. We are using two approaches to increase the potential effectiveness of these and related biological detection systems. First, we are expanding the repertoire of explosive-responsive promoters by conducting DNA microarray experiments with plants treated with TNT-degradation products, and characterizing the inducibility of reporter gene expression by these promoters. Second, we are evaluating the dynamics and limiting factors in the transmission of artificial signals from roots to shoots. This will increase the ability of soil-based TNT perception strategies to effect human-readable changes in shoot morphology as part of a practical plant-based explosives detection system.

[1]  D W Galbraith,et al.  High-density microarrays for gene expression analysis. , 2001, Cytometry.

[2]  Y. Choi,et al.  Jasmonic acid carboxyl methyltransferase: A key enzyme for jasmonate-regulated plant responses , 2001, Proceedings of the National Academy of Sciences of the United States of America.

[3]  Brian G Forde,et al.  The role of long-distance signalling in plant responses to nitrate and other nutrients. , 2002, Journal of experimental botany.

[4]  F. Woodward,et al.  Long‐distance CO2 signalling in plants , 2002 .

[5]  Edward E. Farmer,et al.  Surface-to-air signals , 2001, Nature.

[6]  Carl B. Fliermans,et al.  Microbial mine detection system (MMDS) , 1998, Defense, Security, and Sensing.

[7]  P. Zimmermann,et al.  GENEVESTIGATOR. Arabidopsis Microarray Database and Analysis Toolbox1[w] , 2004, Plant Physiology.

[8]  C. Davies,et al.  Strategy differences of two potato species in response to nitrogen starvation. Do plants have a genetic switch for nitrogen signalling , 2000 .

[9]  Homme W. Hellinga,et al.  Manipulation of ligand binding affinity by exploitation of conformational coupling , 2001, Nature Structural Biology.

[10]  C. Neal Stewart Genetically modified plants for law enforcement applications , 2002, SPIE Defense + Commercial Sensing.

[11]  David R. Patek,et al.  Novel methods for detecting buried explosive devices , 1997, Defense, Security, and Sensing.

[12]  W Walter Lorenz,et al.  SAGE Analysis of Transcriptome Responses in Arabidopsis Roots Exposed to 2,4,6-Trinitrotoluene1 , 2003, Plant Physiology.