840.119:Herbicide Resistance: Difference between revisions
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"If the ''Agrobacter'' TDNA contains bacterial DNA encoding EPSPS (a photosynthesis enzyme), in a cholorplast targeting sequence, it can be transferred into a plant. When the promoter (CaMV) is activated, it allows the plant (tobacco shown) to produce the bacterial EPSPS enzyme and resist the high level of glyphosate that otherwise would inhibit the natural enzyme in the plant. In this way, both plants and weeds can be sprayed with glyphosate and only the nontransformed plants are affected." (Thieman, 144) | "If the ''Agrobacter'' TDNA contains bacterial DNA encoding EPSPS (a photosynthesis enzyme), in a cholorplast targeting sequence, it can be transferred into a plant. When the promoter (CaMV) is activated, it allows the plant (tobacco shown) to produce the bacterial EPSPS enzyme and resist the high level of glyphosate that otherwise would inhibit the natural enzyme in the plant. In this way, both plants and weeds can be sprayed with glyphosate and only the nontransformed plants are affected." (Thieman, 144) | ||
===Alternative Methods, Why aren't they used?=== | |||
==(Potential) Impact== | ==(Potential) Impact== |
Revision as of 08:35, 6 October 2006
Abstract
State of the Art
Objectives
Scientific approach
Methods Used
"If the Agrobacter TDNA contains bacterial DNA encoding EPSPS (a photosynthesis enzyme), in a cholorplast targeting sequence, it can be transferred into a plant. When the promoter (CaMV) is activated, it allows the plant (tobacco shown) to produce the bacterial EPSPS enzyme and resist the high level of glyphosate that otherwise would inhibit the natural enzyme in the plant. In this way, both plants and weeds can be sprayed with glyphosate and only the nontransformed plants are affected." (Thieman, 144)