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<h2>Part collection for glyphosate resistance</h2> | <h2>Part collection for glyphosate resistance</h2> | ||
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− | <p>In this collection, we gathered all parts that contribute to the resistance against the herbicide glyphosate. First of all the two newly identified glyphosate transporters GltT and GltP. If both transporters are not present anymore, the soil bacterium <em>B. subtilis</em> is glyphosate resistant. The target of glyphosate is the EPSP synthase, which is encoded by the <em>aroE</em> gene in <em>B. subtilis</em> and by the <em>aroA</em> gene in <em>E. coli</em>. If the target is mutated, like in our part <a href="http://parts.igem.org/Part:BBa_K2586020" target="_blank">BBa_K2586020</a>, the cells are characterized by a high glyphosate resistance. If the cells express the gene encoding the glyphosate-<i>N</i>-acetyl-transferase (GAT), they are also resistant. In conclusion, this collection provides options to genetically engineer organisms for enhancing the resistance towards glyphosate.</p> | + | <p>In this collection, we gathered all parts that contribute to the resistance against the herbicide glyphosate. First of all the two newly identified glyphosate transporters GltT and GltP. If both transporters are not present anymore, the soil bacterium <em>B. subtilis</em> is glyphosate resistant. The target of glyphosate is the EPSP synthase, which is encoded by the <em>aroE</em> gene in <em>B. subtilis</em> and by the <em>aroA</em> gene in <em>E. coli</em>. If the target is mutated, like in our part <a href="http://parts.igem.org/Part:BBa_K2586020" target="_blank">BBa_K2586020</a>, the cells are characterized by a high glyphosate resistance. If the cells express the gene encoding the glyphosate-<i>N</i>-acetyl-transferase (GAT), they are also resistant. <i>In conclusion, this collection provides options to genetically engineer organisms for enhancing the resistance towards glyphosate.</i></p> |
<div class="notebook-table article_table"> | <div class="notebook-table article_table"> | ||
<table> | <table> |
Revision as of 13:10, 11 October 2018
Team Göttingen
iGEM 2018
Glyphosate on my plate?
Part collection for glyphosate resistance
In this collection, we gathered all parts that contribute to the resistance against the herbicide glyphosate. First of all the two newly identified glyphosate transporters GltT and GltP. If both transporters are not present anymore, the soil bacterium B. subtilis is glyphosate resistant. The target of glyphosate is the EPSP synthase, which is encoded by the aroE gene in B. subtilis and by the aroA gene in E. coli. If the target is mutated, like in our part BBa_K2586020, the cells are characterized by a high glyphosate resistance. If the cells express the gene encoding the glyphosate-N-acetyl-transferase (GAT), they are also resistant. In conclusion, this collection provides options to genetically engineer organisms for enhancing the resistance towards glyphosate.
Part Number and Name | Type | Length [bp] | |
---|---|---|---|
BBa_K2586001/gltT | Uptake of glutamate or glyphosate from the environment | Coding | 1290 |
BBa_K2586002/gltP | Uptake of glutamate or glyphosate from the environment | Coding | 1245 |
BBa_K2586003/aroE | Converts Shikimate-3-phosphate into 5-enolpyruvylshikimate-3-phosphate | Coding | 1287 |
BBa_K2586007/aroA | Converts Shikimate-3-phosphate into 5-enolpyruvylshikimate-3-phosphate | Coding | 1290 |
BBa_K2586019/gat | Glyphosate N-acetyl-transferase | Coding | 480 |
BBa_K2586020/aroA* | Mutated aroA | Coding | 480 |