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<h1 class="box-heading">Description</h1> | <h1 class="box-heading">Description</h1> | ||
<p>Siderophores are small, high-affinity iron chelating agents, and many microorganisms have the ability to secrete them for the acquisition of iron under iron deficiency conditions (because the iron is solid in the general natural environment with very low concentration of iron ions) and transport through membrane transporter. Siderophore is one of the strongest soluble ferric chelators known in the world. The structure and properties of siderophore produced by different organisms vary widely. The types include: catechins, hydroxamates and carboxylates. | <p>Siderophores are small, high-affinity iron chelating agents, and many microorganisms have the ability to secrete them for the acquisition of iron under iron deficiency conditions (because the iron is solid in the general natural environment with very low concentration of iron ions) and transport through membrane transporter. Siderophore is one of the strongest soluble ferric chelators known in the world. The structure and properties of siderophore produced by different organisms vary widely. The types include: catechins, hydroxamates and carboxylates. | ||
− | enterobactin is the strongest siderophore known, binding to the Fe<sup>3+</sup> with the affinity (K = 1052 M<sup>−1</sup>) | + | Belonging to catechins, enterobactin is the strongest siderophore known, binding to the Fe<sup>3+</sup> with the affinity (K=1052 M<sup>−1</sup>), so we will develop our project based on the siderophore system of <i>E. coli</i>. |
</p> | </p> | ||
<figure> | <figure> |
Revision as of 23:33, 17 October 2018