Difference between revisions of "Part:BBa K4134002"
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[[Image:Nanjing-China-AgBP-affinity-list.jpeg|400px|thumb|Ag(I) affinity values of the biomolecules]] | [[Image:Nanjing-China-AgBP-affinity-list.jpeg|400px|thumb|Ag(I) affinity values of the biomolecules]] | ||
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| − | AgBP2 is a typical silver-binding peptide consisting of 12 amino acids. The silver-binding protein AgBP2 was selected from a combinatorial peptide display library and it presents a higher Ag(I) affinity value (Ka= 6.30 ±0.5 x10^7) than many other typical silver-binding proteins, such as Ag4 and AgP35. </p> | + | AgBP2 is a typical silver-binding peptide consisting of 12 amino acids(EQLGVRKELRGV).</p> |
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| + | The silver-binding protein AgBP2 was selected from a combinatorial peptide display library and it presents a higher Ag(I) affinity value (Ka= 6.30 ±0.5 x10^7) than many other typical silver-binding proteins, such as Ag4 and AgP35. </p> | ||
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AgBP2 captures silver ions and paves the way for a new approach to synthesizing silver nanoparticles(AgNPs).And in our project, AgNPs accelerate extracellular electron transfer.</p> | AgBP2 captures silver ions and paves the way for a new approach to synthesizing silver nanoparticles(AgNPs).And in our project, AgNPs accelerate extracellular electron transfer.</p> | ||
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Revision as of 06:21, 12 October 2022
AgBP2
Description
AgBP2 is a typical silver-binding peptide consisting of 12 amino acids(EQLGVRKELRGV).
The silver-binding protein AgBP2 was selected from a combinatorial peptide display library and it presents a higher Ag(I) affinity value (Ka= 6.30 ±0.5 x10^7) than many other typical silver-binding proteins, such as Ag4 and AgP35.
AgBP2 captures silver ions and paves the way for a new approach to synthesizing silver nanoparticles(AgNPs).And in our project, AgNPs accelerate extracellular electron transfer.
Sequence and Features