Difference between revisions of "Team:ECUST/Biocide"
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<p>When the concentration of Fe3+ in the environment is high, it means that the hard skeleton of the microenvironment of the iron bacteria is destroyed and loses protection. At this time, the added bactericide will have a greater killing effect on the bacteria. The bactericide we selected was cecropin AD, a cationic chimeric antimicrobial peptide obtained from cecropin, consisting of the first 11 amino acid residues of cecropin A and the last 26 amino acid residues of cecropin D. It has strong antibacterial activity against Gram-positive and negative bacteria.</p> | <p>When the concentration of Fe3+ in the environment is high, it means that the hard skeleton of the microenvironment of the iron bacteria is destroyed and loses protection. At this time, the added bactericide will have a greater killing effect on the bacteria. The bactericide we selected was cecropin AD, a cationic chimeric antimicrobial peptide obtained from cecropin, consisting of the first 11 amino acid residues of cecropin A and the last 26 amino acid residues of cecropin D. It has strong antibacterial activity against Gram-positive and negative bacteria.</p> | ||
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Revision as of 15:14, 17 October 2018
Description
When the concentration of Fe3+ in the environment is high, it means that the hard skeleton of the microenvironment of the iron bacteria is destroyed and loses protection. At this time, the added bactericide will have a greater killing effect on the bacteria. The bactericide we selected was cecropin AD, a cationic chimeric antimicrobial peptide obtained from cecropin, consisting of the first 11 amino acid residues of cecropin A and the last 26 amino acid residues of cecropin D. It has strong antibacterial activity against Gram-positive and negative bacteria.
Design
Result
When the concentration of Fe3+ in the environment is high, it means that the hard skeleton of the microenvironment of the iron bacteria is destroyed and loses protection. At this time, the added bactericide will have a greater killing effect on the bacteria. The bactericide we selected was cecropin AD, a cationic chimeric antimicrobial peptide obtained from cecropin, consisting of the first 11 amino acid residues of cecropin A and the last 26 amino acid residues of cecropin D. It has strong antibacterial activity against Gram-positive and negative bacteria.