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<p style="text-align: center;font-family:'Open Sans', sans-serif">Figure 2. the peptide concentration accumulation with bacterial proliferation</p> | <p style="text-align: center;font-family:'Open Sans', sans-serif">Figure 2. the peptide concentration accumulation with bacterial proliferation</p> | ||
<p style="text-align: left;font-family:'Open Sans', sans-serif">Reference:</br> | <p style="text-align: left;font-family:'Open Sans', sans-serif">Reference:</br> | ||
− | 1.Guo, T., S. Hu, and J. Kong, <i>Functional analysis and randomization of the nisin-inducible promoter for tuning gene expression in Lactococcus lactis</i>. Current Microbiology, 2013. 66(6): p. 548.</br>2.Selinger, D.W., et al., <i>Global RNA Half-Life Analysis in Escherichia coli Reveals Positional Patterns of Transcript Degradation</i>. Genome Research, 2003. 13(2): p. 216.</p> | + | [1].Guo, T., S. Hu, and J. Kong, <i>Functional analysis and randomization of the nisin-inducible promoter for tuning gene expression in Lactococcus lactis</i>. Current Microbiology, 2013. 66(6): p. 548.</br>[2].Selinger, D.W., et al., <i>Global RNA Half-Life Analysis in Escherichia coli Reveals Positional Patterns of Transcript Degradation</i>. Genome Research, 2003. 13(2): p. 216.</p> |
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<p style="text-align: left;font-family:'Open Sans', sans-serif">Figure 4. the gene expression of different type of agr systems</p> | <p style="text-align: left;font-family:'Open Sans', sans-serif">Figure 4. the gene expression of different type of agr systems</p> | ||
<p style="text-align: left;font-family:'Open Sans', sans-serif">Reference:</br> | <p style="text-align: left;font-family:'Open Sans', sans-serif">Reference:</br> | ||
− | 3.Borrero, J., et al., <i>Use of the usp45 lactococcal secretion signal sequence to drive the secretion and functional expression of enterococcal bacteriocins in Lactococcus lactis</i>. Applied Microbiology & Biotechnology, 2011. 89(1): p. 131.</br>4.Lin, J., et al., <i>Construction and characterization of three protein-targeting expression system in Lactobacillus casei</i>. FEMS Microbiol Lett, 2016. 363(7).</p> | + | [3].Borrero, J., et al., <i>Use of the usp45 lactococcal secretion signal sequence to drive the secretion and functional expression of enterococcal bacteriocins in Lactococcus lactis</i>. Applied Microbiology & Biotechnology, 2011. 89(1): p. 131.</br>[4].Lin, J., et al., <i>Construction and characterization of three protein-targeting expression system in Lactobacillus casei</i>. FEMS Microbiol Lett, 2016. 363(7).</p> |
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<p style="text-align: center;font-family:'Open Sans', sans-serif">Figure 6. the gene expression of different type of AimR-AimP systems</p> | <p style="text-align: center;font-family:'Open Sans', sans-serif">Figure 6. the gene expression of different type of AimR-AimP systems</p> | ||
<p style="text-align: left;font-family:'Open Sans', sans-serif">Reference:</br> | <p style="text-align: left;font-family:'Open Sans', sans-serif">Reference:</br> | ||
− | 5.<a target="_blank" href="https://2008.igem.org/Team:Cambridge/Modeling">https://2008.igem.org/Team:Cambridge/Modeling</a></br>6.James, E.H., A.M. Edwards, and S. Wigneshweraraj, <i>Transcriptional downregulation of agr expression in Staphylococcus aureus during growth in human serum can be overcome by constitutively active mutant forms of the sensor kinase AgrC</i>. FEMS Microbiol Lett, 2013. 349(2): p. 153-62</p> | + | [5].<a target="_blank" href="https://2008.igem.org/Team:Cambridge/Modeling">https://2008.igem.org/Team:Cambridge/Modeling</a></br>[6].James, E.H., A.M. Edwards, and S. Wigneshweraraj, <i>Transcriptional downregulation of agr expression in Staphylococcus aureus during growth in human serum can be overcome by constitutively active mutant forms of the sensor kinase AgrC</i>. FEMS Microbiol Lett, 2013. 349(2): p. 153-62</p> |
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Revision as of 10:43, 29 October 2017
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