Difference between revisions of "Part:BBa K4694003"
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<partinfo>BBa_K4694003 short</partinfo> | <partinfo>BBa_K4694003 short</partinfo> | ||
===Usage and Biology=== | ===Usage and Biology=== | ||
− | + | Quorum Quencher 7 (QQ-7) has been shown to decrease biofilm formation of <i>Candida albicans</i> and <i>Staphylococcus epidermidis</i> [1]. QQ-7 is proposed to interfere with the yeast-to-hyphal switch in <i>C. albicans</i> and to induce expression of the <i>icaR</i> gene encoding the repressor that prevents exopolysaccharide biosynthesis in <i>S. epidermidis</i>. The DNA sequence was identified during a metagenomic screen of bacteria that quench biofilm formation. | |
This sequence is taken from GenBank JX870909. Forbidden restriction sites were removed, a <i>L. plantarum</i> signal peptide (Lp_3050, [2]) and a 6xHis_tag flanked by GS linkers was added to the N-terminal, prefix and suffix sequences compatible with Type IIS cloning were added, and the sequence was synthesised by IDT. | This sequence is taken from GenBank JX870909. Forbidden restriction sites were removed, a <i>L. plantarum</i> signal peptide (Lp_3050, [2]) and a 6xHis_tag flanked by GS linkers was added to the N-terminal, prefix and suffix sequences compatible with Type IIS cloning were added, and the sequence was synthesised by IDT. | ||
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In order to characterise this part and determine whether the enzyme would be able to inhibit biofilm formation in our modified <i>L. plantarum</i> we performed a series of experiments. Please refer to the [https://2023.igem.wiki/exeter/experiments Experiments page] on our Wiki for the protocols. | In order to characterise this part and determine whether the enzyme would be able to inhibit biofilm formation in our modified <i>L. plantarum</i> we performed a series of experiments. Please refer to the [https://2023.igem.wiki/exeter/experiments Experiments page] on our Wiki for the protocols. | ||
− | < | + | Unfortunately we were unable to express this enzyme in either <i>L. plantarum</i> or <i>E. coli</i>. |
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===References=== | ===References=== | ||
[1] Weiland-Brauer, N., Malek, I. & Schmitz, R. A. 2019. Metagenomic quorum quenching enzymes affect biofilm formation of <i>Candida albicans</i> and <i>Staphylococcus epidermidis</i>. <i>PLoS One</i>, 14, e0211366. | [1] Weiland-Brauer, N., Malek, I. & Schmitz, R. A. 2019. Metagenomic quorum quenching enzymes affect biofilm formation of <i>Candida albicans</i> and <i>Staphylococcus epidermidis</i>. <i>PLoS One</i>, 14, e0211366. | ||
− | [2] Ben-David, Y., Morais, S., Stern, J., Mizrahi, I. & Bayer, E. A. 2019. Cell-surface display of designer cellulosomes by Lactobacillus plantarum. <i>Methods Enzymol.<i>, 617, 241-263. | + | [2] Ben-David, Y., Morais, S., Stern, J., Mizrahi, I. & Bayer, E. A. 2019. Cell-surface display of designer cellulosomes by <i>Lactobacillus plantarum</i>. <i>Methods Enzymol.</i>, 617, 241-263. |
[3] Rud, I., Jensen, P. R., Naterstad, K. & Axelsson, L. 2006. A synthetic promoter library for constitutive gene expression in <i>Lactobacillus plantarum</i>. <i>Microbiol.</i>, 152, 1011-1019. | [3] Rud, I., Jensen, P. R., Naterstad, K. & Axelsson, L. 2006. A synthetic promoter library for constitutive gene expression in <i>Lactobacillus plantarum</i>. <i>Microbiol.</i>, 152, 1011-1019. | ||
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<span class='h3bb'>Sequence and Features</span>--> | <span class='h3bb'>Sequence and Features</span>--> | ||
===Sequence and Features=== | ===Sequence and Features=== | ||
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<partinfo>BBa_K4694003 SequenceAndFeatures</partinfo> | <partinfo>BBa_K4694003 SequenceAndFeatures</partinfo> | ||
Latest revision as of 15:31, 12 October 2023
Sp-His-QQ-7
Usage and Biology
Quorum Quencher 7 (QQ-7) has been shown to decrease biofilm formation of Candida albicans and Staphylococcus epidermidis [1]. QQ-7 is proposed to interfere with the yeast-to-hyphal switch in C. albicans and to induce expression of the icaR gene encoding the repressor that prevents exopolysaccharide biosynthesis in S. epidermidis. The DNA sequence was identified during a metagenomic screen of bacteria that quench biofilm formation.
This sequence is taken from GenBank JX870909. Forbidden restriction sites were removed, a L. plantarum signal peptide (Lp_3050, [2]) and a 6xHis_tag flanked by GS linkers was added to the N-terminal, prefix and suffix sequences compatible with Type IIS cloning were added, and the sequence was synthesised by IDT.
For expression in L. plantarum, this CDS was inserted into plasmid pX1845 via Type IIS cloning. The plasmid has an E. coli origin of replication (pUC18) and antibiotic resistance gene (𝛽-lactamase) to allow for cloning in E. coli DH5𝛼, and an origin of replication and antibiotic resistance gene to allow for propagation in L. plantarum. Three constitutive promoters were tested: synthetic promoter P_48 [3], natural promoter from L. plantarum WCFS1 P_ldhL1 (GenBank NC_004567) and natural promoter from L. lactis P_32 [4]. The latter two promoters had integrated RBS sequences but P_48 was combined with the synthetic RBS SDOPT8 [5]. All constructs contained a terminator from L. lactis MG1363 pepN, called Lacto_term (GenBank AM406671).
For expression in E. coli, this CDS was inserted into plasmid pX1900 via Type IIS cloning. The plasmid has an E. coli origin of replication (pBR322) and antibiotic resistance gene (𝛽-lactamase) to allow for cloning and propagation within E. coli. The strong constitutive promoter BBa_J23100 combined with the strong RBS BBa_B0034 were tested as well as the IPTG inducible T7 promoter (original sequence from pET21a) were tested. All constructs contained the double terminator BBa_B0015.
Characterisation
In order to characterise this part and determine whether the enzyme would be able to inhibit biofilm formation in our modified L. plantarum we performed a series of experiments. Please refer to the Experiments page on our Wiki for the protocols.
Unfortunately we were unable to express this enzyme in either L. plantarum or E. coli.
References
[1] Weiland-Brauer, N., Malek, I. & Schmitz, R. A. 2019. Metagenomic quorum quenching enzymes affect biofilm formation of Candida albicans and Staphylococcus epidermidis. PLoS One, 14, e0211366.
[2] Ben-David, Y., Morais, S., Stern, J., Mizrahi, I. & Bayer, E. A. 2019. Cell-surface display of designer cellulosomes by Lactobacillus plantarum. Methods Enzymol., 617, 241-263.
[3] Rud, I., Jensen, P. R., Naterstad, K. & Axelsson, L. 2006. A synthetic promoter library for constitutive gene expression in Lactobacillus plantarum. Microbiol., 152, 1011-1019.
[4]Liu, W. B., Lin, Z. W., Zhou, Y. & Ye, B. C. 2021. Overexpression of Capsular Polysaccharide Biosynthesis Protein in Lactobacillus plantarum P1 to Enhance Capsular Polysaccharide Production for Di-n-butyl Phthalate Adsorption. J. Microbiol. Biotechnol., 31, 1545-1551.
[5] Tauer, C., Heinl, S., Egger, E., Heiss, S. & Grabherr, R. 2014. Tuning constitutive recombinant gene expression in Lactobacillus plantarum. Microbiol. Cell. Fact., 13, 150.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]