Difference between revisions of "Team:DTU-Denmark/Project/Detection"

(Created page with "<html> <head> <meta name="viewport" content="width=device-width, initial-scale=1, maximum-scale=1, user-scalable=no"> <meta http-equiv="X-UA-Compatible" content="IE=...")
 
Line 48: Line 48:
 
         <!-- Collect the nav links, forms, and other content for toggling -->
 
         <!-- Collect the nav links, forms, and other content for toggling -->
 
         <div class="collapse navbar-collapse" id="nav-collapse">
 
         <div class="collapse navbar-collapse" id="nav-collapse">
           <ul class="nav nav-justified">
+
           <ul class="nav navbar-nav">
<li class="">
+
<li class="dropdown">
 
<a href="/Team:DTU-Denmark"
 
<a href="/Team:DTU-Denmark"
 
  >Home
 
  >Home
 
                                           </a></li>
 
                                           </a></li>
<li class="">
+
<li class="dropdown">
<a href="/Team:DTU-Denmark/attributions"
+
<a href="/Team:DTU-Denmark"
  >Team and Attributions
+
  class="dropdown-toggle"
 +
  data-toggle="dropdown"
 +
  role="button"
 +
  aria-expanded="false">Team and Attributions
 +
                                          <span class="caret"></span></a><ul class="dropdown-menu" role="menu">
 +
<li class="dropdown">
 +
<a href="/Team:DTU-Denmark/Team"
 +
  >Team
 
                                           </a></li>
 
                                           </a></li>
<li class="">
+
<li class="dropdown">
<a href="/Team:DTU-Denmark/Project"
+
<a href="/Team:DTU-Denmark/Attributions"
 +
  >Attributions
 +
                                          </a></li></ul></li>
 +
<li class="dropdown">
 +
<a href="/Team:DTU-Denmark"
 
  class="dropdown-toggle"
 
  class="dropdown-toggle"
 
  data-toggle="dropdown"
 
  data-toggle="dropdown"
Line 64: Line 75:
 
  aria-expanded="false">Project
 
  aria-expanded="false">Project
 
                                           <span class="caret"></span></a><ul class="dropdown-menu" role="menu">
 
                                           <span class="caret"></span></a><ul class="dropdown-menu" role="menu">
<li class="">
+
<li class="dropdown">
 +
<a href="/Team:DTU-Denmark/Project/Overview"
 +
  >Overview
 +
                                          </a></li>
 +
<li class="dropdown">
 +
<a href="/Team:DTU-Denmark/Project/Background"
 +
  >Background
 +
                                          </a></li>
 +
<li class="dropdown">
 +
<a href="/Team:DTU-Denmark/Project/MAGE"
 +
  >MAGE Subtilis
 +
                                          </a></li>
 +
<li class="dropdown">
 +
<a href="/Team:DTU-Denmark/Project/Surfactin"
 +
  >Surfactin
 +
                                          </a></li>
 +
<li class="dropdown">
 
<a href="/Team:DTU-Denmark/Project/Tyrocidine"
 
<a href="/Team:DTU-Denmark/Project/Tyrocidine"
 
  >Tyrocidine
 
  >Tyrocidine
 
                                           </a></li>
 
                                           </a></li>
<li class="">
+
<li class="dropdown">
 
<a href="/Team:DTU-Denmark/Project/Chip"
 
<a href="/Team:DTU-Denmark/Project/Chip"
 
  >Lab-on-a-disc
 
  >Lab-on-a-disc
 
                                           </a></li>
 
                                           </a></li>
<li class="">
+
<li class="dropdown">
<a href="/Team:DTU-Denmark/Project/Surfactin"
+
  >Surfactin
+
                                          </a></li>
+
<li class="">
+
 
<a href="/Team:DTU-Denmark/Project/Intein"
 
<a href="/Team:DTU-Denmark/Project/Intein"
 
  >Intein
 
  >Intein
 
                                           </a></li>
 
                                           </a></li>
<li class="">
+
<li class="dropdown active">
<a href="/Team:DTU-Denmark/Project/MAGE"
+
  >MAGE Subtilis
+
                                          </a></li>
+
<li class="">
+
<a href="/Team:DTU-Denmark/Procject/Background"
+
  >Background
+
                                          </a></li>
+
<li class=" active">
+
 
<a href="/Team:DTU-Denmark/Project/Detection"
 
<a href="/Team:DTU-Denmark/Project/Detection"
 
  >Detection of NRP
 
  >Detection of NRP
                                          </a></li>
 
<li class="">
 
<a href="/Team:DTU-Denmark/Project/Overview"
 
  >Overview
 
 
                                           </a></li></ul></li>
 
                                           </a></li></ul></li>
<li class="">
+
<li class="dropdown">
 
<a href="/Team:DTU-Denmark/Practices"
 
<a href="/Team:DTU-Denmark/Practices"
 
  >Human Practices
 
  >Human Practices
 
                                           </a></li>
 
                                           </a></li>
<li class="">
+
<li class="dropdown">
 
<a href="/Team:DTU-Denmark/Part_Collection"
 
<a href="/Team:DTU-Denmark/Part_Collection"
 
  >Parts
 
  >Parts
 
                                           </a></li>
 
                                           </a></li>
<li class="">
+
<li class="dropdown">
 
<a href="/Team:DTU-Denmark/Journal"
 
<a href="/Team:DTU-Denmark/Journal"
 
  >Journal
 
  >Journal
 
                                           </a></li>
 
                                           </a></li>
<li class="">
+
<li class="dropdown">
 
<a href="/Team:DTU-Denmark/Software"
 
<a href="/Team:DTU-Denmark/Software"
 
  >Software
 
  >Software
 
                                           </a></li>
 
                                           </a></li>
<li class="">
+
<li class="dropdown">
 +
<a href="/Team:DTU-Denmark"
 +
  class="dropdown-toggle"
 +
  data-toggle="dropdown"
 +
  role="button"
 +
  aria-expanded="false">Achievements
 +
                                          <span class="caret"></span></a><ul class="dropdown-menu" role="menu">
 +
<li class="dropdown">
 
<a href="/Team:DTU-Denmark/Achievements"
 
<a href="/Team:DTU-Denmark/Achievements"
  >Achievements
+
  >Overview of Achievements
 
                                           </a></li>
 
                                           </a></li>
 +
<li class="dropdown">
 +
<a href="/Team:DTU-Denmark/Collaborations"
 +
  >Collaborations
 +
                                          </a></li>
 +
<li class="dropdown">
 +
<a href="/Team:DTU-Denmark/Judging%20Form"
 +
  >Judging Form
 +
                                          </a></li></ul></li>
 
             <li class="hidden-xs">
 
             <li class="hidden-xs">
 
               <a href="http://facebook.com/dtubiobuilders" data-toggle="tooltip" data-placement="bottom" title="Follow us on Facebook">
 
               <a href="http://facebook.com/dtubiobuilders" data-toggle="tooltip" data-placement="bottom" title="Follow us on Facebook">
Line 139: Line 165:
 
     <nav class="navbar navbar-default extrabar hidden-xs hidden" data-spy="affix">
 
     <nav class="navbar navbar-default extrabar hidden-xs hidden" data-spy="affix">
 
       <div class="container-fluid" id="scrollspy">
 
       <div class="container-fluid" id="scrollspy">
         <ul class="nav nav-justified">
+
         <ul class="nav navbar-nav">
           <li><a class="page-scroll" href="#Detection-of-NRP">Detection of NRP</a></li>
+
           <li><a class="page-scroll" href="#Purpose">Purpose</a></li><li><a class="page-scroll" href="#Achivements">Achivements</a></li><li><a class="page-scroll" href="#Background">Background</a></li><li><a class="page-scroll" href="#Method">Method</a></li><li><a class="page-scroll" href="#Results">Results</a></li><li><a class="page-scroll" href="#Discussion">Discussion</a></li><li><a class="page-scroll" href="#References">References</a></li>
 
         </ul>
 
         </ul>
 
       </div>
 
       </div>
Line 161: Line 187:
 
                
 
                
 
               <li>
 
               <li>
                 <a id="Detection-of-NRP-submenu" class="btn btn-default btn-transparent btn-lg page-scroll" href="#Detection-of-NRP">Detection of NRP</a>
+
                 <a id="Purpose-submenu" class="btn btn-default btn-transparent btn-lg page-scroll" href="#Purpose">Purpose</a>
 +
              </li>
 +
             
 +
              <li>
 +
                <a id="Achivements-submenu" class="btn btn-default btn-transparent btn-lg page-scroll" href="#Achivements">Achivements</a>
 +
              </li>
 +
             
 +
              <li>
 +
                <a id="Background-submenu" class="btn btn-default btn-transparent btn-lg page-scroll" href="#Background">Background</a>
 +
              </li>
 +
             
 +
              <li>
 +
                <a id="Method-submenu" class="btn btn-default btn-transparent btn-lg page-scroll" href="#Method">Method</a>
 +
              </li>
 +
             
 +
              <li>
 +
                <a id="Results-submenu" class="btn btn-default btn-transparent btn-lg page-scroll" href="#Results">Results</a>
 +
              </li>
 +
             
 +
              <li>
 +
                <a id="Discussion-submenu" class="btn btn-default btn-transparent btn-lg page-scroll" href="#Discussion">Discussion</a>
 +
              </li>
 +
             
 +
              <li>
 +
                <a id="References-submenu" class="btn btn-default btn-transparent btn-lg page-scroll" href="#References">References</a>
 
               </li>
 
               </li>
 
                
 
                
Line 168: Line 218:
 
                
 
                
 
               <li>
 
               <li>
                 <a id="Detection-of-NRP-submenu" class="page-scroll" href="#Detection-of-NRP">Detection of NRP</a>
+
                 <a id="Purpose-submenu" class="page-scroll" href="#Purpose">Purpose</a>
 +
              </li>
 +
             
 +
              <li>
 +
                <a id="Achivements-submenu" class="page-scroll" href="#Achivements">Achivements</a>
 +
              </li>
 +
             
 +
              <li>
 +
                <a id="Background-submenu" class="page-scroll" href="#Background">Background</a>
 +
              </li>
 +
             
 +
              <li>
 +
                <a id="Method-submenu" class="page-scroll" href="#Method">Method</a>
 +
              </li>
 +
             
 +
              <li>
 +
                <a id="Results-submenu" class="page-scroll" href="#Results">Results</a>
 +
              </li>
 +
             
 +
              <li>
 +
                <a id="Discussion-submenu" class="page-scroll" href="#Discussion">Discussion</a>
 +
              </li>
 +
             
 +
              <li>
 +
                <a id="References-submenu" class="page-scroll" href="#References">References</a>
 
               </li>
 
               </li>
 
                
 
                
Line 177: Line 251:
 
           <div class="col-md-12">
 
           <div class="col-md-12">
 
             Scroll down for more<br>
 
             Scroll down for more<br>
             <a href="#Detection-of-NRP" class="btn btn-circle btn-transparent page-scroll">
+
             <a href="#Purpose" class="btn btn-circle btn-transparent page-scroll">
 
               <i class="fa fa-angle-double-down"></i>
 
               <i class="fa fa-angle-double-down"></i>
 
             </a>
 
             </a>
Line 186: Line 260:
 
      
 
      
 
 
<div id="Detection-of-NRP">
+
<div id="Purpose">
 
   <div class="container">
 
   <div class="container">
 
     <div class="row col-md-12">
 
     <div class="row col-md-12">
 
       <h1>
 
       <h1>
         Detection of NRP
+
         Purpose
 
       </h1>
 
       </h1>
       <h1>Introduction:</h1>
+
       <p>Separation and identification of our non-ribosomal peptide synthetase (NRPS) products was determined by ultra-high performance liquid chromatography with diode array detection coupled to quadrupole time-of-flight mass spectrometry (UHPLC-DAD-QTOFMS). NRPS variants were identified by changes in mass/z and column retention time.&nbsp;Development of a matrix assisted laser desorption ionization time-of-flight mass spec (MALDI-TOF-MS) method will allow for future rapid analysis of oligo-recombineered strains producing a library of NRPS antibiotic products. DTU&rsquo;s 2015 iGEM team was able to procure the assistance of the DTU Metabolomics Platform group, which specializes in analytical chromatography and is recognized in our <a href="/Team:DTU-Denmark/Team#Attributions">attributions page</a>. With assistance from our advisor, a protocol was established to lyse the cells and extract the tyrocidine and surfactin molecules before they were run on the liquid chromatography mass spec (LCMS) for analysis.</p>
  
<p>Separation and identification of our non-ribosomal peptide synthetase (NRPS) products was determined by ultra-high performance liquid chromatography with diode array detection coupled to quadrupole time-of-flight mass spectrometry (UHPLC-DAD-QTOFMS). NRPS variants were identified by changes in mass/z and column retention time.&nbsp;Development of a matrix assisted laser desorption ionization time-of-flight mass spec (MALDI-TOF-MS) method will allow for future rapid analysis of oligo-recombineered strains producing a library of NRPS antibiotic products. DTU&rsquo;s 2015 iGEM team was able to procure the assistance of the DTU Metabolomics Platform group, which specializes in analytical chromatography and is recognized in our <a href="/Team:DTU-Denmark/Team#Attributions">attributions page</a>. With assistance from our advisor, a protocol was established to lyse the cells and extract the tyrocidine and surfactin molecules before they were run on the liquid chromatography mass spec (LCMS) for analysis.</p>
+
    </div>
 
+
  </div>
<h2><strong>Background: </strong></h2>
+
</div>
 
+
<p>Tyrocidine and surfactin can both be separated by liquid chromatography, which separates molecules in a liquid mobile phase as they pass over a solid stationary media in a column. Molecules bind to or elute off the column based on their differing physical properties; including electronegativity, polarity, hydrophobicity, or size. Different detection methods (eg. mass spectroscopy, fluorescence detection, UV/Visible light spectroscopy) can then be coupled to the HPLC to analyze the compounds that were separated from the original solution. The reversed phase liquid chromatography column used in our method has a non-polar stationary phase and polar mobile phase, which causes polar molecules to elute before non-polar compounds. Initial preparative steps remove large contaminants from the sample such as the cell membranes or organelles, which can clog and damage the columns.</p>
+
 +
<div id="Achivements">
 +
  <div class="container">
 +
    <div class="row col-md-12">
 +
      <h1>
 +
        Achivements
 +
      </h1>
 +
     
 +
    </div>
 +
  </div>
 +
</div>
 +
 +
 +
<div id="Background">
 +
  <div class="container">
 +
    <div class="row col-md-12">
 +
      <h1>
 +
        Background
 +
      </h1>
 +
      <p>Tyrocidine and surfactin can both be separated by liquid chromatography, which separates molecules in a liquid mobile phase as they pass over a solid stationary media in a column. Molecules bind to or elute off the column based on their differing physical properties; including electronegativity, polarity, hydrophobicity, or size. Different detection methods (eg. mass spectroscopy, fluorescence detection, UV/Visible light spectroscopy) can then be coupled to the HPLC to analyze the compounds that were separated from the original solution. The reversed phase liquid chromatography column used in our method has a non-polar stationary phase and polar mobile phase, which causes polar molecules to elute before non-polar compounds. Initial preparative steps remove large contaminants from the sample such as the cell membranes or organelles, which can clog and damage the columns.</p>
  
 
<p>As there are many different metabolites produced by prokaryotic and eukaryotic cells, it is important to have an idea of the chemical properties and mass of the target compound. Tyrocidine is an amphiphilic, cyclic peptide naturally produced by an NRPS&nbsp;in <em>Bacillus brevis </em>with antimicrobial properties against gram-positive bacteria [1]. It functions by&nbsp;disrupting cell membranes, which explains its broad efficacy, but it&nbsp;has been shown to have hemolytic activity [2], making it unsuitable for intravenous use. Tyrocidine has been reported in the literature to have 5 main forms with the general peptide sequence of &hellip;D-Phe<sub>1</sub>/Tyr<sub>1</sub> &ndash; Pro<sub>2</sub> &ndash; Phe<sub>3</sub>/Trp<sub>3</sub>/Tyr<sub>3</sub> &ndash; D-Phe<sub>4</sub>/D-Trp<sub>4</sub>/D-Tyr<sub>4&shy;</sub> &ndash; Asn<sub>5</sub> &ndash; Gln<sub>6</sub>/Asp<sub>6</sub> &ndash; Val<sub>8</sub> &ndash; Orn<sub>9</sub> &ndash; Leu<sub>10</sub>&hellip; [3]</p>
 
<p>As there are many different metabolites produced by prokaryotic and eukaryotic cells, it is important to have an idea of the chemical properties and mass of the target compound. Tyrocidine is an amphiphilic, cyclic peptide naturally produced by an NRPS&nbsp;in <em>Bacillus brevis </em>with antimicrobial properties against gram-positive bacteria [1]. It functions by&nbsp;disrupting cell membranes, which explains its broad efficacy, but it&nbsp;has been shown to have hemolytic activity [2], making it unsuitable for intravenous use. Tyrocidine has been reported in the literature to have 5 main forms with the general peptide sequence of &hellip;D-Phe<sub>1</sub>/Tyr<sub>1</sub> &ndash; Pro<sub>2</sub> &ndash; Phe<sub>3</sub>/Trp<sub>3</sub>/Tyr<sub>3</sub> &ndash; D-Phe<sub>4</sub>/D-Trp<sub>4</sub>/D-Tyr<sub>4&shy;</sub> &ndash; Asn<sub>5</sub> &ndash; Gln<sub>6</sub>/Asp<sub>6</sub> &ndash; Val<sub>8</sub> &ndash; Orn<sub>9</sub> &ndash; Leu<sub>10</sub>&hellip; [3]</p>
Line 212: Line 305:
 
<p>Figure 2: cyclic peptide,&nbsp;Tyrocidine A</p>
 
<p>Figure 2: cyclic peptide,&nbsp;Tyrocidine A</p>
  
<p>&nbsp;</p>
+
    </div>
 +
  </div>
 +
</div>
 +
 +
 +
<div id="Method">
 +
  <div class="container">
 +
    <div class="row col-md-12">
 +
      <h1>
 +
        Method
 +
      </h1>
 +
      <p>&nbsp;</p>
  
 +
<div aria-multiselectable="true" class="panel-group" id="accordion" role="tablist">
 
<div class="panel panel-default">
 
<div class="panel panel-default">
<div class="panel-heading" id="headingEleven" role="tab">
+
<div class="panel-heading" id="headingOne" role="tab">
<h4 class="panel-title"><a aria-controls="collapseEleven" aria-expanded="false" class="collapsed" data-parent="#accordion" data-toggle="collapse" href="#collapseEleven" role="button">HPLC Sample Preparation: Tyrocidine Extraction</a></h4>
+
<h4 class="panel-title"><a aria-controls="collapseOne" aria-expanded="false" class="collapsed" data-parent="#accordion" data-toggle="collapse" href="#collapseOne" role="button">HPLC Sample Preparation: Tyrocidine Extraction</a></h4>
 
</div>
 
</div>
  
<div aria-labelledby="headingTen" class="panel-collapse collapse" id="collapseEleven" role="tabpanel">
+
<div aria-labelledby="headingOne" class="panel-collapse collapse" id="collapseOne" role="tabpanel">
 
<div class="panel-body">
 
<div class="panel-body">
 
<ol>
 
<ol>
 
<li>Biomass grown on an LB agar plate was gently scraped off the agar using a clean microscope slide (washed with ethanol or methanol before use) and placed in a labeled 15 mL centrifuge tube.</li>
 
<li>Biomass grown on an LB agar plate was gently scraped off the agar using a clean microscope slide (washed with ethanol or methanol before use) and placed in a labeled 15 mL centrifuge tube.</li>
 
<li>5 mL of methanol was added to the biomass to lyse the cell membranes before they were centrifuged at 4700 x g for 5 minutes to pellet the cell material.</li>
 
<li>5 mL of methanol was added to the biomass to lyse the cell membranes before they were centrifuged at 4700 x g for 5 minutes to pellet the cell material.</li>
<li>Supernatant was carefully removed by pipetting 250 &mu;L into an HPLC vial for analysis&nbsp;</li>
+
<li>Supernatant was carefully removed by pipetting 250 &mu;L into an HPLC vial for analysis</li>
 
</ol>
 
</ol>
 +
</div>
 
</div>
 
</div>
 
</div>
 
</div>
 
</div>
 
</div>
  
 +
<div aria-multiselectable="true" class="panel-group" id="accordion2" role="tablist">
 
<div class="panel panel-default">
 
<div class="panel panel-default">
<div class="panel-heading" id="headingNine" role="tab">
+
<div class="panel-heading" id="headingTwo" role="tab">
<h4 class="panel-title"><a aria-controls="collapseNine" aria-expanded="false" class="collapsed" data-parent="#accordion" data-toggle="collapse" href="#collapseNine" role="button">HPLC Sample Preparation: Surfactin Extraction</a></h4>
+
<h4 class="panel-title"><a aria-controls="collapseTwo" aria-expanded="false" class="collapsed" data-parent="#accordion2" data-toggle="collapse" href="#collapseTwo" role="button">HPLC Sample Preparation: Surfactin Extraction</a></h4>
 
</div>
 
</div>
  
<div aria-labelledby="headingNine" class="panel-collapse collapse" id="collapseNine" role="tabpanel">
+
<div aria-labelledby="headingTwo" class="panel-collapse collapse" id="collapseTwo" role="tabpanel">
 
<div class="panel-body">
 
<div class="panel-body">
 
<ol>
 
<ol>
Line 244: Line 351:
 
<li>Methanol soluble extract was vortexed and centrifuged at 4700 x g for 5 minutes and 250 &mu;L of sample was pipetted into an HPLC vial for analysis.</li>
 
<li>Methanol soluble extract was vortexed and centrifuged at 4700 x g for 5 minutes and 250 &mu;L of sample was pipetted into an HPLC vial for analysis.</li>
 
</ol>
 
</ol>
 +
</div>
 
</div>
 
</div>
 
</div>
 
</div>
 
</div>
 
</div>
  
 +
<div aria-multiselectable="true" class="panel-group" id="accordion3" role="tablist">
 
<div class="panel panel-default">
 
<div class="panel panel-default">
<div class="panel-heading" id="headingTen" role="tab">
+
<div class="panel-heading" id="headingThree" role="tab">
<h4 class="panel-title"><a aria-controls="collapseTen" aria-expanded="false" class="collapsed" data-parent="#accordion" data-toggle="collapse" href="#collapseTen" role="button">UHPLC-DAD-QTOFMS Method</a></h4>
+
<h4 class="panel-title"><a aria-controls="collapseThree" aria-expanded="false" class="collapsed" data-parent="#accordion3" data-toggle="collapse" href="#collapseThree" role="button">UHPLC-DAD-QTOFMS Method</a></h4>
 
</div>
 
</div>
  
<div aria-labelledby="headingTen" class="panel-collapse collapse" id="collapseTen" role="tabpanel">
+
<div aria-labelledby="headingThree" class="panel-collapse collapse" id="collapseThree" role="tabpanel">
 
<div class="panel-body">Extracted samples (in methanol) were separated by ultra-high performance liquid chromatography over an Agilent Poroshell 120 phenyl-hexyl column (2.1 x 250 mm, 2.7 &mu;m). The detection was measured with a diode array detection coupled to quadrupole time of flight mass spectrometry (UHPLC-DAD-QTOFMS). Samples were run with a &nbsp;a linear gradient from 10 to&nbsp; 100% solvent B in 15 min, followed by 100% B for 2 min and rapidly returned to 10% B to equilibrate for 3 minutes at a flow rate of 0.35 mL/min (60&deg;C). Solvent A was Milli-Q Water, solvent B was acetonitrile and both were buffered in 20 mM formic acid. The injection volume was 1 &mu;L. MS detection was measured on an Agilent 6545 QTOF MS with an electrospray ion source. Capillary voltage was set to 4000 V with a nozzle voltage of 500 V. Mass spectra were recorded for m/z 85&ndash;1700 in MS mode and m/z 30&ndash;1700 in MS/MS mode, with an acquisition rate of 10 spectra/s. Analysis of the spectra was done using Agilent MassHunter version B.07.00 to determine the presecnce of tyrocidine, surfactin, and modified surfactin using the &ldquo;find by formula&rdquo; function, with the formulas found in the table above. Manual inspection of the extracted ion chromatogram traces for [surfactin+H]<sup>+</sup> at m/z of 1035.706 and [surfactin + Na]<sup>+</sup> at m/z of was also performed.</div>
 
<div class="panel-body">Extracted samples (in methanol) were separated by ultra-high performance liquid chromatography over an Agilent Poroshell 120 phenyl-hexyl column (2.1 x 250 mm, 2.7 &mu;m). The detection was measured with a diode array detection coupled to quadrupole time of flight mass spectrometry (UHPLC-DAD-QTOFMS). Samples were run with a &nbsp;a linear gradient from 10 to&nbsp; 100% solvent B in 15 min, followed by 100% B for 2 min and rapidly returned to 10% B to equilibrate for 3 minutes at a flow rate of 0.35 mL/min (60&deg;C). Solvent A was Milli-Q Water, solvent B was acetonitrile and both were buffered in 20 mM formic acid. The injection volume was 1 &mu;L. MS detection was measured on an Agilent 6545 QTOF MS with an electrospray ion source. Capillary voltage was set to 4000 V with a nozzle voltage of 500 V. Mass spectra were recorded for m/z 85&ndash;1700 in MS mode and m/z 30&ndash;1700 in MS/MS mode, with an acquisition rate of 10 spectra/s. Analysis of the spectra was done using Agilent MassHunter version B.07.00 to determine the presecnce of tyrocidine, surfactin, and modified surfactin using the &ldquo;find by formula&rdquo; function, with the formulas found in the table above. Manual inspection of the extracted ion chromatogram traces for [surfactin+H]<sup>+</sup> at m/z of 1035.706 and [surfactin + Na]<sup>+</sup> at m/z of was also performed.</div>
 +
</div>
 
</div>
 
</div>
 
</div>
 
</div>
  
 +
<p>&nbsp;</p>
 +
 +
    </div>
 +
  </div>
 +
</div>
 +
 +
 +
<div id="Results">
 +
  <div class="container">
 +
    <div class="row col-md-12">
 +
      <h1>
 +
        Results
 +
      </h1>
 +
     
 +
    </div>
 +
  </div>
 +
</div>
 +
 +
 +
<div id="Discussion">
 +
  <div class="container">
 +
    <div class="row col-md-12">
 +
      <h1>
 +
        Discussion
 +
      </h1>
 +
     
 +
    </div>
 +
  </div>
 +
</div>
 +
 +
 +
<div id="References">
 +
  <div class="container">
 +
    <div class="row col-md-12">
 +
      <h1>
 +
        References
 +
      </h1>
 +
      <ol>
 +
       
 +
          <li>Kohli, R. M., Walsh, C. T., & Burkart, M. D. (2002). Biomimetic synthesis and optimization of cyclic peptide antibiotics. Nature, 418(6898), 658–661. <a href="http://dx.doi.org/10.1038/nature00907" target="_blank">doi:10.1038/nature00907</a></li>
 +
       
 +
          <li>Qin, C., Bu, X., Wu, X., & Guo, Z. (2003). A Chemical Approach to Generate Molecular Diversity Based on the Scaffold of Cyclic Decapeptide Antibiotic Tyrocidine A. Journal of Combinatorial Chemistry, 5(4), 353–355. <a href="http://dx.doi.org/10.1021/cc0300255" target="_blank">doi:10.1021/cc0300255</a></li>
 +
       
 +
          <li>Hitzeroth, G., Vater, J., Franke, P., Gebhardt, K., & Fiedler, H.-P. (2005). Whole cell matrix-assisted laser desorption/ionization time-of-flight mass spectrometry andin situ structure analysis of streptocidins, a family of tyrocidine-like cyclic peptides. Rapid Commun. Mass Spectrom., 19(20), 2935–2942. <a href="http://dx.doi.org/10.1002/rcm.2155" target="_blank">doi:10.1002/rcm.2155</a></li>
 +
       
 +
      </ol>
 
     </div>
 
     </div>
 
   </div>
 
   </div>

Revision as of 22:28, 18 September 2015


Detection of NRP

Scroll down for more

Purpose

Separation and identification of our non-ribosomal peptide synthetase (NRPS) products was determined by ultra-high performance liquid chromatography with diode array detection coupled to quadrupole time-of-flight mass spectrometry (UHPLC-DAD-QTOFMS). NRPS variants were identified by changes in mass/z and column retention time. Development of a matrix assisted laser desorption ionization time-of-flight mass spec (MALDI-TOF-MS) method will allow for future rapid analysis of oligo-recombineered strains producing a library of NRPS antibiotic products. DTU’s 2015 iGEM team was able to procure the assistance of the DTU Metabolomics Platform group, which specializes in analytical chromatography and is recognized in our attributions page. With assistance from our advisor, a protocol was established to lyse the cells and extract the tyrocidine and surfactin molecules before they were run on the liquid chromatography mass spec (LCMS) for analysis.

Achivements

Background

Tyrocidine and surfactin can both be separated by liquid chromatography, which separates molecules in a liquid mobile phase as they pass over a solid stationary media in a column. Molecules bind to or elute off the column based on their differing physical properties; including electronegativity, polarity, hydrophobicity, or size. Different detection methods (eg. mass spectroscopy, fluorescence detection, UV/Visible light spectroscopy) can then be coupled to the HPLC to analyze the compounds that were separated from the original solution. The reversed phase liquid chromatography column used in our method has a non-polar stationary phase and polar mobile phase, which causes polar molecules to elute before non-polar compounds. Initial preparative steps remove large contaminants from the sample such as the cell membranes or organelles, which can clog and damage the columns.

As there are many different metabolites produced by prokaryotic and eukaryotic cells, it is important to have an idea of the chemical properties and mass of the target compound. Tyrocidine is an amphiphilic, cyclic peptide naturally produced by an NRPS in Bacillus brevis with antimicrobial properties against gram-positive bacteria [1]. It functions by disrupting cell membranes, which explains its broad efficacy, but it has been shown to have hemolytic activity [2], making it unsuitable for intravenous use. Tyrocidine has been reported in the literature to have 5 main forms with the general peptide sequence of …D-Phe1/Tyr1 – Pro2 – Phe3/Trp3/Tyr3 – D-Phe4/D-Trp4/D-Tyr – Asn5 – Gln6/Asp6 – Val8 – Orn9 – Leu10… [3]

 

Figure 1: Surfactin, highlighted with the blue circle at the location of the mutation from an aspartic acid residue to asparagine

Figure 2: cyclic peptide, Tyrocidine A

Method

 

  1. Biomass grown on an LB agar plate was gently scraped off the agar using a clean microscope slide (washed with ethanol or methanol before use) and placed in a labeled 15 mL centrifuge tube.
  2. 5 mL of methanol was added to the biomass to lyse the cell membranes before they were centrifuged at 4700 x g for 5 minutes to pellet the cell material.
  3. Supernatant was carefully removed by pipetting 250 μL into an HPLC vial for analysis
  1. Biomass grown on an LB agar plate was gently scraped off the agar using a clean microscope slide (washed with ethanol or methanol before use) and placed in a labeled 15 mL centrifuge tube.
  2. 5 mL of ethyl acetate with 1% formic acid was added to the sample to ensure positively charged residues were protonated and the surfactin was extracted from the cell. Sample was sonicated for 5 minutes before it was centrifuged at 4700 x g for 5 minutes to pellet the cell material.
  3. Supernatant was carefully removed by pipetting into a fresh 15 mL Falcon tube.
  4. Ethyl acetate was evaporated with gentle N2 gas flow in a fume hood and the extract was re-dissolved in 300 μL of methanol.
  5. Methanol soluble extract was vortexed and centrifuged at 4700 x g for 5 minutes and 250 μL of sample was pipetted into an HPLC vial for analysis.
Extracted samples (in methanol) were separated by ultra-high performance liquid chromatography over an Agilent Poroshell 120 phenyl-hexyl column (2.1 x 250 mm, 2.7 μm). The detection was measured with a diode array detection coupled to quadrupole time of flight mass spectrometry (UHPLC-DAD-QTOFMS). Samples were run with a  a linear gradient from 10 to  100% solvent B in 15 min, followed by 100% B for 2 min and rapidly returned to 10% B to equilibrate for 3 minutes at a flow rate of 0.35 mL/min (60°C). Solvent A was Milli-Q Water, solvent B was acetonitrile and both were buffered in 20 mM formic acid. The injection volume was 1 μL. MS detection was measured on an Agilent 6545 QTOF MS with an electrospray ion source. Capillary voltage was set to 4000 V with a nozzle voltage of 500 V. Mass spectra were recorded for m/z 85–1700 in MS mode and m/z 30–1700 in MS/MS mode, with an acquisition rate of 10 spectra/s. Analysis of the spectra was done using Agilent MassHunter version B.07.00 to determine the presecnce of tyrocidine, surfactin, and modified surfactin using the “find by formula” function, with the formulas found in the table above. Manual inspection of the extracted ion chromatogram traces for [surfactin+H]+ at m/z of 1035.706 and [surfactin + Na]+ at m/z of was also performed.

 

Results

Discussion

References

  1. Kohli, R. M., Walsh, C. T., & Burkart, M. D. (2002). Biomimetic synthesis and optimization of cyclic peptide antibiotics. Nature, 418(6898), 658–661. doi:10.1038/nature00907
  2. Qin, C., Bu, X., Wu, X., & Guo, Z. (2003). A Chemical Approach to Generate Molecular Diversity Based on the Scaffold of Cyclic Decapeptide Antibiotic Tyrocidine A. Journal of Combinatorial Chemistry, 5(4), 353–355. doi:10.1021/cc0300255
  3. Hitzeroth, G., Vater, J., Franke, P., Gebhardt, K., & Fiedler, H.-P. (2005). Whole cell matrix-assisted laser desorption/ionization time-of-flight mass spectrometry andin situ structure analysis of streptocidins, a family of tyrocidine-like cyclic peptides. Rapid Commun. Mass Spectrom., 19(20), 2935–2942. doi:10.1002/rcm.2155
Technical University of Denmark
Department of Systems Biology
Søltofts Plads 221
2800 Kgs. Lyngby
Denmark
P: +45 45 25 25 25
M: dtu-igem-2015@googlegroups.com