Difference between revisions of "Team:Peking/Parts"

Line 198: Line 198:
 
                         <br>
 
                         <br>
  
                         Cillum dolor esse sit incididunt velit eiusmod magna ad nostrud officia aute dolor dolor. Magna
+
                         <h2>Bxb1 gp35</h2>
                         esse
+
                         This year, our team has selected a series of recombinases through litera-ture searches and
                         ullamco pariatur adipisicing consectetur eu commodo officia. Ex cillum consequat mollit minim
+
                         characterized a number of them. Here we present the best characterized recombinase - Bxb1 gp35
                         elit
+
                         (BBa_K2243012) as our best basic part for the award.<br>
                         est deserunt occaecat nisi amet. Quis aliqua nostrud Lorem occaecat sunt. Eiusmod quis amet
+
 
                         ullamco
+
                         With well-behaved inversion performance, Bxb1 gp35 can invert the target DNA sequence
                         aliquip dolore ut incididunt duis adipisicing. Elit consequat nisi eiusmod aute ipsum sunt
+
                         efficiently, thus changing the function of the circuit accord-ing to our demands, and can be
                         veniam do
+
                         designed and used by other iGEM teams in their project/research.<br>
                         est. Occaecat mollit aliquip ut proident consectetur amet ex dolore consectetur aliqua elit.
+
                        <br>
                         Commodo nisi non consectetur voluptate incididunt mollit duis dolore amet amet tempor
+
                         need picture( Flip-Flop fig 5)<br>
                         exercitation.
+
                         Figure 1. Schematic of the standard approach used for recombinase characterization.<br>
                         Qui amet aute ea aute id ad aliquip proident. Irure duis qui labore deserunt enim in quis nisi
+
                         <br>
                         sint
+
 
                         consequat aliqua. Ex proident labore et laborum tempor fugiat sint magna veniam minim. Nulla
+
                        <h3>How we characterized and improved the part </h3>
                         dolor
+
                        Using our standard approach to characterize recombinases (Figure 1), we selected two different
                         labore adipisicing in enim mollit laboris fugiat eu. Aliquip minim cillum ullamco voluptate non
+
                        vectors and a series of RBS to express Bxb1 to in-vert the constitutive promoter BBa_J23119 and
                         dolore non ex duis fugiat duis ad. Deserunt cillum ad et nisi amet non voluptate culpa qui do.
+
                         change the fluorescence. Through the screening procedure, we improved the performance of Bxb1
                         Labore ullamco et minim proident est laborum mollit ad labore deserunt ut irure dolore.
+
                         gp35 and obtained a number of well-behaved matches, among which Bxb1 gp35 recombinase works
                         Reprehenderit ad ad irure ut irure qui est eu velit eu excepteur adipisicing culpa. Laborum
+
                        particularly well. (See more in Results)<br>
                         cupidatat ullamco eu duis anim reprehenderit proident aute ad consectetur eiusmod.
+
                         <br><br>
 +
 
 +
                         <h3>Properties</h3>
 +
                        Through the fine tuning, we improved the performance of Bxb1 gp35 effi-ciently. Here we present
 +
                        some of the well-tested behaviors of this recom-binase, which indicates the excellent properties
 +
                        of Bxb1 gp35.<br>
 +
 
 +
                        <h4>High efficiency of inversion under most conditions</h4>
 +
                         Whether with computer-designed RBS or widely used RBS from the iGEM registry, Bxb1 exhibited a
 +
                         relatively high efficiency in inverting the target promoter.<br>
 +
 
 +
                         <h4>Low leakage through tuning</h4>
 +
                         Through our tuning procedure and exhaustive characterization, we ob-tained a series of response
 +
                        curves to the concentration of inducer, in which relatively low leakage (no inducer) and high
 +
                        inversion efficiency (proper in-ducer concentration) were found. This property meets our
 +
                         requirements well, indicating that Bxb1 gp35 can change the DNA accurately according to our
 +
                        needs.<br>
 +
 
 +
                         <h4>Potential for controlling the downstream circuit</h4>
 +
                        In addition to inverting the promoter to change the gene expression, we al-so used the improved
 +
                        Bxb1 expression plasmid to invert a unidirectional terminator (See more in Results), thus
 +
                        opening or closing the expression of a downstream reporter gene.<br>
 +
 
 +
 
 +
 
 
                     </div>
 
                     </div>
 
                     <!--<div class="mdl-card__actions mdl-card--border">
 
                     <!--<div class="mdl-card__actions mdl-card--border">
Line 278: Line 302:
  
 
                     <div class="mdl-card__supporting-text">
 
                     <div class="mdl-card__supporting-text">
 
                        <h1>Background</h1>
 
                        <p>Building blocks for constructing a page layout.</p>
 
  
  
Line 288: Line 309:
 
                                 <ul style="margin-left: 0px">
 
                                 <ul style="margin-left: 0px">
  
                                     <li><a href="#lorem1">Description</a></li>
+
                                     <li><a href="#cp1">Best Composite Part</a></li>
 +
                                    <li><a href="#cp1.1" style="padding-left: 20px;fontsize:small">Function of Bxb1 attB_ECK120034435_Bxb1 attP</a></li>
 +
                                    <li><a href="#cp1.2" style="padding-left: 20px;fontsize:small">Excellent performance</a></li>
  
                                    <li><a href="https://getmdl.io/components/index.html#layout-section/grid">Description</a></li>
 
 
                                    <li><a href="https://getmdl.io/components/index.html#layout-section/tabs">Description</a></li>
 
 
                                    <li><a href="https://getmdl.io/components/index.html#layout-section/footer">Description</a></li>
 
  
 
                                 </ul>
 
                                 </ul>
Line 300: Line 318:
 
                         </section>
 
                         </section>
  
                        <h1>How to install MDL</h1>
+
                         <h2 cp1>Best Composite Part</h2>
                         <h2>How to install MDL</h2>
+
                         Our team constructed many composite parts for the expression of the re-porter and the
                         <h3>How to install MDL</h3>
+
                         recombinase. Here we present a list of them, and introduce the best-performing part: Bxb1
                         <h4>How to install MDL</h4>
+
                         attB_ ECK120034435_Bxb1 attP, as our best composite part.<br>
                         <h5>How to install MDL</h5>
+
                         <br>
                         <h6>How to install MDL</h6>
+
                        <h7>How to install MDL</h7>
+
  
                         Cillum dolor esse sit incididunt velit eiusmod magna ad nostrud officia aute dolor dolor. Magna
+
                         <h3 id="cp1.1">Function of Bxb1 attB_ECK120034435_Bxb1 attP</h3>
                         esse
+
                         need picture<br>
                         ullamco pariatur adipisicing consectetur eu commodo officia. Ex cillum consequat mollit minim
+
                         Figure 1. Schematic of the Bxb1 attB_ECK120034435_Bxb1 attP composite part as integrated into
                         elit
+
                         the GFP expression plasmid.<br>
                        est deserunt occaecat nisi amet. Quis aliqua nostrud Lorem occaecat sunt. Eiusmod quis amet
+
                         <br>
                         ullamco
+
                         Our best composite part consists of the Bxb1 gp35’ target sites attB/attP and one well-behaved
                         aliquip dolore ut incididunt duis adipisicing. Elit consequat nisi eiusmod aute ipsum sunt
+
                         unidirectional terminator (ECK120034435) between them. This construct can be regarded as an
                         veniam do
+
                         outstanding biological switch for RNA polymerase, because of its high ratio between forward
                        est. Occaecat mollit aliquip ut proident consectetur amet ex dolore consectetur aliqua elit.
+
                         and re-verse terminator strength. What’ more, we can express Bxb1 gp35 to change the direction
                         Commodo nisi non consectetur voluptate incididunt mollit duis dolore amet amet tempor
+
                         of the terminator and switch on/off the expression of downstream genes.<br>
                         exercitation.
+
                        <br>
                         Qui amet aute ea aute id ad aliquip proident. Irure duis qui labore deserunt enim in quis nisi
+
                        sint
+
                        consequat aliqua. Ex proident labore et laborum tempor fugiat sint magna veniam minim. Nulla
+
                        dolor
+
                        labore adipisicing in enim mollit laboris fugiat eu. Aliquip minim cillum ullamco voluptate non
+
                        dolore non ex duis fugiat duis ad. Deserunt cillum ad et nisi amet non voluptate culpa qui do.
+
                        Labore ullamco et minim proident est laborum mollit ad labore deserunt ut irure dolore.
+
                        Reprehenderit ad ad irure ut irure qui est eu velit eu excepteur adipisicing culpa. Laborum
+
                        cupidatat ullamco eu duis anim reprehenderit proident aute ad consectetur eiusmod.
+
                        <br><br>
+
  
                         Tempor tempor aliqua in commodo cillum Lorem<br><br> magna dolore proident Lorem. Esse ad
+
                         <h3 id="cp1.2">Excellent performance</h3>
                        consequat
+
                        est excepteur irure eu irure quis aliqua qui. Do mollit esse veniam excepteur ut veniam anim
+
                        minim
+
                        dolore sit commodo consequat duis commodo. Sunt dolor reprehenderit ipsum minim eiusmod eu
+
                        consectetur anim excepteur eiusmod. Duis excepteur anim dolor sit enim veniam deserunt anim
+
                        adipisicing Lorem elit. Cillum sunt do consequat elit laboris nisi consectetur.
+
  
                         <h3 id="lorem1">Basic MDL Usage</h3>
+
                         <h4>High ratio between forward and reverse terminator strength. (Over 1000-fold)</h4>
 +
                        The terminator ECK120034435 is the best-performing unidirectional termi-nator in our library,
 +
                        and its Ts ratio is higher than 1000-fold, which indicates that it can potentially be used as
 +
                        an RNAP switch in our circuit.<br>
 +
                        <br>
  
                         Cillum dolor esse sit incididunt velit eiusmod magna ad nostrud officia aute dolor dolor. Magna
+
                         <h4>No latent reactivity to transcription.</h4>
                         esse
+
                         Unlike some other terminators we observed and characterized, ECK120034435 has no latent
                         ullamco pariatur adipisicing consectetur eu commodo officia. Ex cillum consequat mollit minim
+
                         promoter reactivity under most conditions, and won’t start transcription even if ligated with
                         elit
+
                         recombinase reaction sites. Thus, this terminator can be used as our controller to improve the
                        est deserunt occaecat nisi amet. Quis aliqua nostrud Lorem occaecat sunt. Eiusmod quis amet
+
                         predictability of our constructed circuit.<br>
                         ullamco
+
                         <br>
                        aliquip dolore ut incididunt duis adipisicing. Elit consequat nisi eiusmod aute ipsum sunt
+
                         veniam do
+
                        est. Occaecat mollit aliquip ut proident consectetur amet ex dolore consectetur aliqua elit.
+
  
 +
                        <h4>Robustness under different conditions.</h4>
 +
                        When we introduced one or two pairs of attB/P sites on both sides of ECK120034435 to construct
 +
                        the controller that can be inverted by recom-binase, the great performance of this
 +
                        unidirectional terminator was robust. This property shows its potential utility in constructing
 +
                        more complex con-trol circuits in our sequential logic circuitry.<br>
 +
                        <br>
  
                         Commodo nisi non consectetur voluptate incididunt mollit duis dolore amet amet tempor
+
                         <h4>Ability to control expression through the recombinase.</h4>
                        exercitation.
+
                         With the excellent performance in opening/closing the transcription pro-cess, we have proved
                         Qui amet aute ea aute id ad aliquip proident. Irure duis qui labore deserunt enim in quis nisi
+
                         that our best composite part can be inverted by Bxb1 gp35 to obviously change the GFP
                         sint
+
                         expression, which shows that this construct is potentially a great control unit for gene
                         consequat aliqua. Ex proident labore et laborum tempor fugiat sint magna veniam minim. Nulla
+
                         expression under the control of recombinases.<br>
                         dolor
+
                         <br>
                        labore adipisicing in enim mollit laboris fugiat eu. Aliquip minim cillum ullamco voluptate non
+
                         <br><br>
                         dolore non ex duis fugiat duis ad. Deserunt cillum ad et nisi amet non voluptate culpa qui do.
+
                         Labore ullamco et minim proident est laborum mollit ad labore deserunt ut irure dolore.
+
                        Reprehenderit ad ad irure ut irure qui est eu velit eu excepteur adipisicing culpa. Laborum
+
                        cupidatat ullamco eu duis anim reprehenderit proident aute ad consectetur eiusmod.
+
  
 +
                        <h2>Composite Parts Table</h2>
 +
                        maybe need another card
  
                        Cillum dolor esse sit incididunt velit <br><br>eiusmod magna ad nostrud officia aute dolor
 
                        dolor.
 
                        Magna esse ullamco pariatur adipisicing consectetur eu commodo officia. Ex cillum consequat
 
                        mollit
 
                        minim elit est deserunt occaecat nisi amet. Quis aliqua nostrud Lorem occaecat sunt. Eiusmod
 
                        quis
 
                        amet ullamco aliquip dolore ut incididunt duis adipisicing. Elit consequat nisi eiusmod aute
 
                        ipsum
 
                        sunt veniam do est. Occaecat mollit aliquip ut proident consectetur amet ex dolore consectetur
 
                        aliqua elit.
 
 
                        Commodo nisi non consectetur voluptate incididunt mollit duis dolore amet amet tempor
 
                        exercitation.
 
                        Qui amet aute ea aute id ad aliquip proident. Irure duis qui labore deserunt enim in quis nisi
 
                        sint
 
                        consequat aliqua. Ex proident labore et laborum tempor fugiat sint magna veniam minim. Nulla
 
                        dolor
 
                        labore adipisicing in enim mollit laboris fugiat eu. Aliquip minim cillum ullamco voluptate non
 
                        dolore non ex duis fugiat duis ad. Deserunt cillum ad et nisi amet non voluptate culpa qui do.
 
                        Labore ullamco et minim proident est laborum mollit ad labore deserunt ut irure dolore.
 
                        Reprehenderit ad ad irure ut irure qui est eu velit eu excepteur adipisicing culpa. Laborum
 
                        cupidatat ullamco eu duis anim reprehenderit proident aute ad consectetur eiusmod.
 
 
                        Cillum dolor esse sit incididunt velit eiusmod magna ad nostrud officia aute dolor dolor. Magna
 
                        esse
 
                        ullamco pariatur adipisicing consectetur eu commodo officia. Ex cillum consequat mollit minim
 
                        elit
 
                        est deserunt occaecat nisi amet. Quis aliqua nostrud Lorem occaecat sunt. Eiusmod quis amet
 
                        ullamco
 
                        aliquip dolore ut incididunt duis adipisicing. Elit consequat nisi eiusmod aute ipsum sunt
 
                        veniam do
 
                        est. Occaecat mollit aliquip ut proident consectetur amet ex dolore consectetur aliqua elit.
 
 
                        Commodo nisi non consectetur voluptate <br><br>incididunt mollit duis dolore amet amet tempor
 
                        exercitation. Qui amet aute ea aute id ad aliquip proident. Irure duis qui labore deserunt enim
 
                        in
 
                        quis nisi sint consequat aliqua. Ex proident labore et laborum tempor fugiat sint magna veniam
 
                        minim. Nulla dolor labore adipisicing in enim mollit laboris fugiat eu. Aliquip minim cillum
 
                        ullamco
 
                        voluptate non dolore non ex duis fugiat duis ad. Deserunt cillum ad et nisi amet non voluptate
 
                        culpa
 
                        qui do. Labore ullamco et minim proident est laborum mollit ad labore deserunt ut irure dolore.
 
                        Reprehenderit ad ad irure ut irure qui est eu velit eu excepteur adipisicing culpa. Laborum
 
                        cupidatat ullamco eu duis anim reprehenderit proident aute ad consectetur eiusmod.
 
  
 
                     </div>
 
                     </div>
Line 582: Line 543:
  
 
                     <div class="mdl-card__supporting-text">
 
                     <div class="mdl-card__supporting-text">
 
                        <h1>Background</h1>
 
                        <p>Building blocks for constructing a page layout.</p>
 
 
 
  
 
                         <section class="docs-toc docs-text-styling" style="margin-left: 0px">
 
                         <section class="docs-toc docs-text-styling" style="margin-left: 0px">
Line 592: Line 548:
 
                                 <ul style="margin-left: 0px">
 
                                 <ul style="margin-left: 0px">
  
                                     <li><a href="#lorem1">Description</a></li>
+
                                     <li><a href="#im1">Improvement of TP901-1</a></li>
 
+
                                     <li><a href="#im1">Improvement of Bxb1 gp35</a></li>
                                    <li><a href="https://getmdl.io/components/index.html#layout-section/grid">Description</a></li>
+
                                     <li><a href="#im1">Improvement of phi31 integrase</a></li>
 
+
                                     <li><a href="https://getmdl.io/components/index.html#layout-section/tabs">Description</a></li>
+
 
+
                                     <li><a href="https://getmdl.io/components/index.html#layout-section/footer">Description</a></li>
+
  
 
                                 </ul>
 
                                 </ul>
Line 604: Line 556:
 
                         </section>
 
                         </section>
  
                         <h1>How to install MDL</h1>
+
                         <h1>Improvement</h1>
                        <h2>How to install MDL</h2>
+
                        <h3>How to install MDL</h3>
+
                        <h4>How to install MDL</h4>
+
                        <h5>How to install MDL</h5>
+
                        <h6>How to install MDL</h6>
+
                        <h7>How to install MDL</h7>
+
  
                         Cillum dolor esse sit incididunt velit eiusmod magna ad nostrud officia aute dolor dolor. Magna
+
                         Though there are already many recombinase parts in the iGEM registry, quantitative
                        esse
+
                         characterization data on them is very limited, and what's more, there is no single standard
                        ullamco pariatur adipisicing consectetur eu commodo officia. Ex cillum consequat mollit minim
+
                         characterization method for serine recom-binases. In addition, even though the attL/R sites
                        elit
+
                         formed by the recom-binase inversion are not recognized by the recombinases which create them,
                        est deserunt occaecat nisi amet. Quis aliqua nostrud Lorem occaecat sunt. Eiusmod quis amet
+
                         we successfully achieved the "reset" process using fusions of the recombinases and their
                        ullamco
+
                         recombination directionality factors (RDF).<br>
                        aliquip dolore ut incididunt duis adipisicing. Elit consequat nisi eiusmod aute ipsum sunt
+
                        <br>
                        veniam do
+
                        est. Occaecat mollit aliquip ut proident consectetur amet ex dolore consectetur aliqua elit.
+
                        Commodo nisi non consectetur voluptate incididunt mollit duis dolore amet amet tempor
+
                        exercitation.
+
                        Qui amet aute ea aute id ad aliquip proident. Irure duis qui labore deserunt enim in quis nisi
+
                         sint
+
                         consequat aliqua. Ex proident labore et laborum tempor fugiat sint magna veniam minim. Nulla
+
                         dolor
+
                         labore adipisicing in enim mollit laboris fugiat eu. Aliquip minim cillum ullamco voluptate non
+
                         dolore non ex duis fugiat duis ad. Deserunt cillum ad et nisi amet non voluptate culpa qui do.
+
                        Labore ullamco et minim proident est laborum mollit ad labore deserunt ut irure dolore.
+
                        Reprehenderit ad ad irure ut irure qui est eu velit eu excepteur adipisicing culpa. Laborum
+
                        cupidatat ullamco eu duis anim reprehenderit proident aute ad consectetur eiusmod.
+
                        <br><br>
+
  
                         Tempor tempor aliqua in commodo cillum Lorem<br><br> magna dolore proident Lorem. Esse ad
+
                         <h2 id="im1">Improvement of TP901-1 </h2>
                         consequat
+
                         There is no submitted TP901-1 integrase part in the iGEM registry. Moreo-ver, the only data for
                        est excepteur irure eu irure quis aliqua qui. Do mollit esse veniam excepteur ut veniam anim
+
                         TP901-1 was obtained through the dimerization of split integrase, which did not work so well.
                         minim
+
                         Additionally, there appears to be no quantitative information to evaluate the RDF of TP901-1.<br>
                        dolore sit commodo consequat duis commodo. Sunt dolor reprehenderit ipsum minim eiusmod eu
+
                         consectetur anim excepteur eiusmod. Duis excepteur anim dolor sit enim veniam deserunt anim
+
                        adipisicing Lorem elit. Cillum sunt do consequat elit laboris nisi consectetur.
+
  
                         <h3 id="lorem1">Basic MDL Usage</h3>
+
                         This year we submitted the TP901-1 (BBa_K2243000) coding region as a basic part, and obtained
 +
                        detailed data to evaluate the inversion efficiency of TP901-1 integrase with different RBSs and
 +
                        vectors through our stand-ard characterization method. This opens the possibility to tune and
 +
                        improve its performance further to meet our design requirements.<br>
  
                         Cillum dolor esse sit incididunt velit eiusmod magna ad nostrud officia aute dolor dolor. Magna
+
                         We also used our composite part BBa_K2243035, comprising the unidirec-tional terminator
                         esse
+
                         ECK120034435 flanked by attB/P sites, as the reporter to evaluate the performance of TP901-1,
                         ullamco pariatur adipisicing consectetur eu commodo officia. Ex cillum consequat mollit minim
+
                         which broadens the prospects to use TP901-1 to control gene expression.<br>
                        elit
+
                        est deserunt occaecat nisi amet. Quis aliqua nostrud Lorem occaecat sunt. Eiusmod quis amet
+
                        ullamco
+
                        aliquip dolore ut incididunt duis adipisicing. Elit consequat nisi eiusmod aute ipsum sunt
+
                        veniam do
+
                        est. Occaecat mollit aliquip ut proident consectetur amet ex dolore consectetur aliqua elit.
+
  
 +
                        We also constructed the fusion protein BBa_K2243014, comprising TP901-1 integrase and its
 +
                        RDF(BBa_K1733000), and tested its ability to invert DNA through attL/R sites.
 +
                        (See more in Results)<br>
 +
                        <br><br>
  
                         Commodo nisi non consectetur voluptate incididunt mollit duis dolore amet amet tempor
+
                         <h2 id="im2">Improvement of Bxb1 gp35</h2>
                         exercitation.
+
                         Some characterization data of Bxb1 gp35 (BBa_K907000) is already available in the iGEM registry,
                        Qui amet aute ea aute id ad aliquip proident. Irure duis qui labore deserunt enim in quis nisi
+
                         but it is still limited because the RBS plays a significant role in recombinase expression and
                         sint
+
                         performance according to our modelling and observations. Without proper RBSs, Bxb1 may exhibit
                        consequat aliqua. Ex proident labore et laborum tempor fugiat sint magna veniam minim. Nulla
+
                         very high leaky expression (even approaching the induced expression level).<br>
                        dolor
+
                        labore adipisicing in enim mollit laboris fugiat eu. Aliquip minim cillum ullamco voluptate non
+
                        dolore non ex duis fugiat duis ad. Deserunt cillum ad et nisi amet non voluptate culpa qui do.
+
                        Labore ullamco et minim proident est laborum mollit ad labore deserunt ut irure dolore.
+
                         Reprehenderit ad ad irure ut irure qui est eu velit eu excepteur adipisicing culpa. Laborum
+
                         cupidatat ullamco eu duis anim reprehenderit proident aute ad consectetur eiusmod.
+
  
 +
                        This year, our team constructed an RBS library to improve the efficiency of Bxb1 gp35. We
 +
                        obtained a number of well-behaved matches (from BBa_K2243002-BBa_K2243005), and measured their
 +
                        corresponding transfer curves against the concentration of inducer. Through our im-provements,
 +
                        Bxb1 showed a very high efficiency of nearly 95% and low leakage of inversion.<br>
  
                         Cillum dolor esse sit incididunt velit <br><br>eiusmod magna ad nostrud officia aute dolor
+
                         Additionally, we used our composite parts (BBa_K2243023 and BBa_K2243024), comprising the
                         dolor.
+
                         unidirectional terminator ECK120034435 flanked by attB/P sites as the reporter to evaluate
                         Magna esse ullamco pariatur adipisicing consectetur eu commodo officia. Ex cillum consequat
+
                         the performance of Bxb1 gp35, which broadens the prospects to use Bxb1 to control gene
                         mollit
+
                         expres-sion.<br>
                        minim elit est deserunt occaecat nisi amet. Quis aliqua nostrud Lorem occaecat sunt. Eiusmod
+
                        quis
+
                        amet ullamco aliquip dolore ut incididunt duis adipisicing. Elit consequat nisi eiusmod aute
+
                        ipsum
+
                        sunt veniam do est. Occaecat mollit aliquip ut proident consectetur amet ex dolore consectetur
+
                        aliqua elit.
+
  
                         Commodo nisi non consectetur voluptate incididunt mollit duis dolore amet amet tempor
+
                         Finally, we fused Bxb1 gp47 (BBa_K907001) with Bxb1 gp35 and tested its ability to reinvert the
                         exercitation.
+
                         DNA sequence flanked by its specific attL/R sites.<br>
                         Qui amet aute ea aute id ad aliquip proident. Irure duis qui labore deserunt enim in quis nisi
+
                         <br><br>
                         sint
+
 
                         consequat aliqua. Ex proident labore et laborum tempor fugiat sint magna veniam minim. Nulla
+
                        <h2 id="im3">Improvement of phi31 integrase</h2>
                         dolor
+
                         Though there are quite a few parts related to phiC31 integrase, there is no systematic standard
                         labore adipisicing in enim mollit laboris fugiat eu. Aliquip minim cillum ullamco voluptate non
+
                         characterization of it. The only relevant information we found comprises fluorescent images
                         dolore non ex duis fugiat duis ad. Deserunt cillum ad et nisi amet non voluptate culpa qui do.
+
                        that show the performance of phiC31 in plants, which is not quantitative and accurate.<br>
                         Labore ullamco et minim proident est laborum mollit ad labore deserunt ut irure dolore.
+
 
                         Reprehenderit ad ad irure ut irure qui est eu velit eu excepteur adipisicing culpa. Laborum
+
                         Our team used our standard reporter (BBa_K2243008) to characterize phiC31, and selected a few
                         cupidatat ullamco eu duis anim reprehenderit proident aute ad consectetur eiusmod.
+
                         well-behaved phiC31 translational units which can achieve very high inversion efficiencies with
 +
                         low leakage. Through these data, we will be able to make use of phiC31 in our future designs
 +
                         more efficiently and accurately. Additionally, we used our composite part (BBa_K2243031),
 +
                         consisting of the unidirectional terminator ECK120034435 flanked by attB/P sites, as the
 +
                         reporter to evaluate the per-formance of Bxb1 gp35, which broadens the prospects to use Bxb1
 +
                        to con-trol gene expression.<br>
 +
                        <br>
  
                        Cillum dolor esse sit incididunt velit eiusmod magna ad nostrud officia aute dolor dolor. Magna
 
                        esse
 
                        ullamco pariatur adipisicing consectetur eu commodo officia. Ex cillum consequat mollit minim
 
                        elit
 
                        est deserunt occaecat nisi amet. Quis aliqua nostrud Lorem occaecat sunt. Eiusmod quis amet
 
                        ullamco
 
                        aliquip dolore ut incididunt duis adipisicing. Elit consequat nisi eiusmod aute ipsum sunt
 
                        veniam do
 
                        est. Occaecat mollit aliquip ut proident consectetur amet ex dolore consectetur aliqua elit.
 
  
                        Commodo nisi non consectetur voluptate <br><br>incididunt mollit duis dolore amet amet tempor
 
                        exercitation. Qui amet aute ea aute id ad aliquip proident. Irure duis qui labore deserunt enim
 
                        in
 
                        quis nisi sint consequat aliqua. Ex proident labore et laborum tempor fugiat sint magna veniam
 
                        minim. Nulla dolor labore adipisicing in enim mollit laboris fugiat eu. Aliquip minim cillum
 
                        ullamco
 
                        voluptate non dolore non ex duis fugiat duis ad. Deserunt cillum ad et nisi amet non voluptate
 
                        culpa
 
                        qui do. Labore ullamco et minim proident est laborum mollit ad labore deserunt ut irure dolore.
 
                        Reprehenderit ad ad irure ut irure qui est eu velit eu excepteur adipisicing culpa. Laborum
 
                        cupidatat ullamco eu duis anim reprehenderit proident aute ad consectetur eiusmod.
 
  
 
                     </div>
 
                     </div>
Line 739: Line 647:
 
                 <ul class="mdl-mega-footer__link-list" style="margin-left: 0px;>
 
                 <ul class="mdl-mega-footer__link-list" style="margin-left: 0px;>
 
                     <li><a href="http://dean.pku.edu.cn/pkudean/"> </li>
 
                     <li><a href="http://dean.pku.edu.cn/pkudean/"> </li>
                    <li><a href="http://dean.pku.edu.cn/pkudean/"><img src="https://static.igem.org/mediawiki/2017/9/99/Peking_footer_logo_admin.png" height = "50px"/></a></li>
+
                <li><a href="http://dean.pku.edu.cn/pkudean/"><img src="https://static.igem.org/mediawiki/2017/9/99/Peking_footer_logo_admin.png" height = "50px"/></a></li>
                    <li><a href="http://www.bio.pku.edu.cn/en/"> <img src="https://static.igem.org/mediawiki/2017/a/ab/Peking_footer_logo_slslogo.png" height = "50px"/> </a></li>
+
                <li><a href="http://www.bio.pku.edu.cn/en/"> <img src="https://static.igem.org/mediawiki/2017/a/ab/Peking_footer_logo_slslogo.png" height = "50px"/> </a></li>
                    <li><a href="http://cqb.pku.edu.cn/en/"> <img src="https://static.igem.org/mediawiki/2017/9/9a/Peking_footer_logo_cqb.png" height = "48px"/> </a></li>
+
                <li><a href="http://cqb.pku.edu.cn/en/"> <img src="https://static.igem.org/mediawiki/2017/9/9a/Peking_footer_logo_cqb.png" height = "48px"/> </a></li>
  
 
                 </ul>
 
                 </ul>
Line 751: Line 659:
 
                 <ul class="mdl-mega-footer__link-list"  style="margin-left: 0px;>
 
                 <ul class="mdl-mega-footer__link-list"  style="margin-left: 0px;>
 
                     <li><a href="https://www.facebook.com/pekingigem"></a></li>
 
                     <li><a href="https://www.facebook.com/pekingigem"></a></li>
                    <li><a href="https://www.facebook.com/pekingigem">Facebook</a></li>
+
                <li><a href="https://www.facebook.com/pekingigem">Facebook</a></li>
                    <li><a href="https://www.youtube.com/channel/UCefEYVCVqKJLmoJrSxivgZQ">Youtube</a></li>
+
                <li><a href="https://www.youtube.com/channel/UCefEYVCVqKJLmoJrSxivgZQ">Youtube</a></li>
                    <li><a href="https://twitter.com/iGEM_Peking">Twitter</a></li>
+
                <li><a href="https://twitter.com/iGEM_Peking">Twitter</a></li>
                    <li><a href="https://github.com/PekingiGEM2017">Github</a></li>
+
                <li><a href="https://github.com/PekingiGEM2017">Github</a></li>
 
                 </ul>
 
                 </ul>
 
             </div>
 
             </div>
Line 763: Line 671:
 
                 <ul class="mdl-mega-footer__link-list" style="margin-left: 0px;>
 
                 <ul class="mdl-mega-footer__link-list" style="margin-left: 0px;>
 
                     <li><a href="http://www.synbiowiki.com"> </a></li>
 
                     <li><a href="http://www.synbiowiki.com"> </a></li>
                    <li><a href="http://www.synbiowiki.com">SynBioWiki.com</a></li>
+
                <li><a href="http://www.synbiowiki.com">SynBioWiki.com</a></li>
                    <li><a href="mailto:PekingIGEM@gmail.com">Mail</a></li>
+
                <li><a href="mailto:PekingIGEM@gmail.com">Mail</a></li>
 
                 </ul>
 
                 </ul>
 
             </div>
 
             </div>
Line 770: Line 678:
 
             <div class="mdl-mega-footer__drop-down-section">
 
             <div class="mdl-mega-footer__drop-down-section">
 
                 <input class="mdl-mega-footer__heading-checkbox" type="checkbox" checked>
 
                 <input class="mdl-mega-footer__heading-checkbox" type="checkbox" checked>
                    <h2 style="color: white; "> <strong>Peking iGEM</strong> 2017</h2>
+
                <h2 style="color: white; "> <strong>Peking iGEM</strong> 2017</h2>
 
                 <ul class="mdl-mega-footer__link-list" style="margin-left: 0px;">
 
                 <ul class="mdl-mega-footer__link-list" style="margin-left: 0px;">
 
                     <li style="color: white; line-height: 1.88em;">Peking University,<br> No.5 Yiheyuan Road Haidian District, Beijing, P.R.China<br>100871</li>
 
                     <li style="color: white; line-height: 1.88em;">Peking University,<br> No.5 Yiheyuan Road Haidian District, Beijing, P.R.China<br>100871</li>

Revision as of 17:12, 29 October 2017

Peking iGEM 2017

Favorite Basic Part


Bxb1 gp35

This year, our team has selected a series of recombinases through litera-ture searches and characterized a number of them. Here we present the best characterized recombinase - Bxb1 gp35 (BBa_K2243012) as our best basic part for the award.
With well-behaved inversion performance, Bxb1 gp35 can invert the target DNA sequence efficiently, thus changing the function of the circuit accord-ing to our demands, and can be designed and used by other iGEM teams in their project/research.

need picture( Flip-Flop fig 5)
Figure 1. Schematic of the standard approach used for recombinase characterization.

How we characterized and improved the part

Using our standard approach to characterize recombinases (Figure 1), we selected two different vectors and a series of RBS to express Bxb1 to in-vert the constitutive promoter BBa_J23119 and change the fluorescence. Through the screening procedure, we improved the performance of Bxb1 gp35 and obtained a number of well-behaved matches, among which Bxb1 gp35 recombinase works particularly well. (See more in Results)


Properties

Through the fine tuning, we improved the performance of Bxb1 gp35 effi-ciently. Here we present some of the well-tested behaviors of this recom-binase, which indicates the excellent properties of Bxb1 gp35.

High efficiency of inversion under most conditions

Whether with computer-designed RBS or widely used RBS from the iGEM registry, Bxb1 exhibited a relatively high efficiency in inverting the target promoter.

Low leakage through tuning

Through our tuning procedure and exhaustive characterization, we ob-tained a series of response curves to the concentration of inducer, in which relatively low leakage (no inducer) and high inversion efficiency (proper in-ducer concentration) were found. This property meets our requirements well, indicating that Bxb1 gp35 can change the DNA accurately according to our needs.

Potential for controlling the downstream circuit

In addition to inverting the promoter to change the gene expression, we al-so used the improved Bxb1 expression plasmid to invert a unidirectional terminator (See more in Results), thus opening or closing the expression of a downstream reporter gene.

Table of Basic Parts we submitted


Cillum dolor esse sit incididunt velit eiusmod magna ad nostrud officia aute dolor dolor. Magna esse ullamco pariatur adipisicing consectetur eu commodo officia. Ex cillum consequat mollit minim elit est deserunt occaecat nisi amet. Quis aliqua nostrud Lorem occaecat sunt. Eiusmod quis amet ullamco aliquip dolore ut incididunt duis adipisicing. Elit consequat nisi eiusmod aute ipsum sunt veniam do est. Occaecat mollit aliquip ut proident consectetur amet ex dolore consectetur aliqua elit. Commodo nisi non consectetur voluptate incididunt mollit duis dolore amet amet tempor exercitation. Qui amet aute ea aute id ad aliquip proident. Irure duis qui labore deserunt enim in quis nisi sint consequat aliqua. Ex proident labore et laborum tempor fugiat sint magna veniam minim. Nulla dolor labore adipisicing in enim mollit laboris fugiat eu. Aliquip minim cillum ullamco voluptate non dolore non ex duis fugiat duis ad. Deserunt cillum ad et nisi amet non voluptate culpa qui do. Labore ullamco et minim proident est laborum mollit ad labore deserunt ut irure dolore. Reprehenderit ad ad irure ut irure qui est eu velit eu excepteur adipisicing culpa. Laborum cupidatat ullamco eu duis anim reprehenderit proident aute ad consectetur eiusmod.

Best Composite Part

Our team constructed many composite parts for the expression of the re-porter and the recombinase. Here we present a list of them, and introduce the best-performing part: Bxb1 attB_ ECK120034435_Bxb1 attP, as our best composite part.

Function of Bxb1 attB_ECK120034435_Bxb1 attP

need picture
Figure 1. Schematic of the Bxb1 attB_ECK120034435_Bxb1 attP composite part as integrated into the GFP expression plasmid.

Our best composite part consists of the Bxb1 gp35’ target sites attB/attP and one well-behaved unidirectional terminator (ECK120034435) between them. This construct can be regarded as an outstanding biological switch for RNA polymerase, because of its high ratio between forward and re-verse terminator strength. What’ more, we can express Bxb1 gp35 to change the direction of the terminator and switch on/off the expression of downstream genes.

Excellent performance

High ratio between forward and reverse terminator strength. (Over 1000-fold)

The terminator ECK120034435 is the best-performing unidirectional termi-nator in our library, and its Ts ratio is higher than 1000-fold, which indicates that it can potentially be used as an RNAP switch in our circuit.

No latent reactivity to transcription.

Unlike some other terminators we observed and characterized, ECK120034435 has no latent promoter reactivity under most conditions, and won’t start transcription even if ligated with recombinase reaction sites. Thus, this terminator can be used as our controller to improve the predictability of our constructed circuit.

Robustness under different conditions.

When we introduced one or two pairs of attB/P sites on both sides of ECK120034435 to construct the controller that can be inverted by recom-binase, the great performance of this unidirectional terminator was robust. This property shows its potential utility in constructing more complex con-trol circuits in our sequential logic circuitry.

Ability to control expression through the recombinase.

With the excellent performance in opening/closing the transcription pro-cess, we have proved that our best composite part can be inverted by Bxb1 gp35 to obviously change the GFP expression, which shows that this construct is potentially a great control unit for gene expression under the control of recombinases.



Composite Parts Table

maybe need another card

Background

Building blocks for constructing a page layout.

How to install MDL

How to install MDL

How to install MDL

How to install MDL

How to install MDL
How to install MDL
How to install MDL Cillum dolor esse sit incididunt velit eiusmod magna ad nostrud officia aute dolor dolor. Magna esse ullamco pariatur adipisicing consectetur eu commodo officia. Ex cillum consequat mollit minim elit est deserunt occaecat nisi amet. Quis aliqua nostrud Lorem occaecat sunt. Eiusmod quis amet ullamco aliquip dolore ut incididunt duis adipisicing. Elit consequat nisi eiusmod aute ipsum sunt veniam do est. Occaecat mollit aliquip ut proident consectetur amet ex dolore consectetur aliqua elit. Commodo nisi non consectetur voluptate incididunt mollit duis dolore amet amet tempor exercitation. Qui amet aute ea aute id ad aliquip proident. Irure duis qui labore deserunt enim in quis nisi sint consequat aliqua. Ex proident labore et laborum tempor fugiat sint magna veniam minim. Nulla dolor labore adipisicing in enim mollit laboris fugiat eu. Aliquip minim cillum ullamco voluptate non dolore non ex duis fugiat duis ad. Deserunt cillum ad et nisi amet non voluptate culpa qui do. Labore ullamco et minim proident est laborum mollit ad labore deserunt ut irure dolore. Reprehenderit ad ad irure ut irure qui est eu velit eu excepteur adipisicing culpa. Laborum cupidatat ullamco eu duis anim reprehenderit proident aute ad consectetur eiusmod.

Tempor tempor aliqua in commodo cillum Lorem

magna dolore proident Lorem. Esse ad consequat est excepteur irure eu irure quis aliqua qui. Do mollit esse veniam excepteur ut veniam anim minim dolore sit commodo consequat duis commodo. Sunt dolor reprehenderit ipsum minim eiusmod eu consectetur anim excepteur eiusmod. Duis excepteur anim dolor sit enim veniam deserunt anim adipisicing Lorem elit. Cillum sunt do consequat elit laboris nisi consectetur.

Basic MDL Usage

Cillum dolor esse sit incididunt velit eiusmod magna ad nostrud officia aute dolor dolor. Magna esse ullamco pariatur adipisicing consectetur eu commodo officia. Ex cillum consequat mollit minim elit est deserunt occaecat nisi amet. Quis aliqua nostrud Lorem occaecat sunt. Eiusmod quis amet ullamco aliquip dolore ut incididunt duis adipisicing. Elit consequat nisi eiusmod aute ipsum sunt veniam do est. Occaecat mollit aliquip ut proident consectetur amet ex dolore consectetur aliqua elit. Commodo nisi non consectetur voluptate incididunt mollit duis dolore amet amet tempor exercitation. Qui amet aute ea aute id ad aliquip proident. Irure duis qui labore deserunt enim in quis nisi sint consequat aliqua. Ex proident labore et laborum tempor fugiat sint magna veniam minim. Nulla dolor labore adipisicing in enim mollit laboris fugiat eu. Aliquip minim cillum ullamco voluptate non dolore non ex duis fugiat duis ad. Deserunt cillum ad et nisi amet non voluptate culpa qui do. Labore ullamco et minim proident est laborum mollit ad labore deserunt ut irure dolore. Reprehenderit ad ad irure ut irure qui est eu velit eu excepteur adipisicing culpa. Laborum cupidatat ullamco eu duis anim reprehenderit proident aute ad consectetur eiusmod. Cillum dolor esse sit incididunt velit

eiusmod magna ad nostrud officia aute dolor dolor. Magna esse ullamco pariatur adipisicing consectetur eu commodo officia. Ex cillum consequat mollit minim elit est deserunt occaecat nisi amet. Quis aliqua nostrud Lorem occaecat sunt. Eiusmod quis amet ullamco aliquip dolore ut incididunt duis adipisicing. Elit consequat nisi eiusmod aute ipsum sunt veniam do est. Occaecat mollit aliquip ut proident consectetur amet ex dolore consectetur aliqua elit. Commodo nisi non consectetur voluptate incididunt mollit duis dolore amet amet tempor exercitation. Qui amet aute ea aute id ad aliquip proident. Irure duis qui labore deserunt enim in quis nisi sint consequat aliqua. Ex proident labore et laborum tempor fugiat sint magna veniam minim. Nulla dolor labore adipisicing in enim mollit laboris fugiat eu. Aliquip minim cillum ullamco voluptate non dolore non ex duis fugiat duis ad. Deserunt cillum ad et nisi amet non voluptate culpa qui do. Labore ullamco et minim proident est laborum mollit ad labore deserunt ut irure dolore. Reprehenderit ad ad irure ut irure qui est eu velit eu excepteur adipisicing culpa. Laborum cupidatat ullamco eu duis anim reprehenderit proident aute ad consectetur eiusmod. Cillum dolor esse sit incididunt velit eiusmod magna ad nostrud officia aute dolor dolor. Magna esse ullamco pariatur adipisicing consectetur eu commodo officia. Ex cillum consequat mollit minim elit est deserunt occaecat nisi amet. Quis aliqua nostrud Lorem occaecat sunt. Eiusmod quis amet ullamco aliquip dolore ut incididunt duis adipisicing. Elit consequat nisi eiusmod aute ipsum sunt veniam do est. Occaecat mollit aliquip ut proident consectetur amet ex dolore consectetur aliqua elit. Commodo nisi non consectetur voluptate

incididunt mollit duis dolore amet amet tempor exercitation. Qui amet aute ea aute id ad aliquip proident. Irure duis qui labore deserunt enim in quis nisi sint consequat aliqua. Ex proident labore et laborum tempor fugiat sint magna veniam minim. Nulla dolor labore adipisicing in enim mollit laboris fugiat eu. Aliquip minim cillum ullamco voluptate non dolore non ex duis fugiat duis ad. Deserunt cillum ad et nisi amet non voluptate culpa qui do. Labore ullamco et minim proident est laborum mollit ad labore deserunt ut irure dolore. Reprehenderit ad ad irure ut irure qui est eu velit eu excepteur adipisicing culpa. Laborum cupidatat ullamco eu duis anim reprehenderit proident aute ad consectetur eiusmod.

Improvement

Though there are already many recombinase parts in the iGEM registry, quantitative characterization data on them is very limited, and what's more, there is no single standard characterization method for serine recom-binases. In addition, even though the attL/R sites formed by the recom-binase inversion are not recognized by the recombinases which create them, we successfully achieved the "reset" process using fusions of the recombinases and their recombination directionality factors (RDF).

Improvement of TP901-1

There is no submitted TP901-1 integrase part in the iGEM registry. Moreo-ver, the only data for TP901-1 was obtained through the dimerization of split integrase, which did not work so well. Additionally, there appears to be no quantitative information to evaluate the RDF of TP901-1.
This year we submitted the TP901-1 (BBa_K2243000) coding region as a basic part, and obtained detailed data to evaluate the inversion efficiency of TP901-1 integrase with different RBSs and vectors through our stand-ard characterization method. This opens the possibility to tune and improve its performance further to meet our design requirements.
We also used our composite part BBa_K2243035, comprising the unidirec-tional terminator ECK120034435 flanked by attB/P sites, as the reporter to evaluate the performance of TP901-1, which broadens the prospects to use TP901-1 to control gene expression.
We also constructed the fusion protein BBa_K2243014, comprising TP901-1 integrase and its RDF(BBa_K1733000), and tested its ability to invert DNA through attL/R sites. (See more in Results)


Improvement of Bxb1 gp35

Some characterization data of Bxb1 gp35 (BBa_K907000) is already available in the iGEM registry, but it is still limited because the RBS plays a significant role in recombinase expression and performance according to our modelling and observations. Without proper RBSs, Bxb1 may exhibit very high leaky expression (even approaching the induced expression level).
This year, our team constructed an RBS library to improve the efficiency of Bxb1 gp35. We obtained a number of well-behaved matches (from BBa_K2243002-BBa_K2243005), and measured their corresponding transfer curves against the concentration of inducer. Through our im-provements, Bxb1 showed a very high efficiency of nearly 95% and low leakage of inversion.
Additionally, we used our composite parts (BBa_K2243023 and BBa_K2243024), comprising the unidirectional terminator ECK120034435 flanked by attB/P sites as the reporter to evaluate the performance of Bxb1 gp35, which broadens the prospects to use Bxb1 to control gene expres-sion.
Finally, we fused Bxb1 gp47 (BBa_K907001) with Bxb1 gp35 and tested its ability to reinvert the DNA sequence flanked by its specific attL/R sites.


Improvement of phi31 integrase

Though there are quite a few parts related to phiC31 integrase, there is no systematic standard characterization of it. The only relevant information we found comprises fluorescent images that show the performance of phiC31 in plants, which is not quantitative and accurate.
Our team used our standard reporter (BBa_K2243008) to characterize phiC31, and selected a few well-behaved phiC31 translational units which can achieve very high inversion efficiencies with low leakage. Through these data, we will be able to make use of phiC31 in our future designs more efficiently and accurately. Additionally, we used our composite part (BBa_K2243031), consisting of the unidirectional terminator ECK120034435 flanked by attB/P sites, as the reporter to evaluate the per-formance of Bxb1 gp35, which broadens the prospects to use Bxb1 to con-trol gene expression.