Team:Minnesota/Project/Insulin

From 2013.igem.org

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<!--2013 edit <img style="width:500px;" src="http://i1158.photobucket.com/albums/p607/iGEM_MN/caffeine_synth_resize.png">
 
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<p><b>Figure 1.  Scheme showing proposed caffeine biosynthetic pathway in S. cerevisiae. </b></p>
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<p><b>Methods</b><br><br>
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&nbsp;&nbsp;&nbsp;Insulin and PCSK1 Open Reading Frame Design
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Sequences for insulin and its chaperone PCSK1 were obtained through NCBI. Both insulin and PCSK1 were codon optimized for expression in P. pastoris using the online Codon Optimization tool from IDT. The BioBrick consensus sequence was added to both insulin and PCSK1 in preparation for cloning into the shipping vector. Restriction sites that were incompatible with the BioBrick standard, as well as our Pichia pastoris expression system pMNBB were eliminated by altering single nucleotides while maintaining the proper amino acid sequence. Both genes were synthesized by IDT. Insulin was obtained as one 333 bp fragment, while the longer PCSK1 was split into three, roughly 750 bp fragments.
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<br><br>  
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<p><b>Methods</b><br>
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&nbsp;&nbsp;&nbsp;Fragments for insulin and PCSK1 were amplified by polymerase chain reaction (PCR). Insulin was cloned into the shipping vector. The three PCSK1 fragments were joined into the the full 2300 bp product using overlap extension PCR. The full PCSK1 product was cloned into the shipping vector. Cloning primers were not designed for PCSK1 with flanking BioBrick consensus sequences. PCSK1 was cloned into the pCR®Blunt II-TOPO® vector, provided by Invitrogen.
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<br><br>
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After settling on the two genes, the sequences were taken from NCBI and finalized for synthetic synthesis (XMT1 accession number DQ422954 and DXMT1 accession number DQ422955). A program was designed to optimize these plant genes for yeast use. Because of the similarity of the two genes (~88% similarity) the program was also designed to identify regions of homology between the two genes and adjust the codon usage such that homologous recombination will not occur at the nucleotide level while the overall protein sequence would be retained. The codons were chosen in descending order of complementary tRNA abundance. Any BioBrick cut sites found within the gene sequences were also removed.</p>
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E. coli C2566 cultures were transformed with PCSK1- pCR®Blunt II-TOPO®. PCSK1- pCR®Blunt II-TOPO® was isolated  from transformation cultures and used as a template for PCR amplification of PCSK1 with our insulin primers that contained the BioBrick consensus sequence.
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<br><br>
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<p>To synthesize the overall plasmid backbone, PCR primers were designed to amplify five desired fragments (with 25-30 bp overlap) from different plasmids, which could be joined by Gibson Assembly:<br>
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Two transformations were performed using Escherichia coli C2566, one with pSB1C3-Insulin and another with pSB1C3-PCSK1. Both constructs were submitted for sequencing.
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1.&nbsp;&nbsp;BioBrick destination plasmid pSB1C3 containing the MCS and rep (pMB1).<br>
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<br><br>
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2.&nbsp;&nbsp;BioBrick destination plasmid pSB1C3 containing the Chloramphenical resistance gene. <br>
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<b>Results</b>
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3.&nbsp;&nbsp;2u Gibson Extract provided by the Schmidt-Dannert lab (University of Minnesota) containing the&nbsp;&nbsp;2u ORI for yeast. <br>
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<br><br>
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4.&nbsp;&nbsp;pkT127 provided by the Schmidt-Dannert lab containing G418 resistance genes and tTEF1.<br>
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The products that were cloned into the shipping vector were verified by gel electrophoresis (Figure 1).
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5.&nbsp;&nbsp;ATCC plasmid provided by the Schmidt-Dannert lab containing the ADH1 promoter to drive the &nbsp;&nbsp;&nbsp;&nbsp;G418 R gene.</p>
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Several colonies were identified in colony screens for PCSK1 and insulin in transformants containing the shipping vector. Seen below are verification gels for PCSK1 and insulin.
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<br><br>
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PCSK gel
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<br><br>
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Ins gel
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<br><br>
<p><b>Parts List</b><br>
<p><b>Parts List</b><br>
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BBa_K814002&nbsp;&nbsp;     Human insulin, codon optimized for expression in <i>P. pastoris</i><br><br>
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BBa_K814000&nbsp;&nbsp;dehydroquinate synthase (DHQS) generator<br>
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BBa_K814001&nbsp;&nbsp;    ATP-grasp (ATPG) generator<br>
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BBa_K814002&nbsp;&nbsp;    dehydroquinate O-methyltrasferase (O-MT) generator<br>
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</p>
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BBa_K814003&nbsp;&nbsp;    shinorine non-ribosomal peptide synthase (NRPS) generator<br>
 
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BBa_K814004&nbsp;&nbsp;    mycosporine-glycine biosynthetic pathway<br>
 
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BBa_K814005&nbsp;&nbsp;    shinorine biosynthetic pathway<br>
 
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BBa_K814006&nbsp;&nbsp;    negative control for mycosporine-like amino acid biosynthesis<br>
 
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BBa_K814007&nbsp;&nbsp;    ScyA (acetolactate synthase) generator<br>
 
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BBa_K814008&nbsp;&nbsp;    ScyB (leucine dehydrogenase) generator<br>
 
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BBa_K814009&nbsp;&nbsp;    ScyC generator<br>
 
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BBa_K814010&nbsp;&nbsp;    partial scytonemin biosynthetic pathway, scyCB<br>
 
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BBa_K814011&nbsp;&nbsp;    scytonemin biosynthetic pathway, scyBAC<br>
 
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BBa_K814012&nbsp;&nbsp;    XMT1 protein generator<br>
 
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BBa_K814013&nbsp;&nbsp;    DXMT1 protein generator
 
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</p>
 
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<!-- 2013 edit

Revision as of 02:59, 28 September 2013

Team:Minnesota - Main Style Template Team:Minnesota - Template

Constructing Parts to Express Active Human Insulin


INSULIN

The sequence we used for insulin was obtained from NCBI. It is the coding sequence for human insulin. The sequence obtained from NCBI was codon optimized for use in P. pastoris utilizing IDT codon optimization software. Expressing and obtaining pure has insulin from Pichia cultures will reduce allergic responses, inconsistent purity and concentration, and host rejection in patients who take insulin as a treatment of type I and type II diabetes.

PCSK1

PCSK1 encodes for preprotein convertase TYPE I, which is regarded as the most important enzyme in the first step of insulin processing in humans. Since our model organism P. pastoris lacks this enzyme it is hypothesized that its addition will increase over the lineage.

Goal
To construct BioBrick parts that contain the human insulin and PCSK1 genes, codon optimized for P. pastoris.

Background

Methods

   Insulin and PCSK1 Open Reading Frame Design Sequences for insulin and its chaperone PCSK1 were obtained through NCBI. Both insulin and PCSK1 were codon optimized for expression in P. pastoris using the online Codon Optimization tool from IDT. The BioBrick consensus sequence was added to both insulin and PCSK1 in preparation for cloning into the shipping vector. Restriction sites that were incompatible with the BioBrick standard, as well as our Pichia pastoris expression system pMNBB were eliminated by altering single nucleotides while maintaining the proper amino acid sequence. Both genes were synthesized by IDT. Insulin was obtained as one 333 bp fragment, while the longer PCSK1 was split into three, roughly 750 bp fragments.

   Fragments for insulin and PCSK1 were amplified by polymerase chain reaction (PCR). Insulin was cloned into the shipping vector. The three PCSK1 fragments were joined into the the full 2300 bp product using overlap extension PCR. The full PCSK1 product was cloned into the shipping vector. Cloning primers were not designed for PCSK1 with flanking BioBrick consensus sequences. PCSK1 was cloned into the pCR®Blunt II-TOPO® vector, provided by Invitrogen.

E. coli C2566 cultures were transformed with PCSK1- pCR®Blunt II-TOPO®. PCSK1- pCR®Blunt II-TOPO® was isolated from transformation cultures and used as a template for PCR amplification of PCSK1 with our insulin primers that contained the BioBrick consensus sequence.

Two transformations were performed using Escherichia coli C2566, one with pSB1C3-Insulin and another with pSB1C3-PCSK1. Both constructs were submitted for sequencing.

Results

The products that were cloned into the shipping vector were verified by gel electrophoresis (Figure 1).

Several colonies were identified in colony screens for PCSK1 and insulin in transformants containing the shipping vector. Seen below are verification gels for PCSK1 and insulin.

PCSK gel

Ins gel

Parts List
BBa_K814002   Human insulin, codon optimized for expression in P. pastoris


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