New Part Design(PCR)

From 2010.igem.org

(Difference between revisions)
(New page: The following protocol is for creating a new biobricks part from a template DNA. '''Primer Design''' Design a forward primer to your new BioBrick part comprised of the BioBrick protein cod...)
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The following protocol is for creating a new biobricks part from a template DNA.
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The following protocol is for creating a new biobricks part from a protein coding sequence.
'''Primer Design'''
'''Primer Design'''
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Design a forward primer to your new BioBrick part comprised of the BioBrick protein coding prefix sequence GTT TCT TCG AAT TCG CGG CCG CTT CTA G followed by the first 20-30 nucleotides of the protein coding region, beginning with the ATG
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Design a reverse primer to your new BioBrick part comprised of the last 20-30 or so nucleotides of the protein coding sequence, excluding the stop codon, followed by the BioBrick protein coding suffix sequence 5'-TAA TAA TAC TAG TAG CGG CCG CTG CAG GAA GAA AC-3'. Note that the BioBrick protein coding suffix sequence includes the double stop codon TAA TAA. (Note: In some cases, for example if you wish use your part directly for making protein fusions using BioScaffold parts [1] or make your part more versatile by giving other users the capacity to do so in the future, then you should only include one stop codon TAA or make a version of your part that has only one stop codon. In this case your sequence should be followed by the BioScaffold and BioBrick compatible protein suffix 5'-TAA TAC TAG TAG CGG CCG CTG CAG GAA GAA AC-3' instead of the BioBrick protein coding suffix sequnce. Since the scar region that is created by the composition of parts, also introduces a stop codon after protein parts, including only one stop codon within the frame of the part may be sufficient (especially if your part will be followed by a subsequent part.))
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# Design a forward primer to your new BioBrick part comprised of the BioBrick protein coding prefix sequence GTT TCT TCG AAT TCG CGG CCG CTT CTA G followed by the first 20-30 nucleotides of the protein coding region, beginning with the ATG
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Be sure and follow the guidelines above for design of the primer sequence that is complementary to the template.
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# Design a reverse primer to your new BioBrick part comprised of the last 20-30 or so nucleotides of the protein coding sequence, excluding the stop codon, followed by the BioBrick protein coding suffix sequence 5'-TAA TAA TAC TAG TAG CGG CCG CTG CAG GAA GAA AC-3'. Note that the BioBrick protein coding suffix sequence includes the double stop codon TAA TAA. (Note: In some cases, for example if you wish use your part directly for making protein fusions using BioScaffold parts [1] or make your part more versatile by giving other users the capacity to do so in the future, then you should only include one stop codon TAA or make a version of your part that has only one stop codon. In this case your sequence should be followed by the BioScaffold and BioBrick compatible protein suffix 5'-TAA TAC TAG TAG CGG CCG CTG CAG GAA GAA AC-3' instead of the BioBrick protein coding suffix sequnce. Since the scar region that is created by the composition of parts, also introduces a stop codon after protein parts, including only one stop codon within the frame of the part may be sufficient (especially if your part will be followed by a subsequent part.))
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Then take the reverse complement of your reverse primer.
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#Be sure and follow the guidelines above for design of the primer sequence that is complementary to the template.
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If you are constructing any other kind of BioBrick part besides a protein coding region, do the following
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#Then take the reverse complement of your reverse primer.
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Design a forward primer to your new BioBrick part comprised of the BioBrick prefix sequence 5'-GTT TCT TCG AAT TCG CGG CCG CTT CTA GAG-3' followed by the first 20-30 or so nucleotides of the part sequence.
+
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Design a reverse primer to your new BioBrick part comprised of the last 20-30 or so nucleotides of the part sequence followed by the BioBrick suffix sequence 5'-TAC TAG TAG CGG CCG CTG CAG GAA GAA AC-3'
+
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Be sure and follow the guidelines above for design of the primer sequence that is complementary to the template.
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Then take the reverse complement of your reverse primer.
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Revision as of 18:24, 16 October 2010

The following protocol is for creating a new biobricks part from a protein coding sequence. Primer Design

  1. Design a forward primer to your new BioBrick part comprised of the BioBrick protein coding prefix sequence GTT TCT TCG AAT TCG CGG CCG CTT CTA G followed by the first 20-30 nucleotides of the protein coding region, beginning with the ATG
  2. Design a reverse primer to your new BioBrick part comprised of the last 20-30 or so nucleotides of the protein coding sequence, excluding the stop codon, followed by the BioBrick protein coding suffix sequence 5'-TAA TAA TAC TAG TAG CGG CCG CTG CAG GAA GAA AC-3'. Note that the BioBrick protein coding suffix sequence includes the double stop codon TAA TAA. (Note: In some cases, for example if you wish use your part directly for making protein fusions using BioScaffold parts [1] or make your part more versatile by giving other users the capacity to do so in the future, then you should only include one stop codon TAA or make a version of your part that has only one stop codon. In this case your sequence should be followed by the BioScaffold and BioBrick compatible protein suffix 5'-TAA TAC TAG TAG CGG CCG CTG CAG GAA GAA AC-3' instead of the BioBrick protein coding suffix sequnce. Since the scar region that is created by the composition of parts, also introduces a stop codon after protein parts, including only one stop codon within the frame of the part may be sufficient (especially if your part will be followed by a subsequent part.))
  3. Be sure and follow the guidelines above for design of the primer sequence that is complementary to the template.
  4. Then take the reverse complement of your reverse primer.