Help:BioBrick Part Fabrication

This page serves as a how-to guide for constructing novel BioBrick RFC[10] parts which may then be submitted to the Registry. The exact approach used when fabricating a BioBrick part depends on the fabrication method (PCR or direct synthesis) as well as the type of part being constructed (standard part or protein coding sequence).

Constructing a BioBrick part via PCR

A BioBrick can be constructed via PCR if there already exists template DNA from which the BioBricks can be amplified or if the part is short enough that it can be created by [http://openwetware.org/wiki/Annealing_and_primer_extension primer annealing and extension]. When constructing a BioBrick part via PCR, specific sequences corresponding to the BioBrick ends must be included on the 5' end of each of the two PCR primers. The exact sequence of that primer tail depends on whether the desired BioBrick parts is a protein coding sequence or some other kind of BioBrick part.

Standard part fabrication

Use this approach for promoters, ribosome binding sites, terminators and most other BioBricks parts.

Prefix

5' GTTTCTT C GAATTC GCGGCCGC  T  TCTAGA  G   [part] 3'
3' CAAAGAA G CTTAAG CGCCGGCG  A  AGATCT  C   [part] 5'
   (1)    (2)(3)    (4)      (5) (6)    (7)  (8)
  1. Extra bases designed to both
    1. permit cutting of the PCR product with EcoRI by providing extra "spacer" bases. See [http://openwetware.org/wiki/Restriction_digest#Notes notes on cutting near the ends of linear DNA fragments].
    2. promote addition of an A base on the opposite strand by Taq polymerase for high efficiency TA cloning if desired. See [http://openwetware.org/wiki/Knight:TOPO_TA_cloning#Notes notes on TOPO TA cloning].
  2. Random extra spacer base
  3. EcoRI recognition site
  4. NotI recognition site
  5. Extra base to prevent inadvertent creation of EcoBI or EcoKI methylation sites which could inhibit efficient digestion by the BioBricks enzymes.
  6. XbaI recognition site
  7. Extra G base to prevent inadvertent creation of either
    1. a GATC site (which can undergo methylation in some strains thereby inhibiting digestion by the BioBricks enzymes.)
    2. an ATG start codon
  8. Approximately 20 bp of sequence that matches the 5' end of the part you wish to construct.

Suffix

5' [part] T ACTAGT  A  GCGGCCG CTGCAG G AAGAAAC   3'
3' [part] A TGATCA  T  CGCCGGC GACGTC C TTCTTTG   5'
   (1)      (2)    (3) (4)     (5)   (6)  (7)
  • The above sequence assumes that your part is on the forward strand running in the 5' to 3' direction. To construct a PCR primer, you will need to use the bottom strand in the reverse direction.
  1. Approximately 20 bp of sequence that matches the 3' end of the part you wish to construct.
  2. SpeI recognition site
  3. Extra base to prevent inadvertent creation of EcoBI or EcoKI methylation sites which could inhibit efficient digestion by the BioBricks enzymes.
  4. NotI recognition site
  5. PstI recognition site
  6. Random extra spacer base
  7. Extra bases designed to both
    1. permit cutting of the PCR product with PstI by providing extra "spacer" bases. See [http://openwetware.org/wiki/Restriction_digest#Notes notes on cutting near the ends of linear DNA fragments].
    2. promote addition of an A base on the opposite strand by Taq polymerase for high efficiency TA cloning if desired. See [http://openwetware.org/wiki/Knight:TOPO_TA_cloning#Notes notes on TOPO TA cloning].

Quick reference

Once you are ready to design your primers for making a BioBrick, you can copy and paste the following sequences into your primers.

Copy and paste the following 30 bp sequence onto the 5' end of your upstream primer:
5' ---> 3'
GTT TCT TCG AAT TCG CGG CCG CTT CTA GAG
Copy and paste the following 29 bp sequence onto the 5' end of your downstream primer:
5' ---> 3'
GTT TCT TCC TGC AGC GGC CGC TAC TAG TA

Protein coding sequence fabrication

Construction of protein coding sequences in BioBricks form requires slightly specialized BioBricks prefixes and suffixes for two reasons.

  1. The prefix is slightly altered to ensure appropriate spacing between the ribsome binding site and the start codon.
  2. BioBricks coding sequences standardly end with two sequential TAA stop codons.

Prefix

5' GTTTCTT C GAATTC GCGGCCGC  T  TCTAG [ATG Remaining CDS] 3'
3' CAAAGAA G CTTAAG CGCCGGCG  A  AGATC [TAC Remaining CDS] 5'
   (1)    (2)(3)    (4)      (5) (6)    (7) (8)
  1. Extra bases designed to both
    1. permit cutting of the PCR product with EcoRI by providing extra "spacer" bases. See [http://openwetware.org/wiki/Restriction_digest#Notes notes on cutting near the ends of linear DNA fragments].
    2. promote addition of an A base on the opposite strand by Taq polymerase for high efficiency TA cloning if desired. See [http://openwetware.org/wiki/Knight:TOPO_TA_cloning#Notes notes on TOPO TA cloning].
  2. Random extra spacer base
  3. EcoRI recognition site
  4. NotI recognition site
  5. Extra base to prevent inadvertent creation of EcoBI or EcoKI methylation sites which could inhibit efficient digestion by the BioBricks enzymes.
  6. XbaI recognition site
  7. An ATG start codon
  8. Approximately 20 bp of sequence that matches the 5' end of the coding sequence you wish to construct (excluding the start codon).

Suffix

5' [part] TAATAA T ACTAGT  A  GCGGCCG CTGCAG G AAGAAAC  3'
3' [part] ATTATT A TGATCA  T  CGCCGGC GACGTC C TTCTTTG  5'
   (1)    (2)      (3)    (4) (5)     (6)   (7)  (8)
  • The above sequence assumes that your part is on the forward strand running in the 5' to 3' direction. To construct a PCR primer, you will need to use the bottom strand in the reverse direction.
  1. Approximately 20 bp of sequence that matches the 3' end of the CDS you wish to construct (excluding the stop codon).
  2. Two sequential stop codons. TAA is the default stop codon used in all BioBricks coding sequences.
  3. SpeI recognition site
  4. Extra base to prevent inadvertent creation of EcoBI or EcoKI methylation sites which could inhibit efficient digestion by the BioBricks enzymes.
  5. NotI recognition site
  6. PstI recognition site
  7. Random extra spacer base
  8. Extra bases designed to both
    1. permit cutting of the PCR product with PstI by providing extra "spacer" bases. See [http://openwetware.org/wiki/Restriction_digest#Notes notes on cutting near the ends of linear DNA fragments].
    2. promote addition of an A base on the opposite strand by Taq polymerase for high efficiency TA cloning if desired. See [http://openwetware.org/wiki/Knight:TOPO_TA_cloning#Notes notes on TOPO TA cloning].

Quick reference

Once you are ready to design your primers for making a BioBrick, you can copy and paste the following sequences into your primers.

Copy and paste the following 31 bp sequence onto the 5' end of your upstream primer for your coding sequence:
includes the ATG start codon!
5' ---> 3'
GTT TCT TCG AAT TCG CGG CCG CTT CTA G [ATG start]
Copy and paste the following 35 bp sequence onto the 5' end of your downstream primer for your coding sequence:
includes the TAATAA double stop codon!
5' ---> 3'
GTT TCT TCC TGC AGC GGC CGC TAC TAG TA [TTA TTA double stop codon]

Cloning your PCR'd Part

The GTTTCTTC overhangs of the PCR primers suggested above are designed to encourage Taq or Taq containing enzyme mixtures to add a 3' A to the final PCR product. This is designed to make TA cloning or TOPO-TA cloning of the PCR product easier, if required.

The overhang also provides sufficient DNA overhang to allow the standard Biobrick enzymes to cut the PCR product for direct assembly into an existing Biobrick vector. Cutting with EcoRI and SpeI, EcoRI and PstI, or XbaI and PstI, while cutting the vector with the identical enzymes allow direct ligation of the PCR product into the vector. Cutting with EcoRI and PstI, followed by ligation to a Biobrick vector backbone is probably the most straightforward cloning method.

Colonies can be checked for the correct length with colony PCR using the primers VF2 and VR. Correct length clones should be sequence verified by sequencing with either or both VF2 and VR primers.

Remember to add part descriptions and sequence to the Registry of Standard Biological Parts, and to send plasmid or transformed cell samples to the Registry.

Constructing a BioBrick part via direct synthesis

If you are constructing a BioBrick part via direct synthesis ... especially a coding sequence (in which the sequence is flexible), you may want to consider eliminating the following restriction sites that might be useful in the future to others. This list of sites is prioritized.

These sites MUST be absent

The exception to this rule is for the BioBricks prefixes, BioBricks suffixes and the multiple cloning site of BioBricks vectors.

Strongly prefer that these sites be absent

These restriction enzymes are those that generate compatible cohesive ends to the BioBrick sites and therefore can be useful for various projects.

  • [http://www.neb.com/nebecomm/products/productR0566.asp ApoI] (probably impossible because it occurs frequently), [http://www.neb.com/nebecomm/products/productR0589.asp Mfe I]
  • [http://www.neb.com/nebecomm/products/productR0174.asp AvrII], [http://www.neb.com/nebecomm/products/productR0131.asp NheI]
  • [http://www.neb.com/nebecomm/products/productR0127.asp NsiI], [http://www.neb.com/nebecomm/products/productR0642.asp SbfI]

These restriction sites are used in other assembly standards

  • BamHI, BglII, XhoI (Berkeley standard)
  • NgoMIV, AgeI (Freiburg standard)

Sites to include

  • Having GATC sites in your part can sometimes be useful because it allows plasmid purified DNA to be cut (via DpnI) whereas PCR product DNA is not. Such a trick is useful for some site directed mutagenesis protocols.


References

  1. [http://hdl.handle.net/1721.1/21168 Idempotent Vector Design for Standard Assembly of BioBricks] by Tom Knight
  2. http://parts.mit.edu/r/parts/htdocs/Assembly/rbs_cds.cgi
  3. [http://openwetware.org/wiki/Synthetic_Biology:BioBricks/Part_fabrication Original OpenWetWare Document]

Contacts

The BioBricks idempotent assembly scheme was designed by [http://openwetware.org/wiki/Tom_Knight Tom Knight].

The [http://openwetware.org/wiki/Synthetic_Biology:BioBricks/Part_fabrication original document] was developed by [http://openwetware.org/wiki/Reshma_Shetty Reshma Shetty] for instructional purposes.

This page has been edited and condensed by iGEM HQ