KG#471
(Plasmid
#110935)
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PurposeExpresses proteins in a subset of neurons in C. elegans, including isolated expression in the DA9 cholinergic motor neuron in the tail
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Depositing Lab
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Sequence Information
Ordering
Item | Catalog # | Description | Quantity | Price (USD) | |
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Plasmid | 110935 | Standard format: Plasmid sent in bacteria as agar stab | 1 | $85 |
Backbone
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Vector backbonepUC
- Backbone size w/o insert (bp) 2632
- Total vector size (bp) 7063
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Vector typeBacterial Expression
Growth in Bacteria
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Bacterial Resistance(s)Ampicillin, 100 μg/mL
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Growth Temperature37°C
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Growth Strain(s)DH5alpha
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Copy numberHigh Copy
Gene/Insert 1
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Gene/Insert namemig-13 promoter
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SpeciesC. elegans (nematode)
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Insert Size (bp)3393
Cloning Information for Gene/Insert 1
- Cloning method Unknown
- 5′ sequencing primer Unknown (Common Sequencing Primers)
Gene/Insert 2
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Gene/Insert nameunc-54 3' control region
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SpeciesC. elegans (nematode)
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Insert Size (bp)940
Cloning Information for Gene/Insert 2
- Cloning method Unknown
- 5′ sequencing primer Unknown (Common Sequencing Primers)
Resource Information
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Supplemental Documents
Terms and Licenses
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Academic/Nonprofit Terms
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Industry Terms
- Not Available to Industry
Trademarks:
- Zeocin® is an InvivoGen trademark.
Depositor Comments
Unique multi-cloning sites: Asc I [left of 5’ UTR] / Sbf I/ Kpn I/ EcoRV/ Xho I
Used BamH I/ Apa I to cut out the ~825 bp MCS + unc-54 3' control region from KS#1 mig-13:: expression vector (gift of Kang Shen) , leaving the 6.1 kb vector fragment containing the mig-13:: promoter. To this vector fragment, we ligated the 1000 bp BamH I/ Apa I fragment from KG#470. Do Earth minipreps on 2 colonies. Chose 1 clone with correct size fragments and made a glycerol stock.
Features of the expression construct: The mig-13 promoter drives expression in DA9 from hatching to adult and VA12 from mid-larval to adult stages. Also drives expression occasionally in PHAL, PVCL, and LUAL in addition to many neurons anterior to the vulva. This vector has 3 synthetic introns for increasing the robustness of intronless insert expression: 1 in the 5' UTR, one just upstream of the unc-54 3' UTR/ control region, and one in the 3' UTR of unc-54. The new MCS in this construct is derived from pPD96.52, with the addition of an 8-cutter Sbf I site between Nhe I and Kpn I.
Note: this vector can be converted to a vector that fuses GFP, YFP, or CFP onto the C-terminus of the protein as follows:
Remove the ~1000 bp (Kpn I or Age I) + (Spe I or BsiW I [expensive, 55 C cutter with 50% activity at 37 C; heat inactivate 80 C] or Apa I) fragment containing the unc-54 3’ control region from this plasmid and replace it with the ~1800 bp like-digested fragment containing 3-intron S65C GFP (see pPD94.81 in Fire Lab plasmids), YFP (see pPD136.64 in Fire Lab plasmids) or CFP (see pPD136.61 in Fire Lab plasmids) + the unc-54 3’ UTR and control region. Note if Spe I is used to cut these Fire Lab vectors, you get 3 bands: 1100, 1800, and 4000 (total size 6.9 Kb). The 1800 bp band is the XFP-containing band.
For C-terminal fusions, remember to leave the stop codon off of the upstream protein. For the above-mentioned Fire Lab vectors, the reading frame for the downstream XFP relative to the Kpn I and Age I sites is as follows (triplets are the reading frame codons):
Kpn I
G GTA CCG GT
Age I
Alternatively, use Gibson Assembly/ NEBuilder to insert any genetically encoded fluorescent protein at the N- or C-terminus of your protein.
These plasmids were created by your colleagues. Please acknowledge the Principal Investigator, cite the article in which the plasmids were described, and include Addgene in the Materials and Methods of your future publications.
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For your Materials & Methods section:
KG#471 was a gift from Kenneth Miller (Addgene plasmid # 110935 ; http://n2t.net/addgene:110935 ; RRID:Addgene_110935) -
For your References section:
Synapse-Assembly Proteins Maintain Synaptic Vesicle Cluster Stability and Regulate Synaptic Vesicle Transport in Caenorhabditis elegans. Edwards SL, Yorks RM, Morrison LM, Hoover CM, Miller KG. Genetics. 2015 Sep;201(1):91-116. doi: 10.1534/genetics.115.177337. 10.1534/genetics.115.177337 PubMed 26354975