pSUSL001T:pTRE3G-dCas9-2xKRAB-p2a-tdTomato
(Plasmid
#209298)
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PurposeA lentiviral vector with tetracycline-inducible system to control expression of S. aureus dCas9 (with tdTomato) to silencing specific genes due to interference with gene transcription machinery.
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Depositing Lab
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Sequence Information
Ordering
Item | Catalog # | Description | Quantity | Price (USD) | |
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Plasmid | 209298 | Standard format: Plasmid sent in bacteria as agar stab | 1 | $85 |
Backbone
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Vector backboneplenti
- Total vector size (bp) 14054
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Vector typeMammalian Expression, Lentiviral
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Selectable markersTetracycline
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)NEB Stable
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Copy numberUnknown
Gene/Insert 1
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Gene/Insert namedCas9
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Alt nameSadCas9
- Promoter tetracycline-inducible promoter (TRE3G)
Cloning Information for Gene/Insert 1
- Cloning method TOPO Cloning
- 5′ sequencing primer accgcgggcccgggggatccATGGCCCCAAAGAAGAAGCG
- 3′ sequencing primer TTGATGCCGCTCAGCTCG (Common Sequencing Primers)
Gene/Insert 2
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Gene/Insert nametdTomato
Resource Information
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A portion of this plasmid was derived from a plasmid made byA gift from Professor Stanley Qi (Stanford) where zeocin resistance gene (zeo) was replaced by a fluorescent marker, tdTomato
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
Please visit https://www.biorxiv.org/content/10.1101/2023.01.24.525105v1 for bioRxiv preprint.
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:
pSUSL001T:pTRE3G-dCas9-2xKRAB-p2a-tdTomato was a gift from Birgitt Schuele (Addgene plasmid # 209298 ; http://n2t.net/addgene:209298 ; RRID:Addgene_209298) -
For your References section:
Inactive S. aureus Cas9 downregulates alpha-synuclein and reduces mtDNA damage and oxidative stress levels in human stem cell model of Parkinson's disease. Sastre D, Zafar F, Torres CAM, Piper D, Kirik D, Sanders LH, Qi LS, Schule B. Sci Rep. 2023 Oct 18;13(1):17796. doi: 10.1038/s41598-023-45078-3. 10.1038/s41598-023-45078-3 PubMed 37853101