ChromoTek PARP1-Chromobody® plasmid (TagRFP)
DNA plasmid encoding for anti-PARP1 VHH (anti-PARP1 Nanobody) fused to TagRFP.
Specificity
PARP1
Applications
IF, Live cell imaging
Vector type
Mammalian expression vector
Reporter
TagRFP
Cat no : xcr
Synonyms
Validation Data Gallery
Product Information
DNA plasmid encoding for anti-PARP1 VHH (anti-PARP1 Nanobody) fused to TagRFP.
Description | The PARP1-Chromobody visualizes endogenous PARP1 in real time in live cells.
• Easily transfect your cells • Use PARP1-Chromobody® as marker of DNA damage after microirradiation • PARP1-Chromobody® does not affect cell viability |
Applications | Live cell imaging |
Specificity | Poly(ADP-ribose) polymerase 1 (PARP1), tested in human cells. Does not bind to PARP2, PARP3, andPARP 9 |
Reporter | TagRFP |
Vector type | Mammalian expression vector |
Promoter | Constitutive CMV IE |
Codon usage | Mammalian |
Selection | Kan/Neo |
Sequence | With the PARP1-Chromobody plasmid you receive the sequence information of the alpaca antibody to PARP1 fused to TagGFP2 or TagRFP, as well as the full vector sequence. |
Transfection | Transfection of Chromobody plasmids into mammalian cells can be done with standard DNA-transfection methods, e.g. lipofection (Lipofectamine 2000® from Thermo Fisher Scientific), according to the manufacturer’s protocol for the transfection reagent. Please choose the transfection method that works the best for your cell type. |
Microscopy techniques | Wide-field epifluorescence microscopy; confocal microscopy |
Storage Condition | Shipped at ambient temperature. Store at -20 °C |
Documentation
SDS |
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SDS PARP1--Chromobody® TagGFP plasmid (PDF) |
Datasheet |
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Datasheet PARP1-Chromobody® TagRFP plasmid (PDF) |
Brochure |
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Chromotek nanobodies brochure (PDF) |
Publications
Application | Title |
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Proc Natl Acad Sci U S A Rapid recruitment of p53 to DNA damage sites directs DNA repair choice and integrity. | |
J Cell Sci Local inhibition of rRNA transcription without nucleolar segregation after targeted ion irradiation of the nucleolus. | |
J Biophotonics Chromatin nanoscale compaction in live cells visualized by acceptor-to-donor ratio corrected Förster resonance energy transfer between DNA dyes. |