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DNA Damage Atlas |
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DNA Damage Atlas |
Basic Information
Dataset ID:
GSE163912
PMID:
34135108
Technique Type:
LAM-HTGTS
Publication:
Development of β-globin gene correction in human hematopoietic stem cells as a potential durable treatment for sickle cell disease.
First Author:
Annalisa Lattanzi
Last Author:
Matthew H Porteus
Year:
2021
Journal:
Sciene Translational Medicine
Access Link:
Samples ( 6 )
| Sample Name | Cell Line/Tissue | Organism | Treatment | Genotype | In-situ Treatment | Cell Phase | Bait/Targeted Break | Technique | fastqc |
| GSM4990616-RFe003_DPD190_WT_1 | CD34+ HSPCs | Homo sapiens | Resuspended in P3 buffer with complexed Cas9:HBB RNPs + electroporated using the Lonza 4D Nucleofector | / | / | / | / | LAM-HTGTS | |
| GSM4990617-RFe003_DPD190_HiFi_1 | CD34+ HSPCs | Homo sapiens | Resuspended in P3 buffer with complexed Cas9:HBB RNPs + electroporated using the Lonza 4D Nucleofector | / | / | / | HBB | LAM-HTGTS | |
| GSM4990618-RFe003_DPD190_WT_2 | CD34+ HSPCs | Homo sapiens | Resuspended in P3 buffer with complexed Cas9:HBB RNPs + electroporated using the Lonza 4D Nucleofector | / | / | / | / | LAM-HTGTS | |
| GSM4990619-RFe003_DPD190_HiFi_2 | CD34+ HSPCs | Homo sapiens | Resuspended in P3 buffer with complexed Cas9:HBB RNPs + electroporated using the Lonza 4D Nucleofector | / | / | / | HBB | LAM-HTGTS | |
| GSM4990620-RFe003_DPD190_WT_3 | CD34+ HSPCs | Homo sapiens | Resuspended in P3 buffer with complexed Cas9:HBB RNPs + electroporated using the Lonza 4D Nucleofector | / | / | / | / | LAM-HTGTS | |
| GSM4990621-RFe003_DPD190_HiFi_3 | CD34+ HSPCs | Homo sapiens | Resuspended in P3 buffer with complexed Cas9:HBB RNPs + electroporated using the Lonza 4D Nucleofector | / | / | / | HBB | LAM-HTGTS |
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