2020
DOI: 10.1002/cpsc.123
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Methods for Automated Single Cell Isolation and Sub‐Cloning of Human Pluripotent Stem Cells

Abstract: Advances in human pluripotent stem cell (hPSC) techniques have led them to become a widely used and powerful tool for a vast array of applications, including disease modeling, developmental studies, drug discovery and testing, and emerging cell-based therapies. hPSC workflows that require clonal expansion from single cells, such as CRISPR/Cas9-mediated genome editing, face major challenges in terms of efficiency, cost, and precision. Classical subcloning approaches depend on limiting dilution and manual colony… Show more

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Cited by 26 publications
(30 citation statements)
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“…cellenONE® has 2 holders for microplates, which can be used as either a source and/or a target; its ability to automatically and sequentially load one sample after another into the dispenser head makes it an ideal system for high‐throughput, non‐supervised, fully‐automated cloning with very high clonal cell outgrowth rates (https://www.cellenion.com/). Vallone et al successfully used the cellenONE® platform to isolate single‐cell clones with a normal karyotype from a heterogeneous human pluripotent stem cell (hPSC) population 45 …”
Section: Accelerating Single‐cell Cloningmentioning
confidence: 99%
See 1 more Smart Citation
“…cellenONE® has 2 holders for microplates, which can be used as either a source and/or a target; its ability to automatically and sequentially load one sample after another into the dispenser head makes it an ideal system for high‐throughput, non‐supervised, fully‐automated cloning with very high clonal cell outgrowth rates (https://www.cellenion.com/). Vallone et al successfully used the cellenONE® platform to isolate single‐cell clones with a normal karyotype from a heterogeneous human pluripotent stem cell (hPSC) population 45 …”
Section: Accelerating Single‐cell Cloningmentioning
confidence: 99%
“…The single cell‐derived hPSC sub‐clones from each system maintained pluripotency and genetic stability. Among the three instruments, isoCell showed the highest cloning efficiency after the single‐cell deposition step 45 …”
Section: Accelerating Single‐cell Cloningmentioning
confidence: 99%
“…Grids and circuits have now been used for all core cell‐culture methods (e.g., feeding, [ 15 ] replating, [ 15 ] cloning, [ 15,23 ] and cryopreservation) [ 15 ] with organisms ranging from bacteria [ 15 ] through yeast [ 24 ] and worms [ 15 ] to man, [ 14–15,23 ] as well as for drug screening, [ 14–15 ] chemotaxis [ 14 ] plus cell‐wounding assays, [ 25 ] lysis plus RT‐PCR, [ 14 ] transfection plus genome editing, [ 15 ] and fixation plus immunolabeling. [ 15 ] Note that although most of these applications are cell‐based, the general technology can nevertheless be applied wherever small volumes require manipulation.…”
Section: Examples: Cell Cloning and Feedingmentioning
confidence: 99%
“…In brief, small guide RNA (sgRNA) targeting the M2 gene close to the mutation site to be corrected were the transfection we analyzed the bulk population using the Sanger sequencing to estimate the editing efficiency. Thereafter, the automated single cell cloning of the genome edited cell pool was performed as described in protocol 42 . The clones were screened by SANGER sequencing.…”
Section: Quantification Of M2tailmentioning
confidence: 99%