BACKGROUND: Current methods to establish stably transfected cell lines by nonviral techniques involve coselection for a drug selection marker. However, this approach suffers from several drawbacks. We developed a fluorescence-activated cell sorting (FACS)-based protocol for the selection and isolation of stable hematopoietic electrotransfectants without the need for selective growth conditions. METHODS: Leukemic K562 cells were electroporated with the enhanced green fluorescent protein (EGFP) reporter gene and FACsorted to obtain stably EGFP-expressing cells. Stable EGFP(+) clones were established by single-cell sorting. RESULTS: Efficiency of stable EGFP gene expression increased steadily in function of number of consecutive FACsorts. Stable transfectants (>99% EGFP(+)) were obtained after four FACsorts. Furthermore, several single-cell derived clones with variable levels of stable EGFP expression were isolated and cultured without the use of selective growth media. CONCLUSIONS: EGFP is an effective selection marker for the generation and isolation of stably transfected hematopoietic cell clones without the need for selection in toxic media that could create a potentially undesirable stress environment for stably transfected cells. Copyright 2000 Wiley-Liss, Inc.
BACKGROUND: Current methods to establish stably transfected cell lines by nonviral techniques involve coselection for a drug selection marker. However, this approach suffers from several drawbacks. We developed a fluorescence-activated cell sorting (FACS)-based protocol for the selection and isolation of stable hematopoietic electrotransfectants without the need for selective growth conditions. METHODS: Leukemic K562 cells were electroporated with the enhanced green fluorescent protein (EGFP) reporter gene and FACsorted to obtain stably EGFP-expressing cells. Stable EGFP(+) clones were established by single-cell sorting. RESULTS: Efficiency of stable EGFP gene expression increased steadily in function of number of consecutive FACsorts. Stable transfectants (>99% EGFP(+)) were obtained after four FACsorts. Furthermore, several single-cell derived clones with variable levels of stable EGFP expression were isolated and cultured without the use of selective growth media. CONCLUSIONS: EGFP is an effective selection marker for the generation and isolation of stably transfected hematopoietic cell clones without the need for selection in toxic media that could create a potentially undesirable stress environment for stably transfected cells. Copyright 2000 Wiley-Liss, Inc.
Authors: Gils Roex; Diana Campillo-Davo; Donovan Flumens; Philip Anthony Gilbert Shaw; Laurens Krekelbergh; Hans De Reu; Zwi N Berneman; Eva Lion; Sébastien Anguille Journal: J Transl Med Date: 2022-03-14 Impact factor: 5.531
Authors: Mark W Ronsyn; Jasmijn Daans; Gie Spaepen; Shyama Chatterjee; Katrien Vermeulen; Patrick D'Haese; Viggo Fi Van Tendeloo; Eric Van Marck; Dirk Ysebaert; Zwi N Berneman; Philippe G Jorens; Peter Ponsaerts Journal: BMC Biotechnol Date: 2007-12-14 Impact factor: 2.563