ENCBS381AAA / cell line

Summary

Status
released
Term name
K562
Summary
Homo sapiens K562 cell line stably expressing C-terminal eGFP-tagged ETS2
Description
K562 cell line stably expressing a C-terminal LAP-tag containing eGFP, fused to ETS2
Culture start date
2012-11-28
Culture harvest date
2013-01-20
Passage number
4

Attribution

ENCODE3 project
Lab
Kevin White, UChicago
Award PI
Michael Snyder, Stanford
Submitted by
Jay Rehm
Project
ENCODE
Aliases
kevin-white:ETS2_GFP_1
Submitter comment
Biorep1

Genetic modifications

Accession
Category
Purpose
Method
Nucleic acid delivery method
Site
ENCGM144WJAinsertiontaggingstable transfection

Donor information

Status
released
Accession
ENCDO000AAD
Aliases
encode:donor of K562, bradley-bernstein:Donor of K562 cells
Species
Homo sapiens
Life stage
adult
Age
53 years
Sex
female
Health status
chronic myelogenous leukemia (CML)
External resources
References

Documents

immunoblot
Caption: immunoblot of GFP tagged ETS2, expressed in K562 cells
Attachment from submitter
Submitted by
Alec Victorsen
Lab
Kevin White, UChicago
immunoblot
Caption excerpt: Western blot analysis of nuclear lysates prepared from a K562 stable cell line…
Attachment from submitter
Caption
Western blot analysis of nuclear lysates prepared from a K562 stable cell line expressin eGFP-ETS2 using the Roche anti-GFP 11814450001 antibody. The expected MW is 86.53kDa.
Submitted by
Mark Murphy
Lab
Kevin White, UChicago
transfection protocol
Description: UChicago IGSB ENCODE K562 Transfection Protocol March 5, 2013
Submitted by
Jay Rehm
Lab
Kevin White, UChicago
FACs analysis
Caption excerpt: eGFP-ETS2 tagged cells were stained with a nuclear dye and sorted by FACS.…
Attachment from submitter
Caption
eGFP-ETS2 tagged cells were stained with a nuclear dye and sorted by FACS. Intensities in the GFP channel are on the x-axis, nuclear stain on the y-axis. The boxed regions define a range of intensities in both channels corresponding to GFP+ and GFP++ for the high GFP and highest GFP expression cell populations, respectively. 1406 cells were counted in total, with 0.21% in the GFP+ region and 0.07% in the GFP++ regions respectively. The cells in these regions were further counted for GFP and nuclear signal colocalization and reported as a percentage of GFP+ and GFP++ cells localized to the nucleus: 0.28%. This enriched stable cell line population is then isolated, expanded and stored as frozen aliquots for downstream experiments.
Submitted by
Jay Rehm
Lab
Kevin White, UChicago
FACs analysis
Caption: eGFP-ETS2 tagged cells were stained with a nuclear dye and sorted by FACS.
Attachment from submitter
Submitted by
Jay Rehm
Lab
Kevin White, UChicago
FACs analysis
Caption: eGFP-ETS2 tagged cells were stained with a nuclear dye and sorted by FACS.
Attachment from submitter
Submitted by
Jay Rehm
Lab
Kevin White, UChicago
immunoblot
Caption excerpt: Western blot analysis of nuclear lysates prepared from a K562 stable cell line…
Attachment from submitter
Caption
Western blot analysis of nuclear lysates prepared from a K562 stable cell line expressing eGFP-ETS2 using the Roche anti-GFP 11814450001 antibody. The expected MW is 87kDa.
Submitted by
Jay Rehm
Lab
Kevin White, UChicago
FACs analysis
Caption excerpt: eGFP-ETS2 tagged cells were stained with a nuclear dye, Vybrant DyeCycle Ruby…
Attachment from submitter
Caption
eGFP-ETS2 tagged cells were stained with a nuclear dye, Vybrant DyeCycle Ruby Stain from Life technologies, and sorted by FACS. Shown are the cells from the GFP+ fraction quantified for their GFP and nuclear signal colocalization.
Submitted by
Mark Murphy
Lab
Kevin White, UChicago
FACs analysis
Caption excerpt: eGFP-ETS2 tagged cells were stained with a nuclear dye, Vybrant DyeCycle Ruby…
Attachment from submitter
Caption
eGFP-ETS2 tagged cells were stained with a nuclear dye, Vybrant DyeCycle Ruby Stain from Life technologies, and sorted by FACS. Shown are the cells from the GFP+ fraction quantified for their GFP and nuclear signal colocalization.
Submitted by
Alec Victorsen
Lab
Kevin White, UChicago
FACs analysis
Caption excerpt: eGFP-ETS2 tagged cells were stained with a nuclear dye, Vybrant DyeCycle Ruby…
Attachment from submitter
Caption
eGFP-ETS2 tagged cells were stained with a nuclear dye, Vybrant DyeCycle Ruby Stain from Life technologies, and sorted by FACS. Shown are the cells from the GFP++ fraction quantified for their GFP and nuclear signal colocalization.
Submitted by
Mark Murphy
Lab
Kevin White, UChicago
FACs analysis
Caption excerpt: eGFP-ETS2 tagged cells were stained with a nuclear dye, Vybrant DyeCycle Ruby…
Attachment from submitter
Caption
eGFP-ETS2 tagged cells were stained with a nuclear dye, Vybrant DyeCycle Ruby Stain from Life technologies, and sorted by FACS. Shown are the cells from the GFP++ fraction quantified for their GFP and nuclear signal colocalization.
Submitted by
Alec Victorsen
Lab
Kevin White, UChicago
FACs analysis
Caption excerpt: eGFP-ETS2 tagged cells were stained with a nuclear dye, Vybrant DyeCycle Ruby…
Attachment from submitter
Caption
eGFP-ETS2 tagged cells were stained with a nuclear dye, Vybrant DyeCycle Ruby Stain from Life technologies, and sorted by FACS. Shown are the cells from the GFP+ fraction quantified for their GFP and nuclear signal colocalization.
Submitted by
Alec Victorsen
Lab
Kevin White, UChicago
FACs analysis
Caption excerpt: eGFP-ETS2 tagged cells were stained with a nuclear dye, Vybrant DyeCycle Ruby…
Attachment from submitter
Caption
eGFP-ETS2 tagged cells were stained with a nuclear dye, Vybrant DyeCycle Ruby Stain from Life technologies, and sorted by FACS. Shown are the cells from the GFP+ fraction quantified for their GFP and nuclear signal colocalization.
Submitted by
Mark Murphy
Lab
Kevin White, UChicago