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The Right Sort

Using the strongest molecular binding partnership in biology to separate different cell types.

By | August 1, 2011

INFOGRAPHIC BY GEORGE RETSECK

Isolating specific cell types from a mass of plant or animal tissue is laborious and tricky. To study epigenetic changes and genes that are expressed differently in different cell lineages—such as cancer cells versus normal cells, or the two types of epidermal cells in Arabidopsis roots—typically requires laser capture microdissection (LCM) or fluorescence-activated cell sorting (FACS). LCM uses a laser and a microscope to literally flip individual cells out of a tissue into a container. It’s like playing tiddlywinks, says Elizabeth Dennis at CSIRO in Canberra, Australia, but you have to flip out a thousand individual cells for each experiment. “It’s a real pain,” she says. Like FACS, it also requires expensive equipment.

Roger Deal and Steven Henikoff from the Fred Hutchinson Cancer Research Center have developed a cheap and easy method, dubbed “isolation of nuclei tagged in specific cell types” (INTACT), which is based on standard genetic techniques and utilizes the strongest known noncovalent binding reaction in biology (and one of the most commonly used)—the binding of the B-complex vitamin biotin to the bacterial protein streptavidin. The isolation requires no special training and uses common lab equipment—a couple of pipettes, a magnet, and streptavidin-coated magnetic beads. Deal is now planning to use the technique to investigate cell differentiation in a variety of plant tissues. (Dev Cell,18:1030-40, 2010; http://bit.ly/celltypebiotin)

STATS TALK
Comparing cell sorting methods: EQUIPMENTCOST EXPERIMENTAL TIME PREPARATION TIME CELL YIELD
Laser Capture Microdissection (LCM) >200,000 US$ 3 days 1–5 days(to prep samples) 10–1,000
Linac CoherentLight Source >400,000 US$ 1–3 hours 1–5 days(to prep samples) >100,000
Isolation ofnuclei taggedin specific cell types (INTACT) 500 US$ 1 hour 2 months(to growtransgenic plants) >100,000

 

 

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Comments

Avatar of: Jeff Frelinger

Anonymous

August 11, 2011

This is a neat idea, but does not isolate cells, but rather nuclei.  further it completely depends on fidelity of the reporter promoter.

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Posts: 0

August 11, 2011

This is a neat idea, but does not isolate cells, but rather nuclei.  further it completely depends on fidelity of the reporter promoter.

Avatar of:

Posts: 0

August 11, 2011

This is a neat idea, but does not isolate cells, but rather nuclei.  further it completely depends on fidelity of the reporter promoter.

Avatar of:

Posts: 0

August 12, 2011

how we can isolate cells ?

Avatar of:

Posts: 0

August 12, 2011

how we can isolate cells ?

Avatar of: Tien

Anonymous

August 12, 2011

how we can isolate cells ?

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