Figure 1: ESCs deficient in REST retain stem cell characteristics.

a, Genetic alterations to the Rest locus analysed here (phosphoglycerate kinase 1-neomycin resistance gene (Pgk-Neo) insertion⁷) and by Singh et al.⁶ (-geo-stop insertions in the gene trap ESC lines RRC and YHC). Rectangles represent exons; coding regions are in black. b, REST, Oct4 and lamin B protein levels in wild-type (+/+), homozygous (-/-) and heterozygous (+/-) Rest ESC lysates, and (marked by an asterisk) in wild-type ESCs transfected with siRNA or shRNA constructs targeting Rest (siRest and shRest) or a control sequence (siCtrl and shCtrl). c, Chromatin immunoprecipitation of Rest^+/+ (black), Rest^+/- (grey) and Rest^-/- (white) ESCs using anti-REST (left panel) and anti-Ezh2 (right panel) versus control antibody (immunoglobulin G, IgG). REST binds SG38457 (also known as Fam70b) and Syt4 (which both contain a RE1 motif) but not Math1 (also known as Atoh1; RE1-negative). No significant binding of REST was detected in Rest^-/- ESCs. Ezh2-binding at Math1 (ref. 10) confirmed that chromatin fragments were intact. Error bars represent the standard deviation of three experiments. d, Alkaline phosphatase (AP) activity of mutant ESCs (percentage AP-positive colonies standard deviation). e, REST, Oct4 and lamin B protein levels in two additional Rest^+/- (D05 and F12) and three wild-type ESC lysates. f, Transcript levels in D05 (dark grey), F12 (light grey) and wild-type (black) ESCs are shown (and, for comparison, retinoic-acid-treated embryoid bodies (white)) relative to wild type. Values were normalized to housekeeping genes and error bars show standard deviation of 4–6 experiments.