Genomic approaches to identifying transcriptional regulators of osteoblast differentiation

Table 1 Transcription factors most abundantly regulated during osteoblast differentiation

Gene	Full name	Fold change
Increased
DGSI	DiGeorge syndrome critical region gene	7.10
ZNF177	Zinc-finger protein 177	5.77
NCOR2	Nuclear receptor co-repressor 2	4.92
CRABP1	Cellular retinoic acid binding protein 1	4.29
IRX2A	Iroquois-class homeobox protein	3.84
NR1H2	Nuclear receptor subfamily 1, group H, member 2	3.65
GATA1	Globin transcription factor 1	3.40
POU2F1	POU domain, class 2, transcription factor 1	3.16
MAD4	Mad4 homolog	3.08
ZNF143	Zinc-finger protein 143 (clone pHZ-1)	3.08
ZNF133	Zinc-finger protein 133 (clone pHZ-13)	3.07
SHOX2	Short stature homeobox 2	3.01
Decreased
MYC	v-Myc homolog	5.00
ZNF6	Zinc-finger protein 6	3.57
CA150	Transcription factor CA150	3.33
TCEB1	Transcription elongation factor B (Elongin C)	3.23

The data are from the microarray study of Qi et al. [12] and fold change describes the relative expression of the given factor in osteoblasts relative to expression in the mesenchymal progenitor cells.

ISSN: 1474-760X