Faculty of Medical and Human Sciences, Manchester Academic Health Science Centre, University of Manchester, Manchester, United Kingdom.
PLoS One. 2013 May 9;8(5):e63160. doi: 10.1371/journal.pone.0063160. Print 2013.
Branchial arches are externally visible tissue bands in the head region of all vertebrate embryos. Although initially formed from similar components, each arch will give rise to different head and neck structures. In a screen designed to characterize the molecular control of branchial arch identity in mouse, we identified Pcp4 as a second branchial arch-specific molecular signature. We further show that the transcription factor Hoxa2 binds to Pcp4 chromatin and regulates Pcp4 expression in the second arch. Hoxa2 is also sufficient to induce Pcp4 expression in anterior first arch cells, which are Pcp4-negative.
鳃弓是所有脊椎动物胚胎头部区域可见的外部组织带。尽管最初是由类似的成分形成的,但每个弓都会产生不同的头部和颈部结构。在一个旨在表征小鼠鳃弓特征的分子控制的筛选中,我们鉴定出 Pcp4 是第二个鳃弓特异性分子特征。我们进一步表明,转录因子 Hoxa2 与 Pcp4 染色质结合,并调节第二弓中的 Pcp4 表达。Hoxa2 也足以诱导前第一弓细胞中 Pcp4 的表达,而前第一弓细胞是 Pcp4 阴性的。