摘要
Tbx3基因是一类重要的转录因子,在形态发生和器官形成中发挥着重要作用。该文克隆了西伯利亚鲟Tbx3基因(AbTbx3)cDNA的全长序列,该cDNA全长2908bp,包含一个2166bp的开放阅读框,编码721个氨基酸的多肽。分析表明:AbTbx3和人Tbx3的T-box结构域蛋白序列同源性达到95.2%,三维结构也具有高度的相似性。系统进化分析表明:AbTbx3与其他物种的Tbx3聚为一支,并在一个大的分支上与Tbx2聚类。半定量RT-PCR显示,AbTbx3基因从西伯利亚鲟囊胚早期即开始表达,且随着发育表达渐强,至尾芽早期表达量达到最大,随后稍有下降;在成体的眼、脑、鳃、肠、胸鳍和腹鳍中有表达,在肝、血液、心脏、肾和肌肉中均未检测到其表达。整体原位杂交表明,在37期和43期仔鱼的耳泡、后脑、松果体和后部脊索中表达量较高,同时在背鳍芽中也有表达。综上结果表明:西伯利亚鲟Tbx3与人Tbx3在结构上高度同源,在胚胎、仔鱼和成体中呈时空特异性表达。
Tbx3, a member of the TBX2 subfamily ofT-box gene family, encodes a transcription factor with a highly conserved DNA-binding domain, which called T-domain. Tbx3 is involved in morphogenesis and organogenesis in vertebrates, such as limb development, heart remodeling, and neural placode differentiation. In the present study, a full-length 2 908 bp Tbx3 eDNA from Acipenser baerii (AbTbx3) was obtained using RT-PCR and RACE technique, which includes a 2 166 bp complete open reading frame encoding a putative peptide of 721 amino acids. AbTbx3 shares 73.5% identity with its human homolog. Particularly, the DNA-binding domain of AbTbx3 shared 95.2% identity with human Tbx3. Phylogenetic analysis revealed that AbTbx3 was grouped with Tbx3s in other vertebrates, which were clustered with Tbx2s and separated from Tbx4/Ss. The predicted secondary and three-dimensional structures of the T-domain of AbTbx3 were remarkably similar to human Tbx3. Through semi-quantity RT-PCR, the expression of AbTbx3 was first detected at blastula stage during Siberian sturgeon embryonic development, increased gradually, reached its peak at early tail-bud stage and then decreased slightly. In adult sturgeon, AbTbx3 was strongly expressed in eye, brain, gill, intestines, pectoral fin and pelvic fin, but not in liver, blood, heart, kidney and muscle. The whole mount in situ hybridization showed that AbTbx3 was mainly expressed in the otic vesicle, hindbrain, dorsal notochord, pineal organ and dorsal fin bud in the larvae of stage 37 and 43.
基金
国家自然科学基金(30970365)
上海市教育委员会科研创新项目(12YZ129)
上海市重点学科水生生物学建设项目(S30701)
