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转基因视黄酸感受器系斑马鱼显示胚胎视黄酸的可用区域。

Transgenic retinoic acid sensor lines in zebrafish indicate regions of available embryonic retinoic acid.

机构信息

The Heart Institute, Molecular Cardiovascular Biology Division and Development Biology Division, Cincinnati Children's Hospital Medical Center, Cincinnati, OH 45229, USA.

出版信息

Dev Dyn. 2013 Aug;242(8):989-1000. doi: 10.1002/dvdy.23987. Epub 2013 Jun 18.

DOI:10.1002/dvdy.23987
PMID:23703807
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3771353/
Abstract

BACKGROUND

Retinoic acid (RA) signaling plays a critical role in vertebrate development. Transcriptional reporters of RA signaling in zebrafish, thus far, have not reflected the broader availability of embryonic RA, necessitating additional tools to enhance our understanding of the spatial and temporal activity of RA signaling in vivo.

RESULTS

We have generated novel transgenic RA sensors in which a RA receptor (RAR) ligand-binding domain (RLBD) is fused to the Gal4 DNA-binding domain (GDBD) or a VP16-GDBD (VPBD) construct. Stable transgenic lines expressing these proteins when crossed with UAS reporter lines are responsive to RA. Interestingly, the VPBD RA sensor is significantly more sensitive than the GDBD sensor and demonstrates there may be almost ubiquitous availability of RA within the early embryo. Using confocal microscopy to compare the expression of the GDBD RA sensor to our previously established RA signaling transcriptional reporter line, Tg(12XRARE:EGFP), illustrates these reporters have significant overlap, but that expression from the RA sensor is much broader. We also identify previously unreported domains of expression for the Tg(12XRARE:EGFP) line.

CONCLUSIONS

Our novel RA sensor lines will be useful and complementary tools for studying RA signaling during development and anatomical structures independent of RA signaling.

摘要

背景

视黄酸(RA)信号在脊椎动物发育中起着关键作用。迄今为止,斑马鱼中 RA 信号的转录报告器尚未反映出胚胎 RA 的更广泛可用性,因此需要额外的工具来增强我们对 RA 信号在体内时空活性的理解。

结果

我们已经生成了新型的转基因 RA 传感器,其中视黄酸受体(RAR)配体结合域(RLBD)融合到 Gal4 DNA 结合域(GDBD)或 VP16-GDBD(VPBD)构建体中。当这些蛋白与 UAS 报告基因系杂交时,稳定的转基因系表达这些蛋白对 RA 有反应。有趣的是,VPBD RA 传感器比 GDBD 传感器灵敏得多,表明 RA 在早期胚胎中几乎普遍存在。使用共聚焦显微镜比较 GDBD RA 传感器的表达与我们之前建立的 RA 信号转录报告基因系 Tg(12XRARE:EGFP),表明这些报告基因有显著的重叠,但 RA 传感器的表达范围要广泛得多。我们还确定了 Tg(12XRARE:EGFP)系以前未报道的表达区域。

结论

我们的新型 RA 传感器系将成为研究发育过程中 RA 信号以及独立于 RA 信号的解剖结构的有用且互补的工具。

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