Characterization of Promoter Activities of Four Different Japanese Flounder Promoters in Transgenic Zebrafish

An important consideration in transgenic research is the choice of promoter for regulating the expression of a foreign gene. In this study several tissue-specific and inducible promoters derived from Japanese flounder Paralichthys olivaceus were identified, and their promoter activity was examined in transgenic zebrafish. The 5′ flanking regions of the Japanese flounder complement component C3, gelatinase B, keratin, and tumor necrosis factor (TNF) genes were linked to green fluorescence protein (GFP) as a reporter gene. The promoter regulatory constructs were introduced into fertilized zebrafish eggs. As a result we obtained several stable transgenic zebrafish that displayed green fluorescence in different tissues. Complement component C3 promoter regulated GFP expression in liver, and gelatinase B promoter regulated it in the pectoral fin and gills. Keratin promoter regulated GFP expression in skin and liver. TNF gene promoter regulated GFP expression in the pharynx and heart. TNF promoter had lipoplysaccharide-inducible activity, such that when transgenic embryos were immersed lipopolysaccharide, GFP expression increased in the epithelial tissues. These 4 promoters regulated the expression of GFP in different patterns in transgenic zebrafish.     

An Apo-14 promoter-driven transgenic zebrafish that marks liver organogenesis

Several transgenic zebrafish lines for liver development studies had been obtained in the first decade of this century, but not any transgenic GFP zebrafish lines that mark the through liver development and organogenesis were reported. In this study, we analyzed expression pattern of endogenous Apo-14 in zebrafish embryogenesis by whole-mount in situ hybridization, and revealed its expression in liver primordium and in the following liver development. Subsequently, we isolated zebrafish Apo-14 promoter of 1763 bp 5'-flanking sequence, and developed an Apo-14 promoter-driven transgenic zebrafish Tg(Apo14: GFP). And, maternal expression and post-fertilization translocation of Apo-14 promoter-driven GFP were observed in the transgenic zebrafish line. Moreover, we traced onset expression of Apo-14 promoter-driven GFP and developmental behavior of the expressed cells in early heterozygous embryos by out-crossing the Tg(Apo14: GFP) male to the wild type female. Significantly, the Apo-14 promoter-driven GFP is initially expressed around YSL beneath the embryo body at 10 hpf when the embryos develop to tail bud prominence. In about 14-somite embryos at 16-17 hpf, a typical "salt-and-pepper" expression pattern is clearly observed in YSL around the yolk sac. Then, a green fluorescence dot begins to appear between the notochord and the yolk sac adjacent to otic vesicle at about 20 hpf, which is later demonstrated to be liver primordium that gives rise to liver. Furthermore, we investigated dynamic progression of liver organogenesis in the Tg(Apo14: GFP) zebrafish, because the Apo-14 promoter-driven GFP is sustainably expressed from hepatoblasts and liver progenitor cells in liver primordium to hepatocytes in the larval and adult liver. Additionally, we observed similar morphology between the liver progenitor cells and the GFP-positive nuclei on the YSL, suggesting that they might originate from the same progenitor cells in early embryos. Overall, the current study provides a transgenic zebrafish line that marks the through liver organogenesis.     

斑马鱼一个IFIT 家族基因的鉴定及启动子分析

IFIT 家族由一类受干扰素诱导表达并具有TPR 结构域的蛋白组成, 但是在鱼类关于IFIT 基因的研究还很少。研究利用哺乳类IFIT 家族基因IFI56 的序列搜索斑马鱼基因组数据库鉴定出一个未知基因, 该基因具有哺乳类IFIT 家族保守的基因组结构, 编码蛋白具有保守的TPR 结构域, 暂命名为IFIT-A。RT-PCR 分析表明, Poly I:C 能够诱导IFIT-A 基因转录水平上调。与哺乳类IFIT 家族基因相似, 斑马鱼IFIT-A 启动子存在ISG 基因特有的典型ISRE 结构域。荧光素酶活性实验揭示Poly I:C 和重组IFN 蛋白能激活斑马鱼IFIT-A 启动子活性。此外, 过量表达IFN 调控因子IRF3 和IRF7 能诱导斑马鱼IFIT-A 启动子活性。实验结果证明IFIT-A基因是斑马鱼IFIT 家族成员, IRF3 和IRF7 在其诱导表中具有重要调控作用。       

503unc,a small and muscle‐specific zebrafish promoter

The muscle‐specific UNC‐45b assists in the folding of sarcomeric myosin. Analysis of the zebrafish unc‐45b upstream region revealed that unc‐45b promoter fragments reliably drive GFP expression after germline transmission. The muscle‐specific 503‐bp minimal promoter 503unc was identified to drive gene expression in the zebrafish musculature. In transgenic Tg(?503unc:GFP) zebrafish, GFP fluorescence was detected in the adaxial cells, their slow fiber descendants, and the fast muscle. At later stages, robust GFP fluorescence is eminent in the cardiac, cranial, fin, and trunk muscle, thereby recapitulating the unc‐45b expression pattern. We propose that the 503unc promoter is a small and muscle‐specific promoter that drives robust gene expression throughout the zebrafish musculature, making it a valuable tool for the exploration of zebrafish muscle. genesis 51:443–447. © 2013 Wiley Periodicals, Inc.     

Transgenic zebrafish recapitulating tbx16 gene early developmental expression

We describe the creation of a transgenic zebrafish expressing GFP driven by a 7.5 kb promoter region of the tbx16 gene. This promoter segment is sufficient to recapitulate early embryonic expression of endogenous tbx16 in the presomitic mesoderm, the polster and, subsequently, in the hatching gland. Expression of GFP in the transgenic lines later in development diverges to some extent from endogenous tbx16 expression with the serendipitous result that one line expresses GFP specifically in commissural primary ascending (CoPA) interneurons of the developing spinal cord. Using this line we demonstrate that the gene mafba (valentino) is expressed in CoPA interneurons.