Expression of the zinc finger Egr1 gene during zebrafish embryonic development

Egr1 is a highly conserved zinc finger protein which plays important roles in many aspects of vertebrate development and in the adult. The cDNA coding for zebrafish Egr1 was obtained and its expression pattern was examined during zebrafish embryogenesis using whole-mount in situ hybridization. Egr1 mRNA is first detected in adaxial cells in the presomitic mesoderm between 11 and 20 h post-fertilization (hpf), spanning the 4-24 somite stages. Later, Egr1 expression is observed only in specific brain areas, starting at 21 hpf and subsequently increasing in distinct domains of the central nervous system, e.g. in the telencephalon, diencephalon and hypothalamus. Between 24 and 48 hpf, Egr1 is expressed in specific domains of the hypothalamus, mesencephalon, tegmentum, pharynx, retina, otic vesicle and heart.     

Cascade effect of cardiac myogenesis gene expression during cardiac looping in <Emphasis Type="Italic">tbx5</Emphasis> knockdown zebrafish embryos

Zebrafish tbx5 expresses in the heart, pectoral fins and eyes of zebrafish during embryonic development. In zebrafish, injection of tbx5 morpholino antisense RNA caused changes of heart conformation, defect of heart looping, pericardium effusion, dropsy of ventral position and decreased heart rate. We suggested that cardiac myogenesis genes might be responsible for this phenomenon. Morpholino antisense RNA which against the initiation site of tbx5 gene was designed in order to knockdown the expression of tbx5, and the results were analyzed by whole-mount in situ hybridization and quantitative real-time PCR. Expression of cardiac myogenesis genes amhc, vmhc and cmlc2 were expressed constantly at the early embryonic development and reached its highest rate right before cardiac looping initiated. These cardiac myogenesis genes showed insufficient expressions within different heart defect embryos. Moreover, vmhc showed ectopic expression in addition to heart looping defect in heart defective embryos at 36 hpf. Our data suggests that the heart failure caused by the knockdown of tbx5 gene might result from the down-regulation of cardiac myogenesis genes. Jen Her Lu and Jenn Kan Lu contributed equally to this work.     

TBX1, a DiGeorge syndrome candidate gene, is inhibited by retinoic acid

Both retinoic acid (RA) and Tbx1 are definitively indispensable for the development of the pharyngeal arches. The defects produced by a loss of Tbx1 highly resemble those induced by hyper- and hypo-RA. Based on these similarities, the effects of RA on Tbx1 expression pattern were explored during pharyngeal arch development in zebrafish. Whole-mount in situ hybridization and real-time quantitative PCR were used. Zebrafish embryos were treated with 5 x 10(-8)mol/L and 10(-7)mol/L RA at 12.5 hours post fertilization for 1.5 hours, respectively. Whole-mount in situ hybridization showed that Tbx1 was expressed in the cardiac region, pharyngeal arch and otic vesicle between 24 hpf and 72 hpf in zebrafish. Tbx1 expression was obviously reduced, even lost, in the pharyngeal arch and outflow tract in RA treated groups. Real-time quantitative PCR analysis showed that Tbx1 expression rose to a peak level at 36 hpf in wild type group. Repression of Tbx1 expression was most evident at 36 hpf, 24 hours after RA treatment. 10(-7 )mol/L RA caused a more severe effect on the Tbx1 expression level than 5 x 10(-8)mol/L RA.The results suggested that RA could produce an altered Tbx1 expression pattern in zebrafish. In addition, RA could repress Tbx1 expression in a dose-dependent manner.     

Expression of isotocin-neurophysin mRNA in developing zebrafish

Neurohypophysial peptides are important regulators of homeostasis, reproduction and behavior. We have sequenced a zebrafish cDNA representing isotocin-neurophysin (IT-NP) mRNA. The developmental expression pattern of zebrafish IT-NP mRNA was determined by whole-mount in situ hybridization histochemistry. At 32 h post fertilization (hpf) no IT-NP mRNA is detected. However, by 36 hpf, staining for IT-NP mRNA is detected in a tight bilateral cluster of cells located in the anterior hypothalamus. The IT-NP mRNA expression pattern remains remarkably stable throughout further development at least until 120 hpf.     

Expression and characterization of a brain-specific protein kinase BSK146 from zebrafish

We have previously identified a novel protein kinase, pk146, in the brain of Tetraodon. In the present study, we cloned the homologous protein kinase gene encoding a protein of 385 amino acid residues from zebrafish. The overall amino acid sequence and the kinase domain of zebrafish BSK146 shows 48% and 69% identity to that of rat sbk, a SH3-containing serine/threonine protein kinase. By whole-mount in situ hybridization and RT-PCR, the expression of bsk146 mRNA was mainly in the brain. To explore the in vivo function of BSK146 during zebrafish development, we used morpholino knockdown approach and found that BSK146 morphants displayed enlarged hindbrain ventricle and smaller eyes. Whole-mount in situ hybridization was further performed to analyze the brain defects in BSK146-MO-injected embryos. The expression of brain-specific markers, such as otx2, pax2.1, and krox20, was found normal in morphant embryos at 24hpf, while expression of pax2.1 exerted changes in midbrain-hindbrain boundary and hindbrain in morphant embryos at 48hpf. These data suggest that BSK146 may play an important role in later ventricle expansion in zebrafish brain development. Although the recombinant BSK146 protein produced in insect cells was active and could phosphorylate both histone H1 and histone 2B, the endogenous substrate of BSK146 in the embryonic brain of zebrafish is not clear at the present time and needs further investigation.     

Expression of sclerostin in the developing zebrafish (Danio rerio) brain and skeleton

Sclerostin is a highly conserved, secreted, cystine-knot protein which regulates osteoblast function. Humans with mutations in the sclerostin gene (SOST), manifest increased axial and appendicular skeletal bone density with attendant complications. In adult bone, sclerostin is expressed in osteocytes and osteoblasts. Danio rerio sclerostin-like protein is closely related to sea bass sclerostin, and is related to chicken and mammalian sclerostins. Little is known about the expression of sclerostin in early developing skeletal or extra-skeletal tissues. We assessed sclerostin (sost) gene expression in developing zebrafish (D. rerio) embryos with whole mount is situ hybridization methods. The earliest expression of sost mRNA was noted during 12h post-fertilization (hpf). At 15hpf, sost mRNA was detected in the developing nervous system and in Kupffer's vesicle. At 18, 20 and 22hpf, expression in rhombic lip precursors was seen. By 24hpf, expression in the upper and lower rhombic lip and developing spinal cord was noted. Expression in the rhombic lip and spinal cord persisted through 28hpf and then diminished in intensity through 44hpf. At 28hpf, sost expression was noted in developing pharyngeal cartilage; expression in pharyngeal cartilage increased with time. By 48hpf, sost mRNA was clearly detected in the developing pharyngeal arch cartilage. Sost mRNA was abundantly expressed in the pharyngeal arch cartilage, and in developing pectoral fins, 72, 96 and 120hpf. Our study is the first detailed analysis of sost gene expression in early metazoan development.     

Embryonic stages from cleavage to gastrula in the loach Misgurnus anguillicaudatus

Early developmental staging from the zygote stage to the gastrula is a basic step for studying embryonic development and biotechnology. We described the early embryonic development of the loach, Misgurnus anguillicaudatus, based on morphological features and gene expression. Synchronous cleavage was repeated for 9 cycles about every 27 min at 20 degrees C after the first cleavage. After the 10th synchronous cleavage, asynchronous cleavage was observed 5.5 h post-fertilization (hpf), indicating the mid-blastula transition. The yolk syncytial layer (YSL) was formed at this time. Expressions of goosecoid and no tail were detected by whole-mount in situ hybridization from 6 hpf. This time corresponded to the late-blastula period. Thereafter, epiboly started and a blastoderm covered over the yolk cell at 8 hpf. At 10 hpf, the germ ring and the embryonic shield were formed, indicating the stage of early gastrula. Afterward, the epiboly advanced at the rate of 10% of the yolk cell each hour. The blastoderm covered the yolk cell completely at 15 hpf. The embryonic development of the loach resembled that of the zebrafish in terms of morphological change and gene expression. Therefore, it is possible that knowledge of the developmental stages of the zebrafish might be applicable to the loach.     

微小染色体维系蛋白3基因在斑马鱼早期胚胎发育过程中的表达

目的:制备地高辛标记的微小染色体维系蛋白3(MCM3)基因的RNA探针,研究MCM3在斑马鱼早期发育中的时空表达。方法:收集并固定受精后24 h时期的野生型斑马鱼胚胎,提取总RNA,制备DIG标记的MCM3 RNA反义探针,整胚原位杂交,研究MCM3在斑马鱼胚胎早期发育过程的表达。结果:斑马鱼的MCM3氨基酸序列与小鼠、人具有高度同源性,通过不同时期胚胎的原位杂交,发现MCM3在早期发育过程中普遍性表达,胚胎受精后0~2 hMCM3在增殖性区域泛表达,受精后14~22 h在中枢神经系统、发育未成熟的眼部、体节及增殖性区域表达,受精后24 h在血液、中枢神经、翼板中脑、视觉盖及增殖性区域表达,受精后48 h在头部及肛门增殖性区域表达。结论:明确了MCM3在斑马鱼胚胎发育过程中的表达模式,证明其与早期斑马鱼发育细胞增殖密切相关,为研究该基因功能提供了一定的理论基础。     

斑马鱼整体原位杂交法研究MMP15a的发育相关表达的初步观察

克隆斑马鱼基质金属蛋白酶15a（MMP15a）基因,并研究其在斑马鱼胚胎早期发育中的时空表达状况。收集不同发育时期的斑马鱼胚胎,制备DIG标记的MMP15a RNA探针,采用全胚胎原位杂交方法研究MMP15a基因在胚胎斑马鱼的表达。结果MMP15a基因在胚胎受精后一个细胞时期就开始表达,从受精后24h起,在眼睛处表达明显,从受精后48h MMP15a在胸鳍和耳囊有特异性表达至到受精后96h。MMP15a在斑马鱼胚胎发育不同时期表达明显,且在胸鳍和耳囊处有持续表达。     

Tbx1基因功能下调影响斑马鱼Tbx20和Tbx2表达

目的采用吗啡啉修饰反义寡核苷酸显微注射方法下调斑马鱼Tbx1基因表达,研究斑马鱼Tbx1基因功能下调对其他两个T盒基因Tbx20和Tbx2表达的影响。方法采用吗啡啉修饰的反义寡核苷酸显微注射方法抑制斑马鱼Tbx1基因表达,分别将2.5、5、8、10 ng吗啡啉反义寡核苷酸在斑马鱼0-4细胞期注入胚胎,并构建Tbx20,骨形成蛋白2b（Bmp2b）和Tbx2反义RNA探针,进行整体原位杂交,观察Tbx1基因下调对Tbx20、Bmp2b及Tbx2表达的影响。结果Tbx1吗啡啉寡核苷酸显微注射组胚胎表现出鳃弓、耳囊、心血管系统和胸腺的发育异常。Tbx1基因下调导致Tbx20的表达出现改变,Tbx20在心脏的表达与对照组相比明显下调,神经元的表达范围明显缩小;Tbx1基因功能下调会导致Bmp2b在心脏和咽囊的表达减低,Bmp2b在后部咽囊的表达较前部咽囊减低得更为明显;Tbx1基因功能下调胚胎,Tbx2在鳃弓的表达模式发生改变,48 hpf,Tbx2在鳃弓的表达出现从后向前逐渐减低,鳃弓的表达范围较对照组明显缩小。结论Tbx1在发育过程中,会对其他T盒基因,如Tbx20和Tbx2具有激活或抑制的调控作用。Tbx1对Tbx20的作用可能是通过影响Bmp2b的途径,继发地影响Tbx20的表达。Tbx1基因功能下调,会改变Tbx2在鳃弓的表达模式。     

斑马鱼akt3 基因的克隆及其表达图谱与过表达分析

采用RT-PCR 和RACE 相结合的方法, 克隆得到了斑马鱼的akt3/pkb 基因, 其cDNA 全长为2874 bp,编码479 个氨基酸。斑马鱼akt3 具有akt 家族成员间保守的PH 结构域、催化活性结构域和调节结构域以及两个保守的磷酸化位点Thr305 和Ser472。与已发表的人、大鼠、小鼠的akt3 氨基酸序列比较, 相似性分别为95.8%、94.7%和95.4%。对斑马鱼早期胚胎进行RT-PCR 检测显示, akt3 在0-4hpf(hours post fertilization)含量水平较高, 6hpf 到12hpf 降低至较低水平, 16hpf 后表达量开始逐渐上升, 60hpf 至96hpf 则稳定在较高水平。原位杂交结果表明: akt3 在2hpf 至96hpf 的胚胎中整体都有表达, 没有组织特异性。在成鱼中, 除鳃部外, akt3 在所检测的其他各组织器官中均有表达, 在脑部和卵巢表达量较高; 利用显微注射持续表达myr-akt3 mRNA 研究其功能充分性时结果显示, 过量表达斑马鱼akt3 mRNA 能使斑马鱼胚胎发育滞后且伴随着尾部短粗、体节模糊、尾末端膨大甚至严重缩短等不同程度畸形。而在斑马鱼myr-akt3 注射组发育至24hpf 时观察(以排除akt3 造成的发育延迟的影响), 发现注射过akt3 的斑马鱼胚胎的脑部厚度较对照组显著增大, 表明akt3 对斑马鱼胚胎脑部尺寸发育有影响。       

斑马鱼HO1基因的表达特征及功能研究

实验对血红素加氧酶1（HO1）在斑马鱼发育中的功能进行了研究。多重序列比对结果显示,斑马鱼HO1与哺乳类、鸟类及其他鱼类的HO1氨基酸序列的总体相似性为44.1%86.8%,血红素结合标签相似性为87.5%95.8%。对斑马鱼早期胚胎和成鱼各组织进行RT-PCR检测,结果显示HO1转录本母源存在,HO1 mRNA的表达水平在尾芽期前较低,到咽囊期迅速上升并稳定在较高水平。HO1基因在斑马鱼成鱼多个组织中均有表达,在肝脏、脾、鳃、肾中的表达量较高。WISH结果显示,HO1基因在斑马鱼胚胎的卵黄合胞层、眼和血液中的表达量较高。利用超表达和基因敲降技术发现,注射HO1 mRNA使HO1基因过表达对斑马鱼早期胚胎发育无明显影响。注射HO1 MO使HO1基因表达抑制可导致斑马鱼胚胎出现发育迟缓、围心腔水肿、尾部消失等不同程度的畸形。HO1 MO导致的斑马鱼胚胎发育异常可被HO1 mRNA回复。利用Real-Time PCR研究发现,HO1基因表达抑制可导致IGF1表达量显著下降,IGFBP1表达量显著升高。这些结果表明斑马鱼HO1基因可通过调节IGF信号途径调控胚胎的正常发育。