Nucleotide sequence of cDNA clones coding for a brain-type fatty acid binding protein and its tissue-specific expression in adult zebrafish (Danio rerio)

We have determined the nucleotide sequence for two cDNA clones coding for a fatty acid binding protein (FABP) from zebrafish (Danio rerio). Comparison of the sequence with GenBank entries revealed extensive amino acid identity between this zebrafish FABP and brain FABPs (B-FABP) from other species. The zebrafish B-FABP cDNA hybridized to single restriction fragments of total zebrafish genomic DNA digested with the restriction endonucleases BglII or EcoRI suggesting that a single copy of the B-FABP gene is present in the zebrafish genome. Northern blot analysis demonstrated that the zebrafish B-FABP mRNA is approximately 850 nucleotides in length. In situ hybridization revealed that the B-FABP mRNA was expressed in the periventricular gray zone of the optic tectum of the adult zebrafish brain.     

Evolution of danio pigment pattern development

Pigment patterns of danio fishes are emerging as a useful system for studying the evolution of developmental mechanisms underlying adult form. Different closely related species within the genera Danio and Devario exhibit a range of pigment patterns including horizontal stripes, vertical bars, and others. In this review, I summarize recent work identifying the genetic and cellular bases for adult pigment pattern formation in the zebrafish Danio rerio, as well as studies of how these mechanisms have evolved in other danios. Together, these analyses highlight the importance of latent precursors at post-embrynoic stages, as well as interactions within and among pigment cell classes, for both pigment pattern development and evolution.     

鲫Kaiso基因cDNA的克隆和表达分析

在爪蟾和斑马鱼中, Kaiso是一种在整个基因组范围内与甲基化CpG序列特异性结合的转录抑制因子, 在调控被甲基化基因表达的时间模式中起重要的作用。为深入研究DNA甲基化对我国重要养殖鱼类生殖和发育的影响, 我们克隆了鲫Kaiso基因的cDNA序列, 并对其时空表达模式进行了分析。该cDNA全长3145 bp, 5′-非翻译区132 bp, 3′-非翻译区1117 bp, 开放阅读框1896 bp, 编码631个氨基酸。鲫Kaiso蛋白与其他物种Kaiso蛋白的同源性分析表明, 与其他物种一样, 其 N端和C端分别有高保守性的BTB/POZ结构域和锌指结构域。整胚原位杂交结果显示, Kaiso mRNA在早期胚胎发育的各个时期均广泛表达, 信号均一, 但从尾芽期开始出现组织特异性表达差异。对不同发育阶段胚胎的实时定量PCR检测结果表明: 卵子中有高丰度的母源Kaiso mRNA存在; 在卵裂期至囊胚中期胚胎中Kaiso mRNA的丰度逐渐降低; 从囊胚中期至原肠早期都维持在最低水平状态; 原肠后期其表达水平又逐渐升高, 至尾芽期达到与未受精卵中相当的高水平后在器官发生期的整体水平又稍有下降。Kaiso mRNA丰度在胚胎发育早期的这种变化过程提示在卵裂期检测到的mRNA可能都是母源mRNA, 合子核Kaiso基因可能是在囊胚晚期后才开始转录。对成体不同组织的实时定量PCR检测结果表明Kaiso的表达存在明显的组织特异性差异, 在鲫肌肉、视网膜、心脏和脑中表达水平较高, 而在肾、胰、肝等器官中表达水平很低。Kaiso表达的时间和组织特异性提示其作为甲基化基因的转录抑制因子参与了胚胎和成体基因表达时空模式的调控。这些结果为进一步研究Kaiso和DNA甲基化修饰在鲫发育调控和遗传育种中的作用提供了基础资料。     

Deconstructing evolution of adult phenotypes: genetic analyses of kit reveal homology and evolutionary novelty during adult pigment pattern development of Danio fishes

The cellular bases for evolutionary changes in adult form remain largely unknown. Pigment patterns of Danio fishes are a convenient system for studying these issues because of their diversity and accessibility and because one species, the zebrafish D. rerio, is a model organism for biomedical research. Previous studies have shown that in zebrafish, stripes form by migration and differentiation of distinct populations of melanophores: early metamorphic (EM) melanophores arise widely dispersed and then migrate into stripes, whereas late metamorphic (LM) melanophores arise already within stripes. EM melanophores require the kit receptor tyrosine kinase, as kit mutants lack these cells but retain LM melanophores, which form a residual stripe pattern. To see if similar cell populations and genetic requirements are present in other species, we examined D. albolineatus, which has relatively few, nearly uniform melanophores. We isolated a D. albolineatus kit mutant and asked whether residual, LM melanophores develop in this species, as in D. rerio. We found that kit mutant D. albolineatus lack EM melanophores, yet retain LM melanophores. Histological analyses further show that kit functions during a late step in metamorphic melanophore development in both species. Interestingly, kit mutant D. albolineatus develop a striped melanophore pattern similar to kit mutant D. rerio, revealing latent stripe-forming potential in this species, despite its normally uniform pattern. Comparisons of wild types and kit mutants of the two species further show that species differences in pigment pattern reflect: (1) changes in the behavior of kit-dependent EM melanophores that arise in a dispersed pattern and then migrate into stripes in D. rerio, but fail to migrate in D. albolineatus; and (2) a change in the number of kit-independent LM melanophores that arise already in stripes and are numerous in D. rerio, but few in D. albolineatus. Our results show how genetic analyses of a species closely related to a biomedical model organism can reveal both conservatism and innovation in developmental mechanisms underlying evolutionary changes in adult form.     

Expression patterns of Slit and Robo family members during vertebrate limb development

Cell interactions involving Notch signaling are required for the demarcation of tissue boundaries in both invertebrate and vertebrate development. Members of the Fringe gene family encode beta-1,3 N-acetyl-glucosaminyltransferases that function to refine the spatial localization of Notch-receptor signaling to tissue boundaries. In this paper we describe the isolation and characterization of the zebrafish (Danio rerio) homologue of the lunatic fringe gene (lfng). Zebrafish lfng is generally expressed in equivalent structures to those reported for the homologous chick and mouse genes. These sites include expression along the A-P axis of the neural tube, within the lateral plate mesoderm, in the presomitic mesoderm and the somites and in specific rhombomeres of the hindbrain; however, within these general expression domains species-specific differences in lfng expression exist. In mouse, Lfng is expressed in odd-numbered rhombomeres, whereas in zebrafish, expression occurs in even-numbered rhombomeres. In contrast to reports in both mouse and chicken embryos showing a kinematic cyclical expression of Lfng mRNA in the presomitic paraxial mesoderm, we find no evidence for a cyclic pattern of expression for the zebrafish lfng gene; instead, the zebrafish lfng is expressed in two static stripes within the presomitic mesoderm. Nevertheless, in zebrafish mutants affecting the correct formation of segment boundaries in the hindbrain and somites, lfng expression is aberrant or lost.     

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。       

稀有鮈鲫脑芳香化酶cDNA片段的克隆与表达分析

芳香化酶（P450arom）是雌激素合成过程中的关键酶,在性别分化中起重要作用。鱼类存在卵巢性和脑型两种芳香化酶,分别由Cyp19a和Cyp19b编码。稀有鮈鲫作为我国特有的实验动物,尚无其芳香化酶的有关资料,其性别分化机制亦不清楚。本研究采用RT-PCR的方法以简并引物扩增了稀有鮈鲫脑型芳香化酶基因Cyp19b的部分序列,其长度为1070 bp, 编码357个氨基酸残基,具有典型的芳香化酶结构域。RT-PCR分析发现该基因主要在稀有鮈鲫的脑中表达,在性腺、肠、肾中也有表达;其在雌、雄脑中的表达差异不显著。在胚胎发育阶段,Cyp19b的表达从囊胚期开始,至神经胚期达到较高水平,随后下降,孵化期又有所增强,孵化10天后维持在高水平。这些结果说明Cyp19b以脑中表达为主,可能在稀有鮈鲫神经系统发育和脑的性别分化中有重要作用。     

sept8a and sept8b mRNA expression in the developing and adult zebrafish

Septins are highly conserved GTP-binding proteins involved in numerous cellular processes. Despite a growing awareness of their roles in the cell biology, development and signal transmission in nervous systems, comparably little is known about precise septin expression. Here, we use the well-established model organism zebrafish (Danio rerio) to unravel the expression of sept8a and sept8b, with special focus on the CNS. We performed whole mount RNA in situ hybridization on zebrafish 1–4 dpf in combination with serial sectioning of epon-embedded samples as well as on brain sections of adult zebrafish to obtain precise histological mapping of gene expression. Our results show a common expression of both genes at embryonic stages, whereas sept8a is mainly restricted to the gill arches and sept8b to specific brain structures at later stages. Brains of adult zebrafish reveal a large spatial overlap of sept8a and sept8b expression with few regions uniquely expressing sept8a or sept8b. Our results indicate a neuronal expression of both genes, and additionally suggest expression of sept8b in glial cells. Altogether, this study provides a first detailed insight into the expression of sept8a and sept8b in zebrafish and contributes to a more comprehensive understanding of septin biology in vertebrate model systems.     

Characterization of a zebrafish (Danio rerio) desmin cDNA: an early molecular marker of myogenesis

Desmin is a muscle-specific protein and a constitutive subunit of the intermediate filaments (IF) in skeletal, cardiac and smooth muscles. It is an early marker of skeletal muscle myogenesis. We have characterized a clone of desmin cDNA from an embryonic zebrafish (Danio rerio) cDNA library. The full-length cDNA comprised 1798 nucleotides, encoding a protein of 473 amino acids. The predicted amino acid sequence of the zebrafish desmin shares a high degree of similarity to other vertebrate desmins, but also contains a sequence at the carboxyl terminal of the tail domain that is unique to the zebrafish. It carries many features which are distinctive of IF subunit proteins. These include the T/SSYRRXF/Y motif in the head domain, and the intermediate filament signature consensus, [I/V]-X-[T/A/C/I]-Y-[R/K/H]-X-[L/M]-L-[D/E], located in the carboxyl terminus of the central helical rod. Unlike other 3' UTR sequences, the 3' UTR of the zebrafish cDNA sequence has two CAYUG elements flanking a single polyadenylation site. The temporal and spatial expression patterns of desmin mRNA during early zebrafish development were studied. The onset of desmin expression occurred at the 1-3 somite stage (11 hpf). It increased throughout somitogenesis, with maximum expression at the Prim-6 stage (25 hpf), and decreasing expression towards the protruding-mouth stage (72 hpf). Desmin mRNA was initially localised exclusively to the somites, but was subsequently also detected in other musculature in the developing heart and fins. The onset of expression and the spatial localization of desmin mRNA in the zebrafish coincides with that reported for MyoD and myogenin.