The cycling gonad: retinoic‐acid synthesis and degradation patterns during adult zebrafish Danio rerio oogenesis

The expression pattern of genes coding for enzymes of the retinoic acid (RA) synthetic and degradation pathways was characterized in adult female zebrafish Danio rerio. Females were conditioned until maturation and post‐spawn expression dynamics were determined. A striking upregulation of cyp26b1, but not cyp26a1, was observed following egg deposition, decreasing to initial levels during recovery. A similar, yet lower, fluctuation was observed for aldh1a2 and rdh10a, the enzymes participating in the two‐step RA biosynthesis cascade. The present work highlights the dynamics of the adult D. rerio oogenesis and uncovers novel, yet elusive, metabolic contributors. Possible compartmentalized roles for the different gene paralogue isoforms are discussed.     

Expression patterns of the creatine metabolism‐related molecules AGAT,GAMT and CT1 in adult zebrafish Danio rerio

AGAT, GAMT and CT1, three creatine synthesis and transport‐related molecules, have been widely studied in mammals. To explore their homologous genes in adult zebrafish Danio rerio, the gene expression patterns of these three genes in D. rerio were investigated. The results reveal that AGAT, GAMT and CT1 are expressed widely in diverse tissues of D. rerio where the homologous genes in mammals are also expressed.     

Expression and characterization of the cyp19a gene and its responses to estradiol/letrozole exposure in Chinese soft‐shelled turtle (Pelodiscus sinensis)

Cytochrome P450 aromatase (CYP19) catalyzes the conversion of androgens to estrogens and is critical in sex differentiation. CYP19 exists as the ovarian type and brain type. Herein, we cloned the full‐length ovarian cyp19a gene from the Chinese soft‐shelled turtle, Pelodiscus sinensis (pscyp19a). We determined the distribution of pscyp19a in adult tissue and evaluated its expression during embryonic development, following treatment with 17β‐estradiol (E2) or letrozole (LE). The pscyp19a complementary DNA is 2,285 bp in length and comprises a 1,512 bp open reading frame that encodes a protein of 503 AA. The nucleotide sequence and amino acid of pscyp19a shared significant identity with other vertebrate sequences. Expression of pscyp19a was high in the ovary (p < 0.01), and exhibited modest expression in the female brain and intestine. Expression of pscyp19a displayed significant differences between sexes during early embryo development stages; expression increased gradually during embryonic development in females, but the opposite trend was observed in males. Female embryos treated with different concentrations of E2 and LE displayed altered pscyp19a expression compared with untreated individuals, and E2 clearly induced pscyp19a expression. These results indicate that pscyp19a gene plays important roles in early developmental stages in Chinese soft‐shelled turtle, and may assist future studies on sex differentiation and sex control in this and similar species.     

Antisense attenuation of Wnt-1 and Wnt-3a expression in whole embryo culture reveals roles for these genes in craniofacial,spinal cord,and cardiac morphogenesis

Wnt-1 and Wnt-3a proto-on-cogenes have been implicated in the development of midbrain and hindbrain structures. Evidence for such a role has been derived from in situ hybridization studies showing Wnt-1 and -3a expression in developing cranial and spinal cord regions and from studies of mutant mice whose Wnt-1 genes have undergone targeted disruption by homologous recombination. Wnt-1 null mutants exhibit cranial defects but no spinal cord abnormalities, despite expression of the gene in these regions. The absence of spinal cord abnormalities is thought to be due to a functional compensation of the Wnt-1 deficiency by related genes, a problem that has complicated the analysis of null mutants of other developmental genes as well. Herein, we describe the attenuation of Wnt-1 expression using antisense oligonucleotide inhibition in mouse embryos grown in culture. We induce similar mid- and hindbrain abnormalities as those seen in the Wnt-1 null mutant mice. Attentuation of Wnt-1 expression was also associated with cardiomegaly resulting in hemostasis. These findings are consistent with the possibility that a subset of Wnt-1 expressing cells include neural crest cells known to contribute to septation of the truncus arteriosus and to formation of the visceral arches. Antisense knockout of Wnt-3a, a gene structurely related to Wnt-1, targeted the forebrain and midbrain region, which were hy-poplastic and failed to expand, and the spinal cord, which exhibited lateral outpocketings at the level of the forelimb buds. Dual antisense knockouts of Wnt-1 and Wnt-3a targeted all brain regions leading to incomplete closure of the cranial neural folds, and an increase in the number and severity of outpocketings along the spinal cord, suggesting that these genes complement one another to produce normal patterning of the spinal cord. The short time required to assess the mutant phenotype (2 days) and the need for limited sequence information of the target gene (20-25 nu-cleotides) make this antisense oligonucleotide/ whole embryo culture system ideal for testing the importance of specific genes and their interactions in murine embryonic development. © 1993 Wiley-Liss, Inc.     

Fish are like flies are like frogs: Conservation of dorsal-ventral patterning mechanisms

Genetic analysis of Drosophila has shown that a morphogenetic gradient of the Transforming Growth Factor-β family member dpp patterns the embryonic dorsalventral axis. Molecular and embryological evidence from Xenopus has strongly suggested a similar role for Bmp-4, the dpp homolog, in patterning the dorsalventral axis of chordates. A recent report has now identified mutations in two genes, dino and swirl, that disrupt dorsal-ventral patterning in the zebrafish Danio rerio⁽¹⁾. Characterization of these mutations parallels findings from Drosophila, thus establishing a genetic framework for the analysis of dorsalventral patterning in a vertebrate.     

Mannose 6-phosphate receptors in an ancient vertebrate, zebrafish

The endosome/lysosome system plays key roles in embryonic development, but difficulties posed by inaccessible mammalian embryos have hampered detailed studies. The accessible, transparent embryos of Danio rerio, together with the genetic and experimental approaches possible with this organism, provide many advantages over rodents. In mammals, mannose 6-phosphate receptors (MPRs) target acid hydrolases to endosomes and lysosomes, but nothing is known of acid hydrolase targeting in zebrafish. Here, we describe the sequence of the zebrafish cation-dependent MPR (CD-MPR) and cation-independent MPR (CI-MPR), and compare them with their mammalian orthologs. We show that all residues critical for mannose 6-phosphate (M6P) recognition are present in the extracellular domains of the zebrafish receptors, and that trafficking signals in the cytoplasmic tails are also conserved. This suggests that the teleost receptors possess M6P binding sites with properties similar to those of mammalian MPRs, and that targeting of lysosomal enzymes by MPRs represents an ancient pathway in vertebrate cell biology. We also determined the expression patterns of the CD-MPR and CI-MPR during embryonic development in zebrafish. Both genes are expressed from the one-cell stage through to the hatching period. In early embryos, expression is ubiquitous, but in later stages, expression of both receptors is restricted to the anterior region of the embryo, covering the forebrain, midbrain and hindbrain. The expression patterns suggest time- and tissue-specific functions for the receptors, with particular evidence for roles in neural development. Our study establishes zebrafish as a novel, genetically tractable model for in vivo studies of MPR function and lysosome biogenesis.     

Identification and functional characterization of the AGO1 ortholog in maize

Eukaryotic Argonaute proteins play primary roles in miRNA and siRNA pathways that are essential for numerous developmental and biological processes. However, the functional roles of the four ZmAGO1 genes have not yet been characterized in maize (Zea mays L.). In the present study, ZmAGO1a was identified from four putative ZmAGO1 genes for further characterization. Complementation of the Arabidopsis ago1‐27 mutant with ZmAGO1a indicated that constitutive overexpression of ZmAGO1a could restore the smaller rosette, serrated leaves, later flowering and maturation, lower seed set, and darker green leaves at late stages of the mutant to the wild‐type phenotype. The expression profiles of ZmAGO1a under five different abiotic stresses indicated that ZmAGO1a shares expression patterns similar to those of Argonaute genes in rice, Arabidopsis, and wheat. Further, variation in ZmAGO1a alleles among diverse maize germplasm that resulted in several amino acid changes revealed genetic diversity at this locus. The present data suggest that ZmAGO1a might be an important AGO1 ortholog in maize. The results presented provide further insight into the function of ZmAGO1a.     

利用Tol2转座子介导的增强子诱捕技术获得血管相关转基因斑马鱼系

心血管系统形成于胚胎发育极早期并为其他器官的发育、维持、修复所必需,血管生长异常可造成多种疾病.然而,由于研究对象所限,胚胎血管的发育机制尚未完全阐明,调控血管发育的基因也所知有限.通过Tol2转座子介导的大规模增强子诱捕筛选到26个血管特异表达绿色荧光蛋白(EGFP)报告基因的转基因斑马鱼系,其中有一些品系在胚胎的某些特异血管结构中表达绿色荧光.通过linker-mediated PCR克隆到22个鱼系中Tol2插入位点附近的斑马鱼基因组序列,其中有17个鱼系的Tol2插入可定位到现有的斑马鱼基因组中的单一位点.通过整体胚胎原位杂交对插入位点附近的基因进行表达谱分析,得到8个表达谱与转基因鱼系一致的基因,涵盖了9个鱼系,其中dusp5基因对应于2个不同的鱼系.这8个基因中包括hhex、ets1a和dusp5等3个功能已知的基因,但是大部分(5个)基因在斑马鱼中尚无功能研究,分别为zvsg1、micall2a、arl8b(1of2)、zgc:73355以及hecw2(1of2).hhex和ets1a基因对血管与血细胞前体的发育具有重要作用,所获得的EGFP报告基因受hhex或ets1a基因增强子控制的转基因斑马鱼(mp378b和mp430c-2)为国际首例,为深入研究这两个基因在血管与血液发育中的作用机制提供了新的机遇.筛选到的功能未知基因可以用来进一步研究其在血管发育中的功能;同时,利用所获得的转基因鱼系,可以实现实时、动态观察成血管细胞的起源、分化与基因表达调控,并可用于高通量小分子药物筛选等重要研究.     

Three Wnt genes expressed in a wide variety of tissues during development of the zebrafish,Danio rerio: developmental and evolutionary perspectives

 Proteins encoded by the Wnt family of genes act as signals and have been shown to play important roles in a wide variety of developmental processes. Here we describe the cloning of three Wnt family members from the zebrafish, Danio rerio, which encode proteins with homology to murine Wnt-2, -4 and -5A/B. The expression patterns of the latter two zebrafish genes, designated ZfWnt4 and ZfWnt5 show considerable similarity with their homologues in other vertebrates; ZfWnt2, however, is expressed in the developing viscera in a pattern distinct from its closest murine homologue. In the light of the similarities and differences in the patterns of expression of these genes relative to their homologues in other vertebrates, we speculate on their possible functions. Received 24 October 1995 / Accepted in revised form: 16 January 1996     

Differential expression of foxl2 and cyp19a1a mRNA during gonad developmental stages in great sturgeon Huso huso

This study aimed to determine the sex specificity and expression pattern of foxl2 and cyp19a1a genes in great sturgeon Huso huso gonads during gonadal sex differentiation and development. The results revealed that foxl2 and cyp19a1a mainly expressed in female gonads and during gonad development the foxl2 and cyp19a1a mRNA expression is required for ovarian development.