Ontogeny of the Circadian System During Embryogenesis in Rainbow Trout (Oncorhynchus mykyss) and the Effect of Prolonged Exposure to Continuous Illumination on Daily Rhythms of per1, clock,and aanat2 Expression

It is widely held that the development of the circadian system during embryogenesis is important for future survival of an organism. Work in teleosts has been, to date, limited to zebrafish, which provides little insight into the diversity of this system within such a large vertebrate class. In this study, the authors analyzed the diel expression of per1, clock, and aanat2 in unfertilized rainbow trout oocytes and embryos maintained under either a 12:12-h light:dark (LD) cycle or continuous illumination (LL) from fertilization. 24-h profiles in expression were measured at fertilization as well as 8, 21 42, and 57 days postfertilization (dpf). Both per1 and clock were expressed in unfertilized oocytes and all embryonic stages, whereas aanat2 expression was only measureable from 8 dpf. A reduction in both per1 and clock mean expression levels between unfertilized oocytes/0–1 dpf embryos and 8–9 dpf embryos was suggestive of a transition from maternal RNA to endogenous mRNA expression. Although aanat2 expression was not clearly associated with photic conditions, photoperiod treatment did alter the expression of per1 and clock expression/rhythmicity from as early as 8 dpf (per1), which could suggest the presence and functionality of an as yet unidentified “photoreceptor.” As a whole, this work demonstrates that clock systems are present and functional during embryonic development in rainbow trout. Further studies of their expression and regulation will help understand how the environment interacts with embryonic development in the species. (Author correspondence: andrew.davie@stir.ac.uk)     

虹鳟spindlin基因克隆及不同倍性的表达分析

spindlin基因是减数分裂纺锤体相关因子,为了研究spindlin基因在二倍体和三倍体雌性虹鳟减数分裂过程中出现的差异,通过cDNA末端快速扩增(RACE)技术获得spindlin基因cDNA 4529 bp(GenBank登录号:MN378564),其中3′非编码区(UTR)和5′非编码区(UTR)分别长3662 bp和141 bp,开放阅读框(ORF)长726 bp,编码241个氨基酸,该蛋白质序列的相对分子量为28.3 kD,理论等电点值为5.94,无跨膜结构。同源性分析表明,虹鳟(Oncorhynchus mykiss)与银大马哈鱼(Oncorhynchus kisutch)同源最高,高达99.59%。系统发育进化树显示,虹鳟与大鳞大马哈鱼(Oncorhynchus tshawytscha)和红点鲑(Salvelinus alpinus),聚为一支。实时荧光定量(RT-PCR)结果显示, spindlin基因在二倍体雌性虹鳟卵巢、肾、肝、脾、肌、鳃、心、眼、肠和鳍组织中均有表达,其中,在卵巢中的表达量极显著高于其他组织(P<0.01)。对于二倍体雌性虹鳟,在受精后24...     

The Circadian Clock Machinery During Early Development of Senegalese sole (Solea senegalensis): Effects of Constant Light and Dark Conditions

Circadian rhythms are established very early during vertebrate development. In fish, environmental cues can influence the initiation and synchronization of different rhythmic processes. Previous studies in zebrafish and rainbow trout have shown that circadian oscillation of clock genes represents one of the earliest detectable rhythms in the developing embryo, suggesting their significance in regulating the coordination of developmental processes. In this study, we analyzed the daily expression of the core clock components Per1, Per2, Per3, and Clock during the first several days of Senegalese sole development (0–4 d post fertilization or dpf) under different lighting regimes, with the aim of addressing when the molecular clock first emerges in this species and how it is affected by different photoperiods. Rhythmic expression of the above genes was detected from 0 to 1 dpf, being markedly affected in the next few days by both constant light (LL) and dark (DD) conditions. A gradual entrainment of the clock machinery was observed only under light-dark (LD) cycles, and robust rhythms with increased amplitudes were established by 4 dpf for all clock genes currently studied. Our results show the existence of an embryonic molecular clock from the 1st d of development in Senegalese sole and emphasize the significance of cycling LD conditions when raising embryos and early larvae. (Author correspondence: munoz.cueto@uca.es; carlos.pendon@uca.es)     

Production of germ-line chimeras in rainbow trout by blastomere transplantation

We describe a technique for producing germ-line chimeric rainbow trout, Oncorhynchus mykiss, by microinjection of the isolated blastomeres. FITC-labeled donor cells and non-labeled recipient embryos at various developmental stages between the early blastula and early gastrula stages were used for cell transplantation. The chimera formation rate and the degree of donor cell distribution in recipient embryos were evaluated at both the late gastrula stage (5 days post fertilization (dpf)) and the 40-somite stage (10 dpf). Among the six combinations of developmental stages of donor and recipient embryos, the combination of midblastula (2.5 dpf) donor cells and early blastula (1.5 dpf) recipient embryos gave the highest chimera formation rate and the best distribution pattern of donor cells. Using this combination, chimeric rainbow trout were produced with donor blastomeres from dominant orange-colored mutant embryos and wild-type recipient embryos. Of the 238 chimeric embryos produced, 28 (12%) hatched normally and 14 of the 28 fry (50%) had donor-derived orange body color. To test for germ-line transmission of donor cells, gametes obtained from the matured chimeras were fertilized with gametes from wild-type fish. Of the 19 matured chimeras, 6 (32%) yielded donor-derived orange-colored progeny, in addition to wild-type siblings. The contribution rates of donor cells in the germ-line ranged from 0.3 to 14%. This technique for producing germ-line chimeras should be a powerful tool for cell-mediated gene transfer in rainbow trout. Especially, if body color mutants are used for either donor cells or the host embryos, it will be possible to easily concentrate F1 transgenic embryos derived from transplanted donor cells by body color screening. Mol. Reprod. Dev. 59: 380-389, 2001.     

Rhesus glycoprotein and urea transporter genes are expressed in early stages of development of rainbow trout (Oncorhynchus mykiss)

The objective of this study was to determine if the genes for the putative ammonia transporters, Rhesus glycoproteins (Rh) and the facilitated urea transporter (UT) were expressed during early development of rainbow trout, Oncorhynchus mykiss Walbaum. We predicted that the Rh isoforms Rhbg, Rhcg1 and Rhcg2 would be expressed shortly after fertilization but UT expression would be delayed based on the ontogenic pattern of nitrogen excretion. Embryos were collected 3, 14 and 21 days postfertilization (dpf), whereas yolk sac larvae were sampled at 31 dpf and juveniles at 60 dpf (complete yolk absorption). mRNA levels were quantified using quantitative polymerase chain reaction and expressed relative to the control gene, elongation factor 1alpha. All four genes (Rhbg, Rhcg1, Rhcg2, UT) were detected before hatching (25-30 dpf). As predicted, the mRNA levels of the Rh genes, especially Rhcg2, were relatively high early in embryonic development (14 and 21 dpf), but UT mRNA levels remained low until after hatching (31 and 60 dpf). These findings are consistent with the pattern of nitrogen excretion in early stages of trout development. We propose that early expression of Rh genes is critical for the elimination of potentially toxic ammonia from the encapsulated embryo, whereas retention of the comparatively benign urea molecule until after hatch is less problematic for developing tissues and organ systems.     

Characterization and expression of embryonic and adult globins of the teleost Oryzias latipes (medaka)

Using the teleost Oryzias latipes (medaka), we isolated three embryonic globin cDNAs (em.alpha-0, em.alpha-1, and em.beta-1) from the embryos 5 days after fertilization (at 30 degrees C) and two adult globin cDNAs (ad.alpha-1 and ad.beta-1) from the kidney of the fully-grown adult fish, and predicted their amino acid sequences. Molecular phylogenetic analysis showed that the embryonic globins were highly homologous in amino acid sequence to the embryonic globins previously identified in rainbow trout and zebrafish, and that they formed a monophyletic group among the teleostean globin molecules. They were clearly discriminated from the adult globin of the medaka. RT-PCR analysis showed that the embryonic globin mRNAs were intensely expressed in stage 30 and 38 embryos and in young fish 30 days after hatching. The level of expression decreased drastically after the young fish stage, and was low in fully-grown adult fish. The adult alpha globin mRNA ad.alpha-1 was scarcely expressed in the embryos, and the level of expression gradually increased in young to fully-grown adult fish. Unexpectedly, the adult beta globin mRNA ad.beta-1 was expressed throughout life, from the early embryonic stage to the fully-grown adult stage. This expression profile was quite different from that of the rainbow trout previously investigated. Some globins of the medaka were expressed both in primitive hematopoiesis and in definitive hematopoiesis.     

Characterization and expression of embryonic globin in the rainbow trout, Oncorhynchus mykiss: Intra-embryonic initiation of erythropoiesis

When fractionated by reverse-phase high performance liquid chromatography (HPLC), the embryonic hemoglobin of the rainbow trout, Oncorhynchus mykiss, consisted of eight globins different from adult globins in terms of retention time. Amino acid sequences of the N-terminal regions of some globins were determined. In addition, four cDNA clones for embryonic globins from 10-day embryos were isolated (at 15 degrees C), sequenced and the amino acid sequences predicted. In comparison with the sequences of previously characterized globins, they corresponded to two alpha-type and two beta-type globins and therefore were named em.alpha-1, em.alpha-2, em.beta-1 and em.beta-2. The N-terminal 36 amino acids of one (E2) of the embryonic globins isolated by HPLC were identical to those of the sequence deduced from a cDNA, em.beta-2. The phylogenetic relationship between the embryonic globins and other globins previously reported was discussed. The present study is the first demonstration of amino acid sequences of embryonic globins in a teleost. To understand the initiation of erythropoiesis in the early development of the rainbow trout, histochemistry using o-dianisidine/hydrogen peroxide, immunohistochemistry using an antibody against embryonic hemoglobin, and northern blotting and whole embryo in situ hybridization using antisense RNA probe for em.beta-2 were performed. Embryonic globin mRNA, globin and hemoglobin appeared first in the anterior part of the intermediate cell mass (ICM) located in the median line beneath the notochord of embryos 6-7 days after fertilization at 15 degrees C (Vernier's stages 16-20). Shortly after that, the expression signal extended to the posterior part of the ICM and spread out laterally to blood islands on the posterior yolk sac. Thus, the initiation of erythropoiesis in the early embryo of rainbow trout is intraembryonic.     

Assessment of female gamete quality in the Pacific oyster Crassostrea gigas

Summary

The possible relationship between certain oocyte and embryo characteristics and larvae viability was investigated with reference to the following aspects: (1) morphological—oocyte diameter and shape; (2) cytological—overall ultrastructure and membrane integrity; (3) biochemical—content of lipids, proteins and carbohydrates; and (4) physiological—respiration. The rate of survival and incidence of abnormality were estimated 24 h after fertilization. The first results showed that 80–90% of oocytes were cytologically viable before fertilization. Eighty to 90% of oocytes are apparently viable before fertilization on the basis of staining with Trypan blue, but this parameter shows little correlation with larval viability. However, Trypan blue staining is of value in allowing the recognition of oocytes with damaged membranes. Respiration was measured for unfertilized oocytes 5 min after stripping, after 6 h, and for 3-h embryos. Positive correlations were found between the O₂-consumption of embryos and both the rate of fertilization and the hatching rate of 24-h larvae. In contrast, no correlation was found between hatching parameters and the O₂-consumption of unfertilized oocytes. These results suggest that embryos possess quality indicators, relating to metabolic characteristics, which can be quantified more easily than those of oocytes.     

Refrigeration of rainbow trout gametes and embryos

Prolonged access to early embryos composed of undifferentiated, totipotent blastomeres is desirable in situations when multiple collections of gametes are not possible. The objective of the present study is to examine whether the refrigeration of rainbow trout Oncorhynchus mykiss gametes and early embryos would be a suitable, reliable, and efficient tool for prolonging the availability of early developmental stages up to the advanced blastula stage. The study was conducted continuously during fall, winter, and spring spawning seasons. In all, more than 500 experimental variants were performed involving individual samples from 26 females and 33 males derived from three strains. These strains represented three possible circumstances. In optimal one, gametes from good quality donors were obtained soon after ovulation. In the two non-optimal sources, either donors were of poor genetic quality or gametes were collected from a distant location and transported as unfertilized gametes. A highly significant effect of variability of individual sample quality on efficiency of gamete and embryo refrigeration was revealed. The source of gametes significantly affected viability of refrigerated oocytes and embryos, but not spermatozoa. On average, oocytes from optimal source retained full fertilization viability for seven days of chilled storage, significantly longer than from non-optimal sources. Spermatozoa, regardless of storage method, retained full fertilization ability for the first week of storage. Refrigeration of embryos at 1.4+/-0.4 degrees C significantly slowed the development. Two- week-old embryos were still in blastula stage. Average survival rate of embryos refrigerated for 10 days and then transferred to regular incubation temperatures of 9-14 degrees C was 92% in optimal and 51 and 71% in non-optimal source variants. No effect of gamete and embryo refrigeration on the occurrence of developmental abnormalities was observed. Cumulative refrigeration of oocytes and embryos resulted in an average embryo survival rate of 71% in optimal source variants after 17 days of refrigeration (7 days oocytes+10 days embryos). The study shows that both gamete and embryo refrigeration can be successfully used as an efficient tool for prolonging availability of rainbow trout embryos in early developmental stages.     

Electroporation: a method for transferring genes into the gametes of zebrafish (Brachydanio rerio), channel catfish (Ictalurus punctatus), and common carp (Cyprinus carpio).

Recombinant plasmids containing the Rous sarcoma virus long-terminal repeat (RSVLTR) promoter linked to either rainbow trout (Oncorhyncus mykiss) growth hormone 1 (rtGH1) or growth hormone 2 (rtGH2) cDNA were linearized and introduced into the fertilized eggs of zebrafish (Brachydanio rerio), channel catfish (Ictalurus punctatus), and common carp (Cyprinus carpio) by both electroporation and microinjection. The latter two species had these rainbow trout constructs (RSVLTR-rtGH1cDNA or RSVLTR-rtGH2) electroporated into both gametes (i.e., sperm and unfertilized eggs) prior to fertilization, into eggs shortly after fertilization, and at the first cell division stage. Survival was determined just after hatching and again between 3 and 5 months after hatching. Polymerase chain reactions and Southern blot analyses were used to detect those individuals carrying the introduced foreign genes 3 to 5 months after hatching, respectively. Individuals analyzed by both methods yielded identical results in a double-blind study. The electroporation results were compared with groups that were microinjected. Although survival was similar, electroporation tended to produce a greater number of transgenic individuals than the microinjection procedure, and many more eggs could be treated per unit time by electroporation than microinjection. Survival was better for common carp when electroporation was performed shortly after fertilization, whereas channel catfish fared better at the first cell division stage. Electroporation prior to and shortly after fertilization, and at the first cell stage appeared to generate a large fraction of transgenic fish. We cautiously conclude that electroporation is an efficient method for introducing foreign DNA into fish gametes and embryos and may be an ideal method for treating large numbers of gametes in a modest period.     

Identification of Mitochondrial Genome-Encoded Small RNAs Related to Egg Deterioration Caused by Postovulatory Aging in Rainbow Trout

Many factors have been reported to affect rainbow trout egg quality, among which, postovulatory aging is one of the most significant causes as reared rainbow trout do not usually volitionally oviposit the ovulated eggs. In order to uncover the genetic regulation underling egg deterioration caused by postovulatory aging in rainbow trout, mitochondrial genome-encoded small RNA (mitosRNAs) were analyzed from unfertilized eggs on Days 1, 7, and 14 postovulation with fertilization rates of 91.8, 73.4, and less than 50 %, respectively. A total of 248 mitosRNAs were identified from Illumina high-throughput sequencing of the small RNA libraries derived from the eggs of ten females. Ninety-eight of the small RNAs exhibited more than a threefold difference in expression between eggs from females exhibiting high fertilization rates at Day 1 and low fertilization rates at Day 14. The differentially expressed mitosRNAs were predominantly derived from mitochondrial D-loop, tRNA, rRNA, COII, and Cytb gene regions. Real-time quantitative PCR analysis was carried out for 14 differentially expressed mitosRNAs, of which, 12 were confirmed to be consistent with the sequencing reads. Further characterization of the differentially expressed mitosRNAs may lead to the development of new biomarkers for egg quality in rainbow trout.