Changes in brain GnRH mRNA and pituitary GnRH peptide during testicular maturation in barfin flounder

The pleuronectid barfin flounder (Verasper moseri) expresses three forms of gonadotropin-releasing hormone (GnRH) in the brain. To clarify the physiological roles of the respective forms during testicular maturation, changes in brain GnRH mRNA levels and pituitary GnRH peptide levels were examined by real-time quantitative PCR and time-resolved fluoroimmunoassay, respectively. Fish hatched in April 2000. The gonadosomatic index remained low until October 2001 and then rapidly increased in January 2002. Fish continued to grow from hatching through testicular maturation. Fish spermiated in March 2002. The amount of seabream GnRH (sbGnRH) mRNA per brain significantly increased in January 2002 and remained at high levels in March 2002. The amounts of salmon GnRH (sGnRH) and chicken GnRH-II (cGnRH-II) mRNA per brain did not show significant changes during the experimental periods. Pituitary sbGnRH peptide content significantly increased in March 2002. Pituitary sGnRH peptide and cGnRH-II peptide contents were extremely low compared to sbGnRH peptide levels and showed no significant changes during the experiment. These results indicate that sbGnRH is involved in the testicular maturation of barfin flounder.     

Isolation and characterization of new microsatellite markers from the Japanese flounder (Paralichthys olivaceus)

The isolation and characterization of eight polymorphic microsatellite loci from a Japanese flounder partial genomic library are reported. The eight markers isolated in this study were highly polymorphic and their positions on the linkage genome map of the Japanese flounder were determined. Therefore, they are useful for ecological studies of wild populations. These markers are more effective than other markers with no information of chromosomal locations.     

基于稳定同位素技术的增殖放流牙鲆群体鉴别

牙鲆是我国黄渤海重要的增殖放流鱼类,野生群体和放流群体的鉴别是评估牙鲆增殖效果的前提.为了研究稳定同位素技术在增殖放流牙鲆群体鉴别中的应用,本研究以秦皇岛近海增殖放流区捕捞牙鲆幼鱼为对象,先使用项目组前期开发的形态学和分子标记相结合的方法区分野生群体和放流群体,再分别测定肌肉碳、氮稳定同位素值和耳石(全耳石和耳石核心区...     

几种因素对牙鲆胚胎玻璃化冷冻保存的影响

鱼类胚胎冷冻保存技术还远没有成熟, 为了寻找最佳的鱼类胚胎玻璃化冷冻保存条件, 我们以牙鲆(Paralichthys olivaceus) 胚胎为例, 研究了影响鱼类胚胎玻璃化冷冻保存的几个主要因子: 玻璃化液、麦管直径、胚胎阶段、平衡时间及平衡温度、洗脱浓度和洗脱时间。发现: (1) 含有多种抗冻剂的玻璃化液PMDD(2% PVP), 玻璃化稳定, 脱玻璃化率较低, 适宜进行玻璃化冷冻; (2) 尾芽期胚胎较其他时期耐受力强, 平衡40 min就足以使玻璃化液渗透完全, 时间延长, 成活率显著降低, 各个时期的胚胎对温度都比较敏感, 0°C与4°C下平衡的成活率显著高于15°C; (3) 洗脱浓度和洗脱时间对胚胎成活率影响不大; (4) 根据优化的条件, 对牙鲆两个时期的胚胎进行超低温冷冻保存实验, 共成活4次, 获得成活胚胎8粒, 其中7粒孵化出健康的鱼苗。本文为鱼类胚胎冷冻保存技术的建立提供基础资料, 并显示了牙鲆胚胎玻璃化冷冻保存是可行的。     

Influence of epistatic segregation distortion loci on genetic marker linkages in Japanese flounder

For genetic linkage analysis of Japanese flounder, 160 doubled haploids (DH) were artificially produced using mitotic gynogenesis and were genotyped for 458 simple sequence repeat (SSR) markers, 101 of which show distortional segregation. The genetic linkage map was constructed by modifying recombination fractions between the distorted markers. Between the corrected and uncorrected genetic maps, there were considerable differences in genetic distance, but not in relative locations among markers. Using a liability model, a segregation distortion locus (SDL), with an additive genetic effect of 1.772, was mapped between markers BDHYP387 and Poli56TUF of chromosome 24 in the corrected genetic map. Additionally, six pairs of epistatic SDLs were identified on chromosomes 1, 5, 8, 9, 23, and 24. Changes in genetic distances between markers did not occur on chromosome regions with main effect SDLs. However, most chromosome regions where genetic distances changed covered the detected epistatic SDLs. This study concluded that epistatic SDLs decrease linkages between markers and lengthen genetic distances in Japanese flounder. This finding has been partially validated in other DH populations derived from three female Japanese flounders.     

Molecular characterization and gene expression of a CXC chemokine gene from Japanese flounder Paralichthys olivaceus

Chemokines are small, secreted cytokine peptides that have the ability to recruit a wide range of immune cells to sites of infection and disease. A novel CXC chemokine was obtained from Japanese flounder Paralichthys olivaceus. This chemokine cDNA contains an open reading frame of 333 nucleotides encoding 111 amino acid residues containing four conserved cysteine residues. The gene is composed of four exons and three introns as are those of mammalian and fish CXC chemokines. Results of homology and phylogenetic analysis revealed that the Japanese flounder CXC chemokine is closest to CXCL13 subgroup. The gene was expressed in immune-related organs, including head kidney, trunk kidney, spleen and peripheral blood leukocytes (PBLs). Japanese flounder CXC chemokine gene expression was observed at 3 and 6h after induction by LPS, but not at 3 and 6h after induction by poly I:C. These results suggest that the Japanese flounder CXC chemokine is probably associated with inflammatory as well as homeostatic functions.     

牙鲆甲状腺激素受体TRaA的原核表达和多克隆抗体的制备及应用

为研究牙鲆甲状腺激素受体TRαA在牙鲆变态发育过程中的调控作用,将TRαA基因克隆插入融合表达载体pET30a,并在大肠杆菌Escherichia coli DE3(BL21)中进行诱导表达。表达菌株经1mmol/L异丙基-β-D-硫代半乳糖苷(IPTG)诱导4h后,重组蛋白TRαA表达并形成包涵体。SDS-PAGE和Western blotting检测鉴定表达产物。包涵体经变性后在His-Bind树脂进行亲和层析纯化,柱上复性法对重组蛋白复性,获得纯度较高的目的蛋白,蛋白复性的效果良好。用纯化后的目的蛋白免疫新西兰家兔制备多克隆抗体。Dotblotting检测抗体效价达1:200000,检测证明抗体特异性良好。此外,通过染色质免疫沉淀技术鉴定了在活体细胞中多克隆抗体与TRαA的特异性结合,表明了甲状腺激素通过其受体在体内参与碱性磷酸酶(ALP)基因的转录调控。     

Molecular cloning, expression, and functional analysis of caspase-10 from Japanese flounder Paralichthys olivaceus

We isolated and sequenced caspase-10 cDNA and gene from Japanese flounder, Paralichthys olivaceus. The Japanese flounder (JF)-caspase-10 cDNA consisted of 2282 bp and encoded 495 amino acid residues. The characteristic death effector domains (DEDs) of caspases were observed in JF-caspase-10 as well as the three aspartic acid residues (D-186, -382 and -392), which are potential cleavage sites for the large and small subunit structures. The amino acid residue (His-325) and pentapeptide (QACQG), which are involved in catalytic activity, were absolutely conserved in Japanese flounder-caspase-10. JF-caspase-10 gene has a length of 6.6 kb and consists of 11 exons and 10 introns similar to that of human. The strong expression of JF-caspase-10 mRNA was detected in the gills, peripheral blood leukocytes, spleen and posterior kidney, while the weak expression was observed in the head kidney, heart, intestine, skin and stomach. The over-expression analysis of JF-caspase-10 in Japanese flounder cell line HINAE was shown to induce apoptosis 24h post-transfection using TUNEL assay.     

Muscle development in the Japanese flounder,Paralichthys olivaceus,with special reference to some of the larval‐specific muscles

We investigated muscle development in the Japanese flounder Paralichthys olivaceus, focusing primarily on the cranial muscles, using a whole mount immunohistochemical staining method. It is well established that during the very early stages of morphogenesis, until 4 days post hatching (dph), muscles required for feeding develop. Later, between 8 and 16 dph, the muscle composition in the dorsal branchial arches changes to the adult form. We discovered the presence of larval‐specific muscles in this ontogenetic period, termed the larval branchial levators 2 and 3, located in the dorsal branchial arches. The larval branchial levators 2 and 3 disappear during the course of development, whereas the others remain as levator internus 1 and levator posterior, which have also been described in adult fish. In place of these regressed muscles, the levatores externi and levator internus 2 develop and regulate the branchial arches. In addition, we found that the levator posterior, which is thought to represent the fifth levator externus, and the levatores externi exhibit different origins. We also found that at least a part of the caudal fin musculature develops from the trunk myotome. J. Morphol. 2010. © 2010 Wiley‐Liss, Inc.     

Comparison of genetic diversity at microsatellite loci and quantitative traits in hatchery populations of Japanese flounder Paralichthys olivaceus

Relationships of genetic diversity at microsatellite loci and quantitative traits were examined in hatchery-produced populations of Japanese flounder using a relatively straightforward experiment. Five hatchery populations produced by wild-caught and domesticated broodstocks were used to examine the effects of different levels (one to three generations) of domestication on the genetic characteristics of hatchery populations. Allelic richness at seven microsatellite loci in all hatchery populations was lower than that in a wild population. Genetic variation measured by allelic richness and heterozygosity tended to decrease with an increase in generations of domestication. In addition, the degree of genetic differentiation from a wild population increased with an increase in generations of domestication. Significant differences in three morphometric traits (dorsal and anal fin ray counts and vertebral counts) and three physiological traits (high temperature, salinity and formalin tolerance) were observed among the hatchery populations. The degree of phenotypic difference among populations was larger in morphometric traits than in physiological traits. The divergence pattern of some quantitative traits was similar to that observed at microsatellite loci, suggesting that domestication causes the decrease of genetic variation and the increase of genetic differentiation for some quantitative traits concomitantly with those for microsatellite loci. Significant positive correlation was observed between F _ST and the degree of phenotypic difference in the three morphometric traits and formalin tolerance, indicating that genetic variation at microsatellite loci predicts the degree of phenotypic divergence in some quantitative traits.     

Genes of the constant regions of functional immunoglobulin heavy chain of Japanese flounder,<Emphasis Type="Italic"> Paralichthys olivaceus</Emphasis>

IgM and IgD genes of the Japanese flounder were cloned and characterized from a genomic bacterial artificial chromosome (BAC) library. The gene contained four constant region exons (C1–C4), and two transmembrane exons (TM1 and TM2), which conforms to the organizational pattern of all other vertebrate -chain genes examined so far. In the same BAC clone, the gene, which is homologous to the IgD gene in mammals and teleost fish, was found immediately (0.9 kb) downstream of the IgM gene. This gene encoded seven exons (C1–C7) and two TM exons (TM1 and TM2) and had no duplication of C1-C2, as found in Atlantic cod, or C2-C3-C4, as found in Atlantic salmon and channel catfish. Phylogenetic and sequence analyses strongly suggest that teleost is more closely related to non-IgM isotypes than IgM isotypes. The heavy chain (IgH) locus of Japanese flounder, which encodes m, s and m, was found to be fully functional.     

Using stable isotope ratios as a tracer of feeding adaptation in released Japanese flounder Paralichthys olivaceus

Release‐recapture experiments were conducted to examine temporal changes of the carbon and nitrogen stable isotope (δ¹³C and δ¹⁵N) ratios in the muscle tissue of artificially produced Japanese flounder Paralichthys olivaceus, juveniles. About 9000 juveniles (mean ± s .d . 43·3 ± 5·2 mm in standard length and 1·07 ± 0·37 g, n = 15) were released in each of three coastal areas: Chojagasaki, Arasaki and Jogashima with different geographical conditions, along Sagami Bay, Pacific coast of central Japan. Recapture efforts were made on 4, 11, 18, 40 and 55 days after the release. The stable isotope ratios, RNA:DNA ratio, stomach content mass (per body mass M_sc) and condition factor (K) of recaptured individuals were measured. The mean ± s .d . δ¹³C and δ¹⁵N values (n = 15) were ?18·3 ± 0·2‰ and 12·2 ± 0·2‰, respectively at the release. Wild Japanese flounder juveniles were captured only in Chojagasaki, and the δ¹³C and δ¹⁵N values (n = 6) were ?14·0 ± 0·4‰ and 13·2 ± 0·7‰, respectively; these values were considered to represent the wild diet. Nutritional conditions of the released and recaptured juveniles as determined by the RNA : DNA ratio, M_SC and K were indicated to be the best in Chojagasaki, in which the stable isotope ratios gradually shifted towards and reached the wild values within 40 days. This result along with stomach content analyses suggested that the released juveniles had acquired a wild feeding habit. In Arasaki and Jogashima, nutritional conditions of the recaptured juveniles were poorer, with no clear changes in the stable isotope ratios. Greatly varied stable isotope ratio values were observed in the juveniles recaptured in Chojagasaki 11 days after the release, ranging from the release levels to the wild levels. The extent of changes in the stable isotope ratios had a positive correlation to the RNA : DNA ratio and K of these juveniles (r = 0·87, n = 10 and r = 0·83, n = 18, respectively). The analyses of stable isotope ratios coupled with nutritional condition were considered to be an effective tool to examine post‐release feeding adaptation of Japanese flounder juveniles.     

The evolution and possible role of two Sox8 genes during sex differentiation in Japanese flounder (Paralichthys olivaceus)

Sox8 genes, as members of the Sox family, have been studied widely in mammals. However, regulation of sox8 genes in teleosts has rarely been studied, and functional analysis of these genes in teleosts has rarely been performed. Here, two duplicates of sox8 genes were identified in Japanese flounder, Posox8a and Posox8b. The analysis of expression showed that Posox8a and Posox8b were expressed in Sertoli cells of the testis, indicating that they play important roles in development and functional maintenance of the testis. Positive selection and phylogenetic analysis found that both Posox8a and Posox8b underwent the purification selection during evolutionary and that sox8 was most likely to be the ancestor sox8a. These results suggested that both Posox8a and Posox8b had important biological functions after generation from three rounds of whole‐genome duplication in Japanese flounder. The functional differentiation of Posox8a and Posox8b was verified using cell transfection and dual‐luciferase reporter assays; Posox8a overexpression‐promoted 3β‐hydroxysteroid dehydrogenase expression and Posox8b overexpression‐promoted cytochrome P450 aromatase (cyp19a1; P450arom) expression. Finally, combined with Posox8a and Posox8b expression analysis from 30 to 100 days after hatch, we speculated that Posox8a and Posox8b might participate in the process of sex differentiation and gonadogenesis by regulating sex hormone biosynthesis in the Japanese flounder. Our study is the first to demonstrate the possible mechanism of Posox8a and Posox8b in Japanese flounder sex differentiation and gonadogenesis, laying a solid foundation for functional studies of sox8 genes in teleosts.     

Characterization of gene structure and expression of two toll-like receptors from Japanese flounder, <Emphasis Type="Italic">Paralichthys olivaceus</Emphasis>

We cloned the cDNAs and genes of two different types of toll-like receptors from Japanese flounder. The results of homology searches suggested that these genes (designated JF-TLR2 and JF-TLR22) are homologues of human TLR2 and fugu TLR22, respectively. The cDNAs of JF-TLR2 and JF-TLR22 encoded 818 and 961 amino acid residues, respectively. JF-TLR2 and JF-TLR22 contained two distinct structural/functional motifs of the TLR family, such as a leucine-rich repeat (LRR) domain in the extracellular portion and a toll/interleukin-1 receptor (TIR) domain in the intracellular portion. The genes of JF-TLR2 and JF-TLR22 consisted of 12 exons (4.9 kb in total length) and four exons (4.3 kb in total length), respectively. The first exon of each gene is a non-coding exon. Southern blot hybridization indicated that both JF-TLR2 and JF-TLR22 exist as single copies in the genome. These genes were mainly expressed in peripheral blood leukocytes (PBLs) and weakly expressed in PBL-rich organs such as kidney, spleen and gill. Expression of these genes was induced by both peptidoglycan and polyI:C, although the number of JF-TLR-expressing cells were not changed after induction. All of these results suggest that they are involved in the innate immune system.     

Ontogenic changes in tolerance to hypoxia and energy metabolism of larval and juvenile Japanese flounder Paralichthys olivaceus

Changes in tolerances to hypoxia and sodium azide, an indicator of cellular respiration, and activities of various energy metabolism-related chemical components were studied in Japanese flounder Paralichthys olivaceus during its early life stages from 3.5 to 20.5 mm in total length (TL). They showed flexion stage around 10.4 mm TL. Lethal levels of hypoxia increased with growth from 3.5 to 8 mm total TL, and the levels remained high in larvae, until 10.4 mm TL, decreased significantly thereafter. The 50% lethal concentration of sodium azide temporarily increased at 4.5 mm TL, diminished drastically between 4.5 and 10.4 mm TL, and then increased again in post-flexion larvae. Cytochrome c oxidase activity was highest in larvae around flexion, at 10.4 mm TL, and subsequently decreased. In post-flexion larvae at 13.0 mm TL, lactate dehydrogenase (LDH) and creatine kinase activities increased; LDH activity decreased at the juvenile stage. The adenosine triphosphate content and energy charge in fish were consistently higher in the larval stage than in the juvenile stage. These results indicated that, from just before flexion to the post-flexion stage, the energy metabolism of larvae is higher due to activated aerobic and subsequent anaerobic metabolism for metamorphosis; as a consequence, hypoxia tolerance in fish is the lowest during the increase of aerobic metabolism just before and around flexion.     

A pore-forming protein,perforin, from a non-mammalian organism,Japanese flounder,<Emphasis Type="Italic"> Paralichthys olivaceus</Emphasis>

A perforin cDNA of Japanese flounder, Paralichthys olivaceus, was cloned from a cDNA library of kidney stimulated with ConA/PMA. The full-length cDNA is 2,157 bp, which encodes 587 amino acids. The Japanese flounder perforin gene consists of five exons and four introns, with a length of approximately 3 kb. The amino acid sequence of the Japanese flounder perforin is 36% identical to that of rat perforin and 37% identical to amino acid sequences of mouse and human perforin. The Japanese flounder perforin also showed low homology to human and mouse complement components (C6, C7, C8 and C9), ranging from 19% to 24%. However, the membrane attack complex/perforin domain is conserved. A phylogenetic analysis placed the Japanese flounder perforin in the same cluster with other known mammalian perforins. RT-PCR analysis revealed that the perforin gene was expressed in the peripheral blood leukocytes, head kidney, trunk kidney, spleen, heart, gill and intestine of healthy fish. Recombinant perforin produced in insect cells using the baculovirus expression system showed calcium-dependent hemolytic activity.     

Structural characterization of Tn916-like element in Streptococcus parauberis serotype II strains isolated from diseased Japanese flounder

Aims:  To screen for the existence and determine the structure of Tn 916 -like element in Streptococcus parauberis serotype II strains isolated from cultured Japanese flounder in western Japan.
Methods and Results:  In this study, the structure of Tn 916 -like element and the flanking regions were characterized by polymerase chain reaction (PCR) and inverse PCR, followed by cloning and sequencing. The Tn 916 -like element is 18 031 bp in length and composed of 22 ORFs. Southern blot hybridization analysis showed that the Hin cII-digested internal structures of Tn 916 -like elements yielded two patterns among S. parauberis serotype II strains. The flanking sequences were identical with the corresponding region of S. parauberis serotype I strain except for the addition of 6-bp coupling sequence (ATCATA) being adjacent to the upstream of the element.
Conclusion:  The Tn 916 -like element exhibited high homology (more than 99%) with Tn 916 observed in other streptococci and enterococci and was integrated in the same site of chromosome for all of the tested S. parauberis serotype II strains.
Significance and Impact of the Study:  The results indicate that the Tn 916- like element encoding tet (M) gene is present in all of the tested S. parauberis serotype II strains, which are disseminated in the flounder-culturing areas in western Japan.     

Field evaluation by RNA/DNA ratios on post-release nutritional status of released and wild Japanese flounder Paralichthys olivaceus juveniles

A large-scale juvenile Japanese flounder (Paralichthys olivaceus) release-recapture experiment was undertaken to find the optimal release season by evaluating the nutritional status of released fish at different seasons during which food abundance was significantly different. Forty thousand fish were released at depths of 1.5 m for early-release (May 29, 1997) and 2 m for late-release (July 2, 1997) (42.1±3.5 and 40.9±4.2 mm body length, respectively) in an experimental field, Wakasa Bay, the Sea of Japan. Samples were taken, after the releases, at Wada beach at intervals of 1, 2, 3, 6, 10, 16 and 30 days after release (DAR), including pre-surveys before each release. Released fish recaptured from the two different release groups totaled 764; 467 from the early-release group (ER) and 297 from the late-release group (LR). A total of 1956 wild flounder juveniles were simultaneously collected (1041 ER, 915 LR). ER fish were subject to higher food availability and were exposed to less pressure from predation by smaller wild juvenile flounder. RNA/DNA ratios in ER juveniles were significantly higher than those of LR fish during all samples. Especially, RNA/DNA ratios in ER juveniles were higher than in wild juveniles from 3 to 50 DAR. In the LR group, the nutritional status of juveniles was relatively low in shallower water. These findings corresponded well with feeding incidence examined by coworkers. Mass release of hatchery-reared juveniles apparently reduced RNA/DNA ratio of the wild juveniles right after releasing. The present study showed that earlier release of hatchery-reared juvenile Japanese flounder with higher RNA/DNA ratio could increase the possibilities of survival right after release in the nursery ground, and that RNA/DNA ratio appeared to be a good tool in evaluating nutritional status of released juveniles as well as wild juveniles in Japanese flounder.