石鲽仔、幼鱼性腺发育的组织学观察

利用组织学方法对人工培育的石鲽(Kareius bicoloratusBasiewsky)仔、幼鱼性腺发育进行研究。结果表明,性腺的发育与体长密切相关。刚孵化石鲽的原生殖细胞数目为2个,孵化3 d数目增至8个,之后经过迁移,至孵化9 d到达生殖嵴。在全长为7.2～8.5 mm(孵化9～11 d)的仔鱼中,性腺原基中的体细胞迅速增殖并包围原生殖细胞,后者在全长10～15 mm(孵化后10～35 d)的仔幼鱼中增殖成为生殖干细胞。原始性腺在全长15～30 mm(孵化40～60 d)的幼鱼中逐渐发育完善,呈细线状,位于腹腔后部中肾管下方紧贴体壁。雌性性腺最早在全长32.5 mm(孵化66 d)的个体中出现分化特征,至全长89～102 mm时雌性性腺特征完全分化。雄性性腺的分化较雌性性腺晚,最早在全长为91 mm的幼鱼中开始,至全长为114～118 mm时雄性性腺分化特征已经十分明显。     

Histological characterization of gonadal sex differentiation in Nibea albiflora

The aim of this study was to investigate the period of sex differentiation and the pattern of gonadal differentiation in Nibea albiflora using histological techniques. The fish were raised in temperature between 19.5 and 21.5°C. The promordial gonads formed at the posterior region of the abdomen and the fish remained undifferentiated till the 36 day post hatching (dph) with a total length (TL) of 21.20 ± 3.90 mm. Ovarian differentiation precedes testicular differentiation, as usual in teleost fish. Oocytes undergoing meiosis at zygotene (bouquet) and pachytene stages were firstly observed when the total length reached 33.05 ± 4.61 mm at 40 dph, and the formation of the ovarian cavity began simultaneously at 46 dph with total length of 49.40 ± 4.83 mm. When the mean total length reached 78.05 ± 5.24 mm (61 dph), ovarian cavity grew bigger, and oocytes were firstly detected. By contrast, signs of morphological differentiation in the presumptive testis are not observed until their total length reached 69.18 ± 5.26 mm at 55 dph. The unrestricted lobular organization of the testis is evident at the stage of TL = 78.05 ± 5.24 mm (61 dph). These findings indicate that N. albiflora is a differentiated gonochorist and the critical period of sex differentiation in N. albiflora occurs at the stage of TL = 21.20 ± 3.90 mm (36 dph).     

Scp3 expression in relation to the ovarian differentiation in the protogynous hermaphroditic ricefield eel <Emphasis Type="Italic">Monopterus albus</Emphasis>

Synaptonemal complex protein 3 (Scp3), which is encoded by scp3, is a meiotic marker commonly used to trace the timing of gonadal differentiation in vertebrates. In the present study, the ricefield eel scp3 cDNA was cloned, and a fragment encoding amino acids 49 to 244 was overexpressed. The recombinant Scp3 polypeptide was purified and used to generate a rabbit anti-Scp3 polyclonal antiserum. In adult ricefield eels, scp3 mRNA was predominantly detected in the gonads and faintly detected in discrete brain areas. In the gonads, Scp3 immunoreactivities were shown to be localized to the germ cells, including meiotic primary growth oocytes, spermatocytes, and pre-meiotic spermatogonia. During early ovarian differentiation, immunoreactive Scp3 was not detected in the gonads of ricefield eels at 6 days post-hatching (dph) but was found to be abundantly localized in the cytoplasm of some oogonia at 7 dph, coinciding with the appearance of the ovarian cavity and ovarian differentiation. At 14 dph, strong Scp3 immunostaining was detected on one side of the nucleus with a distinct polarity in some germ cells, presumably at the leptotene stage. Consistent with these results, the expression of scp3 mRNA was faintly detected in the gonads of ricefield eels at 6 dph, increased at 8 dph, and then remained relatively high thereafter. Taken together, these results suggest that the appearance of immunoreactive Scp3 in oogonia could be a marker for early ovarian differentiation in ricefield eels. The translocation of the Scp3 protein from the cytoplasm to the nucleus in the oogonium of ricefield eels appears to be a controlled process that warrants further study.     

菊黄东方鲀性腺分化的组织学观察

运用组织切片法,对菊黄东方鲀性腺分化过程进行了观察。在40日龄前,原始性腺未分化。40日龄(21.60～24.71mm),约半数个体开始形成卵巢腔,分化为卵巢;其他约半数个体的性腺仍未分化。雌鱼在60日龄(35.51～43.60mm),形成封闭的卵巢腔;70日龄(46.30～54.75mm),卵原细胞形成卵母细胞;120日龄(94.83～107.29mm),产卵板充分发育,卵巢结构已近完善。雄鱼在60日龄(35.51～43.60mm),形成精小囊及精原细胞,开始分化;90日龄(71.59～80.54mm),形成精小管和精小叶;120日龄(94.83～107.29mm),初级精母细胞形成,性腺分化基本完成。雌鱼性腺分化时期早于雄鱼。     

芳香化酶抑制剂对暗纹东方鲀CYP19A、DMRT1基因表达及性腺分化的影响

摘要: 采用组织学和分子生物学方法, 研究了投喂芳香化酶抑制剂来曲唑(LE)后暗纹东方鲀(Takifugu obscures)初孵仔鱼CYP19A、DMRT1基因表达以及性腺的组织学变化, 以期进一步了解P450芳香化酶(P450arom)在鱼类早期性别分化过程中的作用。RT-PCR结果显示, 对照组样品CYP19A和DMRT1表达显示性二态, 雌性表达CYP19A基因, 雄性表达DMRT1基因。LE处理组在性别分化期间, 雄性样品单一表达DMRT1, 雌性样品则同时表达CYP19A和DMRT1。qRT-PCR结果显示: LE处理组雌性仔鱼CYP19A基因表达被显著抑; 虽然在仔鱼出膜后22 d(dph)的表达水平高于9 dph, 但仅为同日对照组的2.11%。LE处理组雌性样品22 dph时DMRT1基因表达量上调, 至150 dph时达对照组雄性水平。55 dph的性腺组织学结果表明, LE处理可导致暗纹东方鲀稚鱼原始卵巢退化, 并向功能性精巢发育。150 dph的LE处理组性腺均为精巢, 并与对照组精巢发育同步。结论认为, 暗纹东方鲀性腺分化期间P450arom是卵巢形成和维持发育所必须的, 抑制P450arom活性可导致雌性暗纹东方鲀发生雄性化逆转。

     

芳香化酶抑制剂对暗纹东方鲀CYP19A、DMRT1基因表达及性腺分化的影响

采用组织学和分子生物学方法,研究了投喂芳香化酶抑制剂来曲唑(LE)后暗纹东方鲀(Takifugu obscures)初孵仔鱼CYP19A、DMRT1基因表达以及性腺的组织学变化,以期进一步了解P450芳香化酶(P450arom)在鱼类早期性别分化过程中的作用。RT-PCR结果显示,对照组样品CYP19A和DMRT1表达显示性二态,雌性表达CYP19A基因,雄性表达DMRT1基因。LE处理组在性别分化期间,雄性样品单一表达DMRT1,雌性样品则同时表达CYP19A和DMRT1。qRT-PCR结果显示:LE处理组雌性仔鱼CYP19A基因表达被显著抑;虽然在仔鱼出膜后22d(dph)的表达水平高于9 dph,但仅为同日对照组的2.11%。LE处理组雌性样品22 dph时DMRT1基因表达量上调,至150 dph时达对照组雄性水平。55 dph的性腺组织学结果表明,LE处理可导致暗纹东方鲀稚鱼原始卵巢退化,并向功能性精巢发育。150 dph的LE处理组性腺均为精巢,并与对照组精巢发育同步。结论认为,暗纹东方鲀性腺分化期间P450arom是卵巢形成和维持发育所必须的,抑制P450arom活性可导致雌性暗纹东方鲀发生雄性化逆转。     

Effects of a nonsteroidal aromatase inhibitor on gonadal differentiation of bluegill sunfish Lepomis macrochirus

In the present study, the efficacy of Letrozole, a potent nonsteroidal aromatase inhibitor (AI), on gonadal sex differentiation and sex reversal was examined in bluegill sunfish (Lepomis macrochirus). In Experiment 1, using AI diet treatments (50, 150, 250 and 500 mg kg⁻¹) from 30 to 90 days posthatch (dph), AI interrupted ovarian cavity formation at a dose of 500 mg kg¹ diet and one intersex fish was identified in this group. The proportions of males in all the treated groups were significantly higher than those in the control group. In Experiment 2, using AI immersion treatments (250, 500 and 1000 μg L⁻¹) during 30–50 dph, the treated groups of 500 and 1000 μg L⁻¹ produced significantly more males than the control and 250 μg L⁻¹ groups. Histological examination revealed no differences in ovary or testis tissue between control and AI‐treated fish. There were no significant differences detected in body weight and length among the AI treated and control groups (P>0.05) for both experiments. The results from these two experiments suggest that inhibition of aromatase activity by AI could influence sex differentiation in bluegill sunfish.     

水温对半滑舌鳎性腺组织发育的影响

探讨了不同温度(19,21,23,25和27 ℃)对半滑舌鳎的性腺组织发育的影响。在受精后39～106 d对半滑舌鳎进行温度控制处理,通过石蜡组织切片,对半滑舌鳎早期性腺分化发育进行组织学观察。发现在19 ℃饲养条件下,受精后46 d(pfd46)半滑舌鳎性腺原始生殖细胞数量增加,有分化成卵巢的倾向;在该条件下,pfd82半滑舌鳎性腺开始分化为精巢。pfd82时,27 ℃条件下的幼鱼卵巢中卵原细胞数目大量增殖;精巢中精小叶多而密,结缔组织间隔清晰。pfd129时,27 ℃处理的幼鱼卵巢发育到Ⅱ期,其他温度处理组仍处于Ⅰ期卵巢,但随着温度的提高,卵巢中卵母细胞数目增多,且由散乱分布变为有序的排列在卵巢小叶中;精巢中贮精囊数量增多,囊腔中精子增多。pfd142时,高温处理组幼鱼性腺发育最快,其Ⅱ期卵巢中卵母细胞数目最多,精巢中后期生精细胞偏多,精子几乎分布到各个精小叶中,且贮精囊结构发达,内纳高密度精子,在周围输精管中也分布着精子。结果表明,温度影响了半滑舌鳎性腺发育程度,二者呈现线性关系,在适当温度范围内,性腺发育速度随着温度升高而加快。     

Effect of the early temperature on the growth of larvae and postlarvae turbot, <Emphasis Type="Italic">Scophthalmus maximus</Emphasis> L.: muscle structural and ultrastructural study

Turbot specimens were kept at three temperatures (T _s ): warm (W) (21–22 °C), ambient (A) (17–18 °C) and cold (C) (13–14 °C) during the larval and early postlarval stages. At 90 days posthatching (dph), all of them were transferred to ambient T until 190 dph. At 2–3 dph, the specimens showed a monolayer of red muscle and immature white fibres; external or dermomyotome cells (presumptive myogenic cells) were observed on the surface of the red muscle. In the following stages, many myogenic cells and presumptive myogenic precursors were observed within the myotome, presumably derived of the dermomyotome. When comparing the growth at the same age (2, 10, 25, 37 dph), the body length and the muscle growth were positively influenced by the warm T, being the hyperplasia the muscle parameter more significantly influenced. The development rate was also positively correlated with the high T: the beginning of the metamorphosis took place at 15, 23 and 25 dph at W, A and C temperatures, respectively, with the highest body length values at ambient temperature. The metamorphosis finished at 25, 30 and 37 dph at W, A and C temperatures, respectively, with the highest body length values at warm temperature. However, the muscle cellularity was similar in all the groups at the end of the metamorphosis. At 90 and 190 dph, the largest body length was observed at W temperature. However, the muscle cellularity was similar between A and W; the number of fibres was similar in all the groups at 190 dph, which shows the beginning of a compensatory muscle growth in A and C, mainly in A.     

Histomorphological changes in digestive tract of golden mahseer (<Emphasis Type="Italic">Tor putitora</Emphasis>) during different developmental stages

Histomorphological changes in digestive tract of golden mahseer (Tor putitora) were examined in larvae [starting from hatching to 45 days post-hatching (dph)], fry, fingerling, and adult. Digestive tract appeared during hatching, on the dorsal side of yolk sac, as a straight tube with a narrow lumen. Mouth opening and appearance of liver and pancreas were observed at 2 dph, and subsequently anal opening, appearance of goblet cells in esophagus, and posterior intestine were evident at 3 dph. The remodeling of oral cavity in terms of epithelial stratification, appearance of taste buds, and goblet cells were observed in a window of 4–5 dph. Intestinal folding was found to be initiated at 8 dph. From 12 to 45 dph, thickening of oral and esophageal mucosal/extramucosal layers, increase in intestinal folding, increases in the density of goblet cells in entire gut were observed. Within the same time window, other histological changes such as disappearance of vacuoles in liver, and abundance of zymogen granules in pancreas were also observed. Supranuclear vesicles in mid-to-posterior intestine were found to be prominent from first feeding to 45 dph; however, this phenomenon was no longer evident in fry and fingerling. Overall, the increase in intestinal folding and complexity of extramucosal layer were found to be continuous from the first appearance to adult, and this inferred the fact that the nutritional physiology, in terms of digestion and assimilation, progressively changes throughout the life stages of golden mahseer. Findings of this study will, therefore, help in preparing diets for different life stages of this fish, and in addition, the present information widens the understanding of digestive physiology of golden mahseer.     

Morphological development and allometric growth of yellowtail kingfish Seriola lalandi V. larvae under culture conditions

Morphological development and allometric growth patterns of Seriola lalandi larvae were assessed to characterize normal growth patterns under culture conditions. Early ontogenetic stages of yellowtail kingfish exhibited an exponential growth in terms of standard length as a function of age. Five development stages were characterized from hatching to the juvenile stage: larval stage I (0–2 days post hatch, dph) with endogenous feeding, characterized by a small yolk sac, unpigmented eyes, primordial finfold surrounding the body and a closed mouth; larval stage II (2–15 dph) characterized by mouth opening, complete pigmentation of eyes and the beginning of the exogenous feeding; subsequently, in the larval stage III (15–25 dph) the posterior tip of notochord of the larvae bended upward and the first rays appeared in fins, concomitant with a change in swimming behaviour; thereafter, larval stage IV (post‐flexion stage; 25–30 dph) began when larvae resembled in morphology to a juvenile organism; however, caudal and dorsal fins were not completely development. Lastly, the juvenile stage was reached 30 dph characterized by a morphology and fin structures similar to those of the adults. Growth and development of structures and organs associated with vital functions such as feeding, sensorial and breathing systems seemed to be more critical previous to 23 dph, which was reflected with a positive allometric growth of head and eyes during this period. The results from this study can be used as a tool‐guide to assess normal development in larval research with S. lalandi to improve existing rearing protocols in hatchery production.     

Germ cells during gonadal sex differentiation in the teleost

We reported previously that two isoforms of vasa mRNA and protein are present in tilapia (Kobayashi et al. 2002). One (vas-s) lacks a part of the N-terminal region found in the other isoform (vas). Both isoforms are expressed in oocytes through the embryonic stages when PGCs localize in the lateral plate mesoderm. After PGCs localized in the gonadal anlagen, vas-s expression increased and vas expression became undetectable. Expression of both isoforms was observed again after morphological gonadal sex differentiation, irrespective of genotypic sexes. These changes are in accordance with sex differences in number of gonial germ cells during this period, suggesting that molecular sexual dimorphism occurs in germ cells between both sexes during this period.     

四指马鲅淋巴器官发育组织学观察

采用石蜡组织连续切片和HE染色技术,对1~60 dph(Days post hatching)四指马鲅(Eleutheronema tetradactylum)的淋巴器官个体发育进行研究,描述了淋巴器官发育特点及组织学特征。结果显示,在盐度为9.0±0.5,水温为(28±2)℃条件下,3 dph胸腺原基出现,由4~6层未分化干细胞和淋巴母细胞样的细胞组成;胸腺发育迅速,主要由淋巴细胞填充;至25 dph皮质区和髓质区分明显,胸腺发育基本完成。3 dph头肾原基形成,由前肾管和少量造血干细胞组成;5 dph胸腺淋巴细胞向头肾迁移,头肾开始淋巴化;随着鱼体生长,造血干细胞分化成不同类型细胞;18 dph前肾管开始退化,至53 dph完全消失,头肾主要由网状内皮系统支持下的淋巴造血组织构成。7 dph脾脏原基形成,至16 dph开始淋巴化;脾脏内皮系统较头肾发达,但其发育速度较胸腺和头肾慢,淋巴细胞明显少于胸腺和头肾。研究表明,四指马鲅淋巴器官原基出现及淋巴化的顺序是胸腺、头肾、脾脏。免疫淋巴器官结构及功能尚未发育完善,可能是四指马鲅在变态期间幼体死亡率高的主要原因之一。     

中华锯齿米虾性腺早期分化的组织学研究

采用半薄切片法对中华锯齿米虾(Neocaridina denticulate sinensis)性腺发生、性别分化过程及其组织学特征进行了观察。结果显示:中华锯齿米虾性腺原基在孵化后第5天形成。卵巢分化早于精巢,且二者分化方式上存在差异。卵巢从孵化后第10天开始分化,形成早期的卵原细胞,第23天形成卵巢腔,卵巢分化完成。精巢从孵化后第23天开始分化,先形成早期的精巢腔,腔中充满生殖细胞和间质细胞,第35天精巢中开始出现大量精原细胞,精巢分化完成。     

Cryopreservation of trout primordial germ cells

A method for cryopreserving trout primordial germ cells (PGCs) was established. Trout PGCs were successfully cryopreserved with high survival by freezing with medium containing 1.8 M ethylene glycol. Transplantation experiment revealed that frozen/thawed PGCs colonized and proliferated in the recipients' gonads.     

中华锯齿米虾内外性征分化时间与特征

通过对中华锯齿米虾(Neocaridina denticulate sinensis)早期性腺发育的组织学观察和第一腹肢的形态学观察,研究了其雌雄性腺分化的时间、分化过程中生殖细胞及第一腹肢变化的特征。实验结果表明,卵原细胞出现在孵化后发育12～18 d的幼体,此时期所有幼体的第一腹肢内肢均具有刚毛。孵化后发育18～22 d幼体的性腺出现了两种类型:类型1和类型2,类型1具有典型的卵巢特征,之后沿着卵巢发育方向分化;类型2兼备精巢和卵巢的一些特征,之后沿着精巢发育方向分化。精巢的分化要经过一个类卵巢的阶段,在该时期还出现了雄性生殖肢,其第一腹肢内肢刚毛数量减少且为卵圆形,而雌性第一腹肢的内肢在形状与刚毛数量上无明显变化,雄性生殖肢的出现与精巢的分化时间是一致的。     

Histology of the developing digestive system and the effect of food deprivation in larval green sturgeon (Acipenser medirostris)

The histological development of the digestive tract in hatchery-reared green sturgeon (Acipenser medirostris) larvae and the effects of food deprivation on the digestive system organization were studied from hatching until 31 days post-hatching (dph). At hatching, the larval digestive system consisted of two rudiments: a large endodermal yolk sac and a primordial hind-gut. During the endogenous feeding phase, the wall of the yolk sac differentiated into the stomach (glandular and non-glandular regions) and the anterior and intermediate intestine, while the hind-gut primordium differentiated into the spiral valve and rectum. At the onset of exogenous feeding (15 dph at 16 °C), the organization and cytoarchitecture of the digestive system in green sturgeon larvae was generally similar to those of juveniles and adults. Larvae deprived of food exhibited a progressive deterioration, with subtle pathological changes observed after 5-d starvation: shrinkage of digestive epithelia, tissue degeneration, and necrosis were observed at 10–15 d of starvation (30 dph). No changes were observed in the mucous secretion of different regions of the digestive tract of food-deprived larvae. The histological analysis of the larval digestive system may be used to evaluate the nutritional condition of larval green sturgeon in their nursery habitats in spawning rivers, which are affected by dams and flow diversions.     

大黄鱼仔稚鱼不同发育阶段矢耳石形态发育和微结构特征

对人工培育大黄鱼(Larimichthys crocea)的生长发育与矢耳石形态及微结构特征进行研究,结果表明:(1)大黄鱼矢耳石上的轮纹是每日形成的,第1日轮在孵化后第2天形成,与其初次摄食相对应。(2)大黄鱼卵黄囊期和前弯曲期仔鱼的耳石形态为圆形,进入弯曲期耳石长轴迅速伸长,在后弯曲期耳石形态变为椭圆形。进入稚鱼期,矢耳石开始形成次生核。随后次生核数量逐渐增加,在孵化后47～78 d的个体中,次生核数量稳定在5～7个,耳石近似盾形。(3)根据耳石日轮宽度推算的大黄鱼稚鱼在其仔鱼期生长率(b)与第1个次生核的形成时间(tsp1)之间存在明显的线性关系,表明生长较快的个体形成次生核的时间较早,进入稚鱼期所需的时间更短。以上结论表明,大黄鱼矢耳石可以反演其早期生活史阶段的生长发育特征。     

Applying the ontogeny of digestive enzyme activity to guide early weaning of pigfish,Orthopristis chrysoptera (L.)

Weaning marine fish larvae from live prey to a dry microdiet is an important step towards optimizing the commercial production, but early weaning is constrained by the lack of sufficient digestive enzymes at first feeding. This study quantified the activity of five digestive enzymes throughout the larval period of pigfish (Orthopristis chrysoptera [L.]) to assess ontogenetic changes in digestive abilities, and then trials were conducted that determined the optimal time for weaning. The activity of all digestive enzymes was low or undetectable at first feeding (3 days post hatching, dph; 2.5 mm standard length, SL). A substantial increase in activity occurred at 5.7 mm SL (17 dph), 6.9 mm SL (21 dph), 7.7 mm SL (23 dph), 8.4 mm SL (25 dph) and 11.2 mm SL (30 dph) for bile salt‐dependent lipase, trypsin, chymotrypsin, amylase and acid protease respectively. During the weaning experiment, larvae were co‐fed live prey and microdiet beginning 15 dph (4.8 mm SL). Live prey was withdrawn from the diet at 24, 28, 32 or 36 dph, with the control receiving live prey and microdiet throughout (to 43 dph). There were no significant differences in mean final SL among treatments, but survival was significantly lower when larvae were weaned at 24 dph compared to 32–43 dph. Based on the digestive enzyme activity and survival, weaning larval pigfish at 32 dph (11.7 mm SL) when reared at 24°C is recommended.