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Ryosuke Murata Hirofumi Karimata Mohammad Ashraful Alam & Masaru Nakamura 《Aquaculture Research》2010,41(2):303-308
The Malabar grouper Epinephelus malabaricus is an important candidate species for commercial aquaculture in tropical and subtropical areas. In nature, this species requires more than 10 years to change sex from female to male and have active spermatogenic tissues in the testis. Thus, it is essential to find a means of producing sperm for seed production. This is the first report of artificial sex change in underyearling E. malabaricus . Female E. malabaricus with immature ovaries at 144 days post-hatch (DPH) were fed a diet with 17α-methyltestosterone (MT) at 50 μg g−1 diet for 6 months. Sex change occurred in most of the treated fish, which had testis with all stages of spermatogenic germ cells including spermatozoa. In contrast, most of the control fish had immature ovaries. These results, which reveal that germ cells in the underyearling grouper have the ability to produce spermatozoa in response to exogenous androgen, demonstrate that sex change can be artificially induced during ovarian development. 相似文献
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Yasuhiro Fujioka 《Fisheries Science》2006,72(5):1034-1041
ABSTRACT: The sex ratios of the offspring of males from broods of honmoroko Gnathopogon caerulescens that displayed thermolabile sex determination (TSD), and those from eggs collected from the wild, strongly suggest that the combination of parents plays an important supplementary role in TSD in this species. The proportion of females in all broods from eight pairings of fish captured in the field decreased significantly at 30°C compared to 20°C, and one brood was entirely female at the lower temperature. These results suggest that phenotypic males (XX-males) exist in nature, probably as a result of sex change from genetic females caused by TSD. Sex ratios in relation to water temperature fall into five patterns, two of which seem to result from normal pairings of XX-females and XY-males, and from pairings of XX-males and XX-females with non-thermosensitivity. Two other patterns are thought to result from the same types of pairing, but with thermosensitivity. The last pattern, which shows male bias at both low and high temperature, is not explained only by the combination of genotypic sex determination (XX/XY) and TSD. Fluctuating temperatures close to natural conditions showed little potential to masculinize broods laid in the field between April and early June. However, the sex ratios of fish spawned in early June showed male bias at low and high temperatures. The sex determination mechanism in G. caerulescens may involve the interaction between temperature and sex-determining genetic factors, and the relative importance of each component differs with breeding season. 相似文献
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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。 相似文献
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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。
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前期报道了利用尼罗罗非鱼LG22上性别连锁的分子标记检测到养殖群体存在天然XY雌鱼,但其能否用于培育YY超雄罗非鱼尚不清楚。本研究首先引入遗传性别受LG22染色体严格控制的CQ尼罗罗非鱼群体和具有天然XY雌鱼的WC群体,将CQ群体XY雄鱼与WC XY雌鱼杂交,检验杂交F1 YY超雄鱼是否可用于控制后代性别,并比较杂交F1 XY和YY罗非鱼体质量、性腺指数、血清激素水平和性腺基因表达情况。研究发现,CQ XY雄鱼和WC XY雌鱼交配,获得的F1 中具有25%的YY超雄鱼,经鉴定为全雄且可育。将F1 YY超雄鱼与WC XX雌鱼、WC XY雌鱼(母本)、杂交F1 XX雌鱼和CQ XX雌鱼交配,后代几乎全雄,仅在与F1 XX雌鱼交配后代中有2尾雌鱼(雄性率98%)。在孵化后180 d,杂交F1中XY和YY个体的体重、性腺指数、血清激素水平差异不显著。基因表达分析发现,YY鱼精巢中AmhX/AmhY mRNA表达显著高于XY鱼,而Dmrt1 和Cyp11b2 mRNA表达水平差异不显著。杂交F1 YY和XY鱼生理指标无明显差异。因此,采用尼罗罗非鱼天然XY雌鱼能够培育YY超雄鱼,且该YY超雄鱼能够用于罗非鱼性别控制。 相似文献
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Morphology, endocrinology, and environmental modulation of gonadal sex differentiation in teleost fishes 总被引:1,自引:0,他引:1
Successful reproduction by an adult depends on the normal ontogenesis of the gonads, a complex process of cellular and histological
differentiation that starts early in life. This process is theoretically predetermined by genetic factors and includes sensitisation
of the bipotential gonads to endogenous endocrine factors prior to, during and even after commitment to maleness or femaleness.
However, young fish are relatively vulnerable to a host of environmental (physical and chemical) factors that can affect this
endogenous endocrine axis, disturbing or even overriding the putative developmental pathway. This sexually lability can be
exploited to our advantage for the production of monosex fish populations of the most valuable sex for food production or
aquarium fish trade. On the other hand, it represents also a potential path for undesirable influences from endocrine-disrupting
chemicals and climatic factors, particularly environmental temperature. This paper provides a detailed account of the early
histological process of gonadal sex differentiation, with special reference to gonochoristic species, and reviews the criteria
employed to positively identify ovarian and testicular differentiation. It also reviews the development of endocrine competence
and sensitivity of the differentiating gonads to exogenous influences in the context of the relative stability of genotypic
sex determination in various fish species. Sex differentiation in some species seems to be under strong genetic control and
may not require endogenous sex steroid production. Conversely, reliance on endogenous sex steroids for gonadal differentiation
is observed in other species and this phenomenon is apparently associated with a higher incidence of environment (mainly temperature)-labile
sex differentiation.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
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为研究白斑狗鱼(Esox lucius)雌、雄基因组差异,实验对20尾雌鱼和20尾雄鱼分别进行混池重测序。测序结果显示:雌、雄池待分析测序数(clean reads)分别为282400688条和277391000条,碱基测序错误率(Q30)为94.44%和93.98%。经过与参考基因组比对分析,得到2076647个雌性SNP和2076942个雄性SNP;105810个雌性Indel和647466个雄性Indel;具有显著性别特异的SNP位点10个;使用SNP-Index算法筛选出性别特异区域26个。对雌、雄基因组进行比对和组装分析,分别获得雌、雄特异序列524条和500条。选择116条雌性和160条雄性特异序列进行PCR验证,得到一条长度为773 bp具有雄性偏向性的序列。 相似文献
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Abstract The blue‐throated wrasse, Notolabrus tetricus (Richardson), is a site‐attached protogynous hermaphroditic species, with a small home range of 1000–2000 m2, and the most abundant fish on inshore coastal reefs of South Australia. Long‐term studies over 18–24 years were conducted at an island reserve site and a fished mainland reference site. At the reserve site the retention rate of fish (reduced by mortality + emigration) was directly correlated with female mean size; the female:male sex ratio ranged from 10 to 20:1, consistent with an induction‐inhibition model of sex‐change. At the fished reference site, female mean size declined under intense fishing, and the sex ratio became strongly skewed towards females. Additional spatial surveys over >2000 km of coast showed that: (1) juvenile and adult abundance was variously determined by habitat features, such as substratum‐type, depth, bottom relief, wave exposure and algal canopy cover, and by geographical factors, such as distance off‐shore and within gulfs; and (2) that female mean size and the sex ratio were strongly influenced by recreational fishing, and to a small extent by bottom relief and other factors. The results suggest that female mean size and the sex ratio together can be used as an indicator of recreational fishing intensity at local scales. As populations of sequential hermaphroditic species are sensitive to size‐selective harvesting, management measures should aim to prevent sperm limitation, reproductive failure and skewed sex ratios in this species. 相似文献
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Ronald George Oldfield 《Fish and Fisheries》2005,6(2):93-110
Genetic and environmental factors may interact to control sex determination in fishes. A common pattern of initial female differentiation and subsequent male transformation before maturation in non‐hermaphroditic fishes and after maturation in sequentially hermaphroditic fishes has suggested that changes in developmental timing may be responsible for the evolution of various expressions of sexual lability. Sequential hermaphroditism is rare in freshwater fishes, but investigators report degrees of sexual lability at four distinct life stages in cichlid fishes. Some cichlids undergo genetic sex determination and are not labile. Lability at the larval stage allows temperature or pH to determine sex. Social interactions apparently determine sex at the juvenile stage in the Midas cichlid (Amphilophus citrinellus). Most reports of post‐maturational sex change in cichlids are anecdotal or unsubstantiated. The common occurrence of same‐sex spawning suggests that many species are incapable of sex change. Sequential hermaphroditism is concluded not to be typical, except for the checkerboard cichlid (Crenicara punctulata), which regularly undergoes functional female‐to‐male transformation. Expression of sexual lability at four life stages in one family of fishes corroborates a role for developmental timing in the evolution of sequential hermaphroditism as well as environmentally controlled sex determination. The broad phylogenetic distribution of sexual lability in cichlids indicates that processes capable of producing sex change are generally present. The rarity of sequential hermaphroditism in cichlids and possibly other freshwater fishes is likely due to unpredictability of food and therefore potential mate distributions compared with coral reef habitats. 相似文献
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Sex differentiation of summer flounder (Paralichthys dentates L.) raised at practical hatchery temperatures 
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下载免费PDF全文 Heidi R. Colburn Timothy S. Breton George C. Nardi David L. Berlinsky 《Aquaculture Research》2015,46(5):1188-1196
Female summer flounder grow considerably faster than males, and rearing temperature has been shown to influence sex differentiation in related species. The present studies were conducted to examine sex differentiation of post‐metamorphic juveniles reared at temperatures conducive for commercial production. In experiments 1 and 2, offspring produced from crosses with meiogynogenetic, sex‐reversed males and normal females were raised at 14, 16 or 18°C for ≥300 days or 12°C for 30, 60 or 120 days and then transferred to a male‐determining temperature (21°C). In all cases, the fish developed predominantly as phenotypic males (≥74%). In a third experiment, offspring produced from crosses with normal males and females were reared at 15, 17 and 19°C for 111, 227 and 278 days and then transferred to 21°C. Most fish (≥92.1%) developed as phenotypic males irrespective of rearing temperature or length of exposure. Several hypotheses are proposed for these findings and further research is necessary to understand the sex‐determining mechanisms in this species before the economic advantages associated with sexually dimorphic growth can be realized. 相似文献
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Nargis Sultana Mohd Golam Quader Khan Mostafa Ali Reza Hossain Md Samsul Alam 《Aquaculture Research》2020,51(5):1923-1932
Stocking of all‐male fingerling produced by direct administration of male hormone 17‐α‐methyltestosterone is the most preferred method for present‐day aquaculture of the Nile tilapia Oreochromis niloticus. However, due to the growing concern of negative impact of steroid hormone in food fish, production of ‘genetically male’ tilapia, which depends on the concrete and thorough understanding of sex determination, has long been a scientific curiosity. The objective of the present study was to identify reliable sex‐linked markers and to evaluate the applicability of those markers in terms of monosex production approach. ‘XY’ neofemales were produced by using synthetic oestrogen and identified through selective breeding and progeny testing. Three females with progeny not deviating from 3:1 sex ratio (male:female) were designated as ‘XY’ neofemales and were used subsequently to produce putative YY progeny. Among the fifteen microsatellite markers tested, marker ARO172 was most informative in differentiating male and female genotypes. Twenty‐seven F2 fish from three families were identified as putative YY males based on marker genotyping, and four of them were crossed to produce F3 to validate marker association by progeny testing. The YY males produced 86%–100% male progeny indicating ARO172 a unique sex‐linked marker applicable in marker‐assisted selection. 相似文献
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鱼类性别决定机制是脊椎动物中最复杂的。同高等脊椎动物一样,鱼类性别决定的基础依然是遗传基因。鱼类的性别控制对于水产养殖有着十分重要的指导意义。目前用于生产实践的鱼类人工性别控制方法有很多,但大多数仍然处于探索与实验阶段,理论上的作用机理仍未研究透彻。文章旨在通过对鱼类性别决定机制、性别决定相关基因等方面国内外研究进展的阐述,为鱼类性别控制、调控养殖鱼类的经济性状如生长率和个体大小等,提供有益的参考资料。 相似文献
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2017年7月~2018年6月,在青海湖的洱海、大湖、黑马河口、泉吉河口、沙柳河口和布哈河口6处采样点,共采集青海湖裸鲤(Gymnocypris przewalskii)繁殖群体样本295尾,对不同繁殖群体的繁殖特性进行比较研究。结果显示,除泉吉河口的性比(♀∶♂)<1(即0.82∶1)外,其余5个繁殖群体雌性个体数量均大于雄性(♀∶♂>1);6个繁殖群体的所有样本中,雌性的生物学最小型大于雄性。其中,雌性群体(布哈河口)的生物学最小型的年龄、全长和体重分别为5龄、157 mm和42.5 g,雄性(沙柳河口)为4龄、124 mm和24.5 g;6个繁殖群体的雌性性成熟系数(GSI)显著高于雄性(P<0.05),沙柳河口雌性GSI(19.67±1.36)%显著高于洱海(10.28±1.36)%和大湖(13.35±1.24)%(P<0.05),而不同繁殖群体雄性GSI间差异不显著(P>0.05);黑马河口平均绝对繁殖力Ft[(3338.18±324.25)粒]和相对繁殖力Fr[(21.88±2.10)粒/g]分别与沙柳河口的Ft[(10699.40±613.91)粒]和Fr[(82.68±4.63)粒/g]存在显著差异(P<0.05)。以上研究结果表明,青海湖裸鲤的繁殖特性在不同群体之间已出现分化趋势或已经分化。本研究可为进一步了解青海湖裸鲤的种群结构以及制定合理的渔业资源管理措施提供基础数据,特别是增殖放流策略的优化。 相似文献
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NAOTAKA OMOTO MAMORU MAEBAYASHI ERI MITSUHASHI KOJI YOSHITOMI SHINJI ADACHI KOHEI YAMAUCHI 《Fisheries Science》2002,68(5):1047-1054
The effects of giving oral estradiol-17β (E2 ) and 17α-methyltestosterone (MT) on gonadal sex differentiation in the F2 hybrid sturgeon, the bester ( Huso huso female × Acipenser ruthenus male), are investigated. Giving E2 at 10 μg/g diet to fish from 14 months until 31 months of age induced incomplete feminization and resulted in approximately 40% abnormal ovary development in which oocytes were observed without ovarian lamellar structures and gonadal shape was similar to normal testis. Giving MT at 25 μg/g diet for the same duration failed to induce masculinization, and resulted in approximately 30% undeveloped gonads even at 30–37 months of age. In contrast, E2 and MT at only 1 μg/g diet given from 3 to 18 months of age was sufficient to induce feminization and masculinization, respectively. In these fish, feminization and masculinization were observed at 9 months, when most putative ovaries and testes were histologically distinguishable by the shape of the gonadal surface. These results indicate that sex reversal can be induced in these fish by hormone treatment that is started at 3 months age, before morphological differentiation occurs on the stroma of the gonads. 相似文献
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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。 相似文献
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Hanwen Yuan Shiyuan Gong Zhangjie Chu Guobin Zhang Yongchao Yuan Wenjie Gong Jianlin Yan 《Aquaculture Research》2011,42(12):1752-1763
We investigated the effects of low dietary protein in isocaloric diets on sex reversal of Monopterus albus by evaluating the oestradiol (E2) and testosterone (T) concentrations, gonadosomatic index (GSI), sex ratio and gonad structure at the histological level. Fish (9.50 ± 1.50 g average initial weight; n=3 per group) were fed with five practical diets containing 100, 150, 200, 250 or 400 g kg?1 crude protein to apparent satiation for 15 months. Serum E2 and T concentrations were determined by radioimmunoassays. E2 concentrations and GSI significantly increased while T concentrations decreased as the dietary protein level was raised. Fish fed 400 g kg?1 of dietary protein had significantly higher E2 concentrations and GSI than those fed with lower dietary protein levels. The T concentrations of fish fed 100 g kg?1 of dietary protein was significantly higher than that of fish fed higher dietary protein levels. The shift of sex ratio towards more male and intersex fish was observed with decreasing dietary protein levels. Therefore, low dietary protein level may promote sex change from female to male in M. albus. This study provides important information for successful reproductive management and may be exploited for aquaculture of this species. 相似文献
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Junpei Inazawa Ricardo Shohei Hattori Miho Oura Masashi Yokota Carlos Augusto Strüssmann 《Aquaculture Research》2011,42(6):746-753
The pejerrey Odontesthes bonariensis (Valenciennes 1835) and the Patagonian pejerrey Odontesthes hatcheri (Eigenmann 1909) are Atherinopsid species with commercial importance and potential for aquaculture. The hybrids of the two species are viable but their mode of sex determination is unknown. This study examined the gonadal histology and sex ratios of reciprocal hybrids that were reared at 15, 17, 21, 25 or 29 °C during the sex differentiation period. The genetic sex of hybrids from O. hatcheri fathers was inferred from a sex‐linked SNP marker. Both hybrids showed female‐biased sex ratios at the lowest temperature, female‐biased to balanced sex ratios at intermediate temperatures and balanced or male‐biased sex ratios at 29 °C, but unlike in purebred O. bonariensis, the lowest and highest temperatures did not yield monosex populations. The proportion of females in the offspring was affected more by parental genome than by hybrid combination. Female hybrids bearing the O. hatcheri Y chromosome showed temporary arrest of ovarian development that was rescued in adults. These results reveal strong interactions between genotype and temperature for sex determination and differentiation of the hybrids and provide important clues to understand the mechanisms of sex determination in these species. 相似文献
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动物从受精卵发育到具有不同性别特征的个体是一个奇妙而又严谨的过程,是人类长期以来试图揭示的自然现象。上世纪90年代初在人类Y染色体上发现了性别决定基因SRY[1],进而发现了一个新的Sox基因家族[2]。上述基因的发现,促进了以哺乳类为代表的动物性别决定和分化机制研究。由于鱼类在脊椎动物中的特殊进化地位、庞大的种类数量以及显著的社会经济价值,鱼类的性别决定研究一直受到遗传和发育学者的重视。尽管离最终阐明鱼类性别决定的机制还有距离,但近20多年来鱼类性别决定的遗传基础研究已取得不少重要进展。本文试图根据现有文献资料,… 相似文献