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1.
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2.
以二倍体、三倍体、四倍体长牡蛎(Crassostrea gigas)闭壳肌和精子为研究对象, 采用石蜡组织切片、透射电镜和扫描电镜方法, 比较了 3 种倍性长牡蛎闭壳肌和精子的组织学特性及超微结构的差异。研究结果显示, 二、三、 四倍体闭壳肌组织的肌纤维都包含粗肌丝、细肌丝、肌膜、肌束膜、肌内膜、线粒体、囊泡、小管、细胞核、肌浆网等结构, 但三者的形态及超微结构不同, 其中三倍体闭壳肌线粒体直径、肌纤维直径、粗肌丝密度显著大于二倍体和四倍体, 肌纤维密度显著小于二倍体和四倍体。不同倍性精子的扫描电镜和透射电镜结果显示, 二、三、四倍体长牡蛎精子在组成结构上相似, 分别由头部、中段和尾部构成, 但不同倍性精子中各结构大小和线粒体数目不同。在长牡蛎精子头部长度、宽度, 顶体高度、宽度, 线粒体长度的测量分析中, 四倍体精子的头部、顶体以及线粒体显著大于二、三倍体。三倍体精子的头部和顶体显著大于二倍体, 但三倍体精子的线粒体大小与二倍体相比无显著差异。此外, 二、三倍体精子均含 4 个线粒体, 但在本研究中发现了二倍体精子含有 5 个(占比 1%)线粒体的特例。四倍体长牡蛎精子的线粒体数目不同, 含有 4 个(占比 46%)、5 个(占比 52%)、6 个(占比 2%)这 3 种情况。 该研究阐明了不同倍性长牡蛎闭壳肌及精子的组织学特性和超微结构, 为深入研究长牡蛎肌纤维生物学特性和精子繁育生物学提供了基础资料。  相似文献   

3.
Tetraploid fish, which are considered as key resources of diploid gametes for further breeding and ploidy manipulation, can be artificially induced by inhibition of the mitotic cell division with hydrostatic pressure or temperature treatments. Although many attempts have been made to induce artificial tetraploid strains, successful establishment of viable and fertile tetraploid strains are rare. In pond loach, Misgurnus anguillicaudatus, natural tetraploid individuals are distributed in wild populations and diploid gametes from the tetraploid fish have been used for the induction of polyploid individuals, but artificially induced tetraploid strains have not been established yet. In the present study, we optimised starting timing of the heat-shock treatment (41 °C for 2 min) to inhibit a mitotic cell division in fertilised eggs of the normal diploid pond loach between 21 and 51 min after insemination at 20 °C. After the treatment, we observed external appearance of hatching larvae and flow cytometrically determined ploidy status of the resultant larvae. Although tetraploid and diploid/tetraploid mosaic larvae were obtained, the optimum timings for induction of tetraploidy varied amongst crosses. Various kinds of ploidy such as haploidy, diploidy, triploidy, pentaploidy, hexaploidy, aneuploidy and mosaic were detected in non-optimum heat-shock timings for tetraploidisation. Survivors, a tetraploid and a diploid/tetraploid mosaic male, matured at the age of 1-year-old, but they produced functional haploid spermatozoa.  相似文献   

4.
Genetic protection of improved lines of Giant Tiger shrimp, Penaeus monodon, may be achieved through the reliable production of all triploid families, as triploid shrimp are reproductively sterile. The problem with current triploid induction methods is in producing 100?% triploid progeny reliably and doing so on a commercial scale. All triploid offspring may be achievable by mating tetraploids with diploids, overcoming current limitations. However, tetraploidy in shrimp to date has been unsuccessful, with all tetraploids dying very early in development. As the induction method of heat was found to be lethal, this study investigated an alternative method using cold water to assess induction rates and lethality. Cold-water treatments between ?2 and 14?°C were applied at 18, 20, and 22?min post-spawning detection for various durations with the aim of inhibiting first mitosis. Tetraploidy was induced in treatments at or less than 1?°C; however, no nauplii hatched from these treatments. As no diploid or tetraploid nauplii hatched from any of the treatments below 3?°C, it was determined that this cold-water treatment method is not suitable for tetraploid production in P. monodon.  相似文献   

5.
Interploid hybrids were produced by mating allo‐tetraploid males, an interspecific tetraploidy induced by blunt snout bream (Megalobrama amblycephala) ♀× black bream (Megalobrama terminalis) ♂, with blunt snout bream females. The fertilization rate was high in the interploid hybrids. Although significant (P<0.05) mortalities were observed at hatching, swim‐up and 30‐day stages, respectively, the survival percentage of the interploid hybrids became stabilized after the 60‐day stage. In different interploid hybridization batches, 64–97% of juveniles were identified as 3n and 1–36% as 2n. Less than 2% of tetraploids were obtained in these interploid hybridization batches. The daily growth rate of the interploid 3n increased 7.5%, compared with that of diploid blunt snout breams during the 180‐day culture. Moreover, a method using seven morphological parameter ratios was set up with a relatively high classification accuracy of 93.8% to harmlessly discriminate interploid 3n from allo‐tetraploids, black bream and blunt snout bream.  相似文献   

6.
Tetraploid induction has been conducted on temperate oysters but not on tropical oysters. In this study, different heat shocks (32, 35 and 38°C) and cold shocks (1, 4 and 7°C) were used to induce tetraploidy in two tropical oyster species, Crassostrea belcheri and Crassostrea iredalei, through meiosis I inhibition. Temperature shocks were applied on the newly fertilized eggs at 8–10 min post fertilization and terminated when second polar bodies began to form in the control eggs. The ploidy of the larvae and spat was determined via direct chromosome count. The percentage of larval survival until Day 20 was low (between 0.4% and 42.9%) for both temperature shocks and oyster species. No surviving larva was recorded for induction at 1, 4 and 38°C. Tetraploid spat was only recorded in C. iredalei but the percentage is low through heat shock induction of 32 and 35°C. This study shows that the tetraploid induction success rate was slightly higher in C. iredalei compared to C. belcheri. No surviving tetraploid spat were recorded for both oyster species through the cold shock method. This study shows that heat shock can be used to inhibit meiosis for the production of tetraploids but more experiments need to be conducted to determine the optimum temperature when dealing with tropical oysters.  相似文献   

7.
When eggs from the Chinese tetraploid loach that had 100 chromosomes were fertilized with UV-irradiated sperm, we obtained viable gynogenetic progeny without any additional treatment for the duplication of maternal chromosomes, which survived beyond first feeding towards adult stage of development. Gynogenetic progeny were determined to be diploid since they possessed 50 chromosomes, along with two chromosomes bearing nucleolar organizing regions (NORs), detected by silver nitrate staining (Ag-NORs), chromomycin-A3 (CMA3)-positive sites and fluorescence in situ hybridization (FISH) signals for rDNA loci. In contrast, when gynogens were induced using eggs from diploid loach fertilized by UV-irradiated sperm, but without chromosome doubling, we found that all resultant progeny were non-viable haploid gynogens with 25 chromosomes, along with one NOR-bearing chromosome detected by Ag-NORs, CMA3 and FISH. These observations demonstrate the true genetic tetraploid nature of the Chinese loach possessing 100 chromosomes, and the potential use of this tetraploid as a source of functional diploid gametes for further ploidy manipulation experiments.  相似文献   

8.
To determine the cytotype with better traits for the aquaculture practices of the dojo loach Misgurnus anguillicaudatus from the viewpoint of fish farming improvement, factorial crosses (2n♀ × 2n♂, 2n♀ × 4n♂, 4n♀ × 2n♂, 4n♀ × 4n♂) were conducted between natural diploids (D) and tetraploids (T), producing DD, DT, TD, and TT groups (female listed first). The potential benefits of the different cytotypes in culture were evaluated by comparing growth performance and survival rate for a 15-month rearing trial under the same production conditions. The average fertilization rate in DT and TT was significantly lower than in the DD and TD groups, possibly indicating the poor fertilizing capacity of the tetraploid sires. Survival rate in DT and TD was slightly lower than in DD but significantly higher than in the TT groups. Tetraploid females produced obviously larger eggs than diploids and, subsequently, significantly longer initial body length of TT and TD than DD and DT fry. However, from the second month of the growth trial, TT suffered higher mortality than other cytotypes, which significantly influenced morphometric growth parameters. The TD group exhibited superior growth performance throughout the experiment. The mean body length of DT was comparable with that of DD fish during the first 7 months but began to outgrow DD from the 9th month. This study suggests that the relatively better growth of tetraploid and higher survival rate of diploid can be integrated via inter-ploidy hybridization to get TD triploids with better culture traits.  相似文献   

9.
Interspecies hybridization is widely used in aquaculture as a beneficial strategy. Diploid and triploid hybrids have been detected from the interspecies hybridization of Epinephelus coioides ♀ × Epinephelus lanceolatus ♂. This is the first report of triploidization through hybridization in grouper. Confirmation has been obtained through flow cytometry, karyotyping and erythrocyte nuclei measurement. The chromosome numbers of E. coioides, E. lanceolatus, diploid hybrid grouper are 48 and triploid hybrid grouper are 72. Measurements of erythrocyte nuclei indicate that triploid fish have a larger nuclear surface than the diploid groupers, and the average ratio of triploid to diploid surface area is 1.59. During the first 1.5 years, triploid hybrid groupers grow faster than diploid hybrid groupers or either parent species. The average growth rate of triploid hybrids is 1.61 times greater than that of diploid hybrids at 6 months of age and 1.43 times greater at 18 months of age. The triploid hybrid groupers are inferior in gonadal development, with no primary‐growth‐stage oocytes appearing in the gonads at 18 months of age. Morphological studies indicate that triploid hybrid groupers have distinctive differences in snout length, eye diameter, body trunk shape, and tail shape development compared with diploid hybrid groupers. Triploid hybrid groupers have an advantage in growth ability, and artificial breeding of triploid groupers might be of great potential use in the grouper aquaculture industry.  相似文献   

10.
Silver crucian carp Carassius auratus langsdorfii comprises a diploid-polyploid complex in wild Japanese populations. Bisexually reproducing diploids are sympatrically distributed with gynogenetically developing triploids and tetraploids. Triploid and tetraploid males are very rare among Japanese silver crucian carp due to their gynogenetic reproduction. We examined the genetic characteristics of progeny that arose in a tank by natural spawning of a tetraploid silver crucian carp pair. The ploidy status of 120 samples randomly collected from these progeny was determined to be tetraploid by DNA content flow cytometry. DNA fingerprints from a random amplified polymorphic DNA assay indicated that almost all the progeny examined had genotypes identical to the maternal tetraploid female with no paternally derived fragments. Selected specimens’ cytogenetic analyses revealed that the progeny examined had tetraploid chromosome numbers, categorized into 40 metacentric, 80 submetacentric, and 80 subtelocentric or telocentric chromosomes, which were arranged into quartets and six supernumerary microchromosomes. Fluorescence in situ hybridization signals were detected in four homologous chromosomes in all analyzed metaphases prepared from diploid goldfish specimens. Contrary, tetraploid silver crucian carp gave eight rDNA signals. These results suggest that gynogenetic development in eggs spawned by tetraploid females should be triggered by tetraploid males’ homospecific sperm.  相似文献   

11.
Abstract. Results of a 16 year (1977–1992) study of hybrids obtained from crossing two cyprinid fish, crucian carp, Carassius auratus gibelio (Bloch) (bisexual form), and common carp, Cyprinus carpio L., are presented. The ability to produce diploid eggs in F1 females (resulting from chromosome endoreduplication in early oogenesis) was responsible for the high yield of spontaneous diploids in gynogenetic progenies of F1 females and for triploidy in hybrids from back-crosses of F1 females with males of the parent species. Different types of hybrids, including diploid and triploid gynogenetic, tetraploid (amphidiploid) and androgenetic progenies, were obtained. Diploid and some triploid hybrids (females only) were reproduced inter se by induced gynogenesis in several subsequent gynogenetic generations. Amphidiploid hybrids were obtained by crossing triploid F8 females with diploid common carp males or by crossing diploid gynogenetic females with diploid inverted hybrid males producing diploid sperm. Results of cytogenetic investigations and fish culture properties in hybrids are presented. The scientific and practical significance of the data obtained are discussed.  相似文献   

12.
Induction of triploidy and tetraploidy was attempted in Heteropneustes fossilis using heat shock. The optimal age of zygote, temperature level and duration of thermal shock required for effective induction of triploidy and tetraploidy was investigated in a series of experiments. A maximum of 82±7% triploids (3n=87) were obtained when fertilized eggs (2.5‐min old) were heat shocked at 40°C for 4‐min duration. A maximum of 40±8% tetraploids (4n=116) was obtained when the fertilized eggs (30‐min old) were heat shocked at 40°C for 4‐min duration. The triploid and tetraploid red blood cells (RBCs) nucleus volumes were 1.4 and 2.1 times greater, respectively, than that of the diploid RBC nucleus.  相似文献   

13.
Turbot Scophthalmus maximus exhibits sexually dimorphic growth, with females growing faster and reaching larger adult sizes than males. Thus, development of techniques for preferentially producing females is necessary to optimize production of these species. In this paper, gynogenetic diploids of turbot were induced by activating egg development with ultraviolet (UV)-irradiated left-eyed flounder Paralichthys olivaceus sperm combined with cold shock to prevent extrusion of the second polar body. The results of UV irradiation experiments showed that survival, motility, and duration of activity of P. olivaceus sperm generally decreased with increase in UV dose. The typical Hertwig’s effect was observed after fertilized turbot eggs with UV-irradiated P. olivaceus sperm and the optimal UV dose for gynogenetic haploid production was 36,000 erg mm−2. At 15°C, appropriate timing of cold shock for retention of the second polar body in turbot eggs was at 6 min after fertilization. Results of different combinations of two shock temperatures (1 or 3°C) and four shock durations (15, 25, 35 or 45 min) at 6 min after fertilization demonstrated that shock of 25 min at 1°C gave the highest production of diploid gynogens (39.58% relative to its diploid control). The results of this study reveal that the use of UV-irradiated P. olivaceus sperm for activation of turbot eggs and cold shock for polar body retention is an effective method to produce gynogenetic offspring.  相似文献   

14.
Triploidy was induced in mud loach (Misgurnus mizolepis) by cold shocking fertilized eggs 5 min post-fertilization at 2°C for 15 to 60 min. Best results were obtained when eggs were shocked for 60 min; 98% of fish examined in that treatment were triploids. Triploidy was confirmed by erythrocyte measurements and chromosome counts. Diploids had 48 chromosomes, while triploids had 72. Histological analysis of 9-month-old triploid ovaries showed an appreciable number of oocytes at the chromatin nucleolus stage with considerable interstitial tissue. However, diploids had well developed oocytes. Diploid testes from diploid males exhibited normal spermatids and spermatozoa, while a few were seen in triploid males. Growth rate was evaluated over a 9-month growth trial. Although male and female triploids were slightly heavier than their diploid counterparts from the third to the ninth month, their growth rates were not significantly different compared to their diploid controls.  相似文献   

15.
The objective of this paper was to compare the growth and gut morphology of juvenile diploid and triploid Atlantic cod (Gadus morhua) reared under similar conditions. Individually tagged 36‐week‐old diploid (mean weight 49.3 ± 13.8 g) and triploid (mean weight 43.6 ± 11.2) juvenile cod were measured at intervals during a 29‐week growth trial. Data for weight, length, condition factor (K), hepato‐somatic index (HSI), gonado‐somatic index (GSI), Relative Gut Length (RGL) and pyloric caeca number were collected and results were analysed in relation to ploidy status, gender and family contribution. At the end of the experiment, only one family (M2xF3) had many representatives with a relatively even distribution of sexes and ploidies. Diploid females were significantly heavier and had higher K than triploid females in the M2xF3 family (body weight 371.2 ± 120.2 vs. 298.4 ± 100.7 g; K 1.1 ± 0.1 vs. 0.93 ± 0.1), but no differences were found between diploid and triploid males. In the other families (pooled data), no differences in body weight were found between the ploidy groups. In general, triploids had a shorter intestine (RGL) and fewer pyloric caeca than their diploid siblings regardless of gender suggesting possible impairments in nutrient utilization and growth.  相似文献   

16.
Experimental crossings were made between tetraploid loach (Misgurnus anguillicaudatus, T for short) and diploid large‐scale loach (Paramisgurnus dabryanus, P for short), resulting in T×T, T×P and P×P crosses (female before male). Meanwhile, a part of T×P cross was cold shocked to inhibit second meiosis (T×P‐0 for short). Fertility rate, hatching rate and survival rate of T×T, T×P, P×P and T×P‐0 were measured. Flow cytometry and chromosome count were taken to identify ploidy statuses of the four crosses. Results showed that T×T, T×P and P×P were, respectively, tetraploidy (4n = 100), triploidy (3n = 74) and diplody (2n = 48), while 89.19 per cent of T×P‐0 of 12 months old were pentaploidy (5n = 124, T×P‐0‐5n for short) and the others were triploidy. Morphological data of the four crosses of 12 months old showed that morphological characteristics of T×P and T×P‐0‐5n loach were between those of their parents, while T×P‐0‐5n loach presented a smallest head length/body length. Total lengths of T×P and T×P‐0‐5n were significantly larger than those of T×T and P×P, showing hybrid vigour. This study will provide valuable information for production of polyploidy loach and breeding programmes of the two loaches and other closely related species.  相似文献   

17.
Diploid and triploid hybrids of large yellow croaker (Pseudosciaena crocea, Pc) and Miiuy croaker (Miichthys miiuy, Mm) were produced by interspecific hybridization. The result showed that Pc (♀) and Mm (♂) can be successfully crossed and hybrid offspring of normal hatch rate were produced. In contrast, a lower fertilize and hatch rate were produced for hybrids of Pc (♂) and Mm (♀), and the offspring died day 19 after hatching. To confirm the ploidy of hybrid offspring, we examined the karyotypes of offspring. The result of DNA relative content investigation and genetic relationship analysis demonstrated that the major hybrid offspring were hybrid diploid. In addition, a small number of hybrid were triploid and gynogenesis diploid. Morphological analysis based on the measurable traits data indicated the success of the interspecific crosses. The natural gynogenetic diploid large yellow croaker (PP), diploid hybrids (PM) and triploid hybrids (PPM) were closer to maternal parent (Pc) than paternal parent (Mm). This study provided genetic evidences of the chromosome, DNA content and morphological levels to support the successful establishment of the polyploidy hybrids of Pc (♀) and Mm (♂).  相似文献   

18.
The performance of different and expedite spawning induction methods was compared on samples of both mature wild and captive Paracentrotus lividus sea urchin populations. Thermal, saline and mechanical shocks, emersion during different periods of time, addition of con-specific gametes and different KCl concentrations were tested. Percentage of spawned sea urchins, mean number of released eggs, percentage of males that released more than 200 million spermatozoa, and survival after 5 days were the variables analysed. Results indicate that both thermal and saline shocks were ineffective methods to trigger spawning. Mechanical shock and addition of con-specific gametes were able to promote spawning but with a reduced number of released gametes. Emersion for a period of 3 h induced spawning with 100% broodstock survival but longer periods up to 12 h, although increasing the number of spawners can cause significant broodstock mortality. An injection of 1-mL intra-peristomial KCl was an expedite method to obtain P. lividus gametes, but high mortalities were always recorded and was related with excessive KCl concentrations. When there is need for a small number of gametes, the mechanical shock technique can be considered since led to 100% survival. When large spawnings are required, the emersion procedure can be a viable method, but further investigation must be carried out to assess the best time period to obtain broodstock full survival.  相似文献   

19.
微卫星分离模式显示雄性三倍体鲫产生非整倍体精子   总被引:1,自引:1,他引:0  
三倍体鲫(Carassius auratus)行天然雌核发育,其自然种群中却有较高比例的雄性个体,这些雄性个体的性腺发育正常,能产生有活力的精子。而且其精子的DNA含量约为体细胞的一半,显示三倍体鲫精子发生过程中可能经历了均等的减数分裂。流式细胞术虽然能够较准确地测定细胞群的平均DNA含量,但是却很难检测到单个精子中的个别染色体增减,要明确回答雄性三倍体鲫产生的精子是否为整倍体需要定量地检测单个精子的遗传组成。本研究用微卫星标记检测以雌性鲤(Cyprinus carpio)与雄性三倍体鲫为亲本构建的杂种家系的基因型,结果发现母本鲤的多态位点在子代中呈孟德尔分离,父本三倍体鲫具有三套鲫基因组,其等位基因在子代中呈随机分离。上述研究结果提示:三倍体鲫起源于二倍体鲫的同源加倍,而非二倍体鲫和鲤的种间杂交;三倍体鲫通过染色体的随机分离产生非整倍体的精子,其精子发生过程中没有均等的减数分裂。三倍体鲫行雌核发育生殖,却可能并非起源于种间杂交且群体中的雄性个体可育,因而是单性生殖鱼类中的一个特例。  相似文献   

20.
为了探寻不同倍性鱼生殖育性的表观遗传调控规律,实验基于不同倍性鲫鲤精巢的转录本信息库设计引物克隆了不同倍性鲫鲤的MeCP2基因。序列比对结果发现,在远缘杂交的过程中基因组发生了遗传重组和变异。基于序列公共部分设计引物,通过半定量PCR和实时定量PCR的方法分析了MeCP2基因在不同倍性鱼发育过程中的时空表达特征。结果还发现,MeCP2基因在所有组织中都有表达,但在脑组织中的表达量最高;纵向对比性腺的发育过程,MeCP2基因的表达量会随着性腺发育成熟而下降;横向对比不同倍性鱼的性腺发育,MeCP2基因在三倍体鱼卵巢中的表达量明显高于二倍体和四倍体鱼,但在精巢中的表达量随鱼的倍性增加而增加。研究表明,MeCP2基因的表达与不同倍性鱼的卵巢发育密切相关,这为研究鱼类生殖不育的分子机理及其在水产育种上的应用奠定了坚实的基础。  相似文献   

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