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1.
鱼类雌核发育是在雌核控制下发育的一种重要的单性生殖方式,本文概述了鱼类雌核发育研究的进展情况,主要包括:雌核发育鱼类的特征、染色体组成、细胞学、异精生物学效应及人工诱导鱼类的雌核发育等方面的内容。并对雌核发育在鱼类育种和水产养殖上的应用作了介绍。  相似文献   

2.
花鲈冷冻精子诱导漠斑牙鲆雌核发育   总被引:3,自引:0,他引:3  
采用紫外线(UV)对冻存的花鲈精子进行照射使其遗传物质失活,作为异源精子诱导源,与漠斑牙鲆卵子进行“授精”,可以诱导漠斑牙鲆卵进行雌核发育。结合静水压处理,抑制第二极体排出,成功获得了漠斑牙鲆雌核发育二倍体鱼苗。实验表明,同源精子和异源精子均可在紫外线照射遗传失活后诱导漠斑牙鲆卵雌核发育,经实验筛选出异源精子诱导漠斑牙鲆雌核发育的最佳条件为花鲈冻存精子采用80 mJ/cm2的紫外线照射,然后与漠斑牙鲆卵子进行授精,培育水温18 ℃条件下,受精后4~5 min,施以65 MPa的静水压休克处理6 min,可有效诱导漠斑牙鲆卵的雌核发育。采用形态学、流式细胞仪DNA含量分析和微卫星标记技术对雌核发育鱼苗进行了分析,证明了雌核发育鱼苗为雌核发育二倍体。本文首次报道了采用异源冷冻精子诱导漠斑牙鲆鱼卵进行雌核发育的技术方法,为漠斑牙鲆性别控制和遗传改良提供了技术手段。  相似文献   

3.
在鱼类遗传育种领域,当前具有较大潜力并比较成熟的是三倍体育种和雌核发育技术,转基因技术也已从实验室研究进入生产应用。  相似文献   

4.
鱼类人工雌核发育的研究始于20世纪50年代,在随后的50年里发展迅速。雌核发育可以为纯系建立、性别控制、基因定位等研究提供一种有效途径,乃鱼类遗传育种研究工作活跃领域之一[1-3]。丁(Tincatinca)隶属于鲤科、雅罗鱼亚科、丁属,是一种广温性鱼类(0~37℃)。主要分布于欧洲,在我国仅分布于新疆额尔齐斯河流域[4]。由于丁雌鱼生长比雄鱼快,Linhart等[5]对其人工诱导雌核发育和雌核发育子代性逆转进行了研究。但到目前为止,与其他大多数鱼类雌核发育研究工作一样,尚未获得功能性雄鱼。本研究旨在对丁人工雌核发育条件进行探索,…  相似文献   

5.
鱼类细胞工程遗传育种研究进展   总被引:3,自引:0,他引:3  
介绍了鱼类细胞工程育种的研究状况,主要包括雌核发育、三倍体诱导、核移植、细胞融合4种育种技术及其在生产上的应用。  相似文献   

6.
大西洋牙鲆的苗种生产技术   总被引:5,自引:0,他引:5  
大西洋牙鲆(Atlantic flounder)学名犬齿牙鲆(Paralichthys dentatus)或狼齿牙鲆,是西北大西洋所产4种牙鲆中的1种较大型鱼类。其生长速度快,耐高温能力较我国目前养殖的褐牙鲆及大菱鲆强,国家海洋局第一海洋研究所于2002年9月将其首次引入我国。此鱼的引进对改善国内养殖牙鲆品种单一、品质改良和遗传育种等具有重要意义。  相似文献   

7.
牙鲆减数分裂与有丝分裂雌核发育的遗传差异   总被引:9,自引:2,他引:7  
利用同一尾牙鲆亲鱼的同一批卵子诱导减数分裂雌核发育二倍体和有丝分裂雌核发育二倍体,同时用牙鲆精子做人工授精制备普通二倍体,作为对照组。利用10对微卫星引物对普通二倍体和两种雌核发育二倍体进行遗传分析。结果表明,母本基因型在8个位点为杂合,2个位点为纯合。普通二倍体有6种基因型,等位基因均来自父母本的随机结合,类型丰富;母本与子代、子代个体之间的遗传相似系数分别为0.452 8和0.560 3,接近随机交配群体的遗传相似度。减数分裂雌核发育二倍体有3种基因型,除在1个位点出现异于母本的纯合基因型外,其他所有位点的基因型与母本完全一致;母本与子代、子代个体之间遗传相似系数分别为0.976 6和0.959 5,接近近交系的遗传相似度。有丝分裂雌核发育二倍体有2种基因型,且全部为纯合型;母本与子代、子代个体之间遗传相似系数分别为0.806 2和0.742 5,有丝分裂雌核发育二倍体全部为纯合个体。减数分裂雌核发育二倍体具有高度的遗传相似性,适于固定母本性状;有丝分裂雌核发育二倍体纯合度高,适于作为制备克隆的亲本;两者具有明显不同的遗传特性,均可作为特征不同的育种材料。  相似文献   

8.
遗传育种新技术在鱼类养殖上的应用   总被引:2,自引:0,他引:2  
近几年来,遗传育种新技术在鱼类养殖上的应用有了很大的进展,这包括:性别的控制、人工雌核发育、诱发多倍体、核的移植、基因工程。从现有的资料看来,研究鱼类遗传育种新技术主要集中在生长激素的基因工程上,就为当前生产养殖应用而言,已取得经济效益的是控制鱼类性别的雌核发育和利用三倍体不育性的染色体工程。  相似文献   

9.
鱼类遗传改良研究综述   总被引:8,自引:2,他引:6  
本文对全世界范围内鱼类遗传改良研究的概况及其有关问题进行了全面的介绍和评述,从选择育种、杂交育种、性别控制、多倍体诱导、细胞核移植和细胞融合、低温保存技术、DNA分子标记育种、转基因技术等方面系统介绍了鱼类遗传改良的方法、在水产养殖中的应用和已取得的成就,并对鱼类遗传改良今后的发展趋势进行了展望,旨在为今后进一步开展鱼类遗传改良研究提供参考。  相似文献   

10.
鱼类人工雌核发育的研究始于20世纪50年代,在随后的50年里发展迅速.雌核发育可以为纯系建立、性别控制、基因定位等研究提供一种有效途径,乃鱼类遗传育种研究工作活跃领域之一[1-3].  相似文献   

11.
The Japanese flounder is a major species in both aquaculture and research. Inbred strains of Japanese flounder were developed efficiently in our laboratory by meiotic and mitotic gynogenetic reproduction techniques. To determine the induction efficiency of gynogenesis and the rate at which full homozygosity is produced, six meiotic gynogenetic females (G1–G6) that had experienced meiotic gynogenesis once and three common females (C1–C3) were selected for production of mitotic gynogenesis in our experiments. Of the nine adult females, all six gynogenetic fish successfully produced viable offspring. However, only one of the three common fish did. Using microsatellite markers, we estimated the homozygosity of gynogenetic fish induced by mitotic gynogenesis. We found that the homozygosity of seven lines (C1, G1–G6) increased quickly, individually from 43%, 72%, 69%, 71%, 78%, 69% and 58% to 100%, 100%, 100%, 90%, 100%, 100% and 90% offspring complete homozygosity. Under mitotic gynogenesis, individuals with higher homozygosity had a higher induction rate. The G4 line showed the highest induction rate, achieving 44.59% convert hatching rate and 29.28% convert normality rate. We conclude that meiotic gynogenesis may be a feasible method to produce DH genetic material in Japanese flounder.  相似文献   

12.
牙鲆连续两代减数分裂雌核发育家系的遗传特征   总被引:5,自引:3,他引:2  
对牙鲆(Paralichthys olivaceus)减数分裂雌核发育二倍体(Meio-G1)再次诱导减数分裂雌核发育,获得连续两代雌核发育二倍体家系(Meio-G2),以Meio-G1亲本与1尾普通牙鲆雄鱼人工授精获得的家系作为对照组(control)。利用15个微卫星标记对3个家系进行遗传特征分析。结果显示,15个微卫星位点在Meio-G1、Meio-G2和对照组3个家系中,分别扩增到30、28、50个等位基因,平均等位基因数为2.0、1.9、3.3,平均观测杂合度(Ho)分别为0.875 3、0.774 2、0.908 3,平均纯合度分别为0.124 7、0.221 5、0.091 7。3个家系个体间的平均遗传相似系数分别为0.891 7、0.923 8、0.520 2,亲代与子代之间的平均相似系数分别为0.916 6、0.930 4、0.560 3。高重组率的Poli9-8tuf、Poli18tuf、Poli107tuf 3个位点在Meio-G1和Meio-G2中观测杂合度均为1.0,低重组率的Poli33tuf、Poli24MHFS两个位点在Meio-G1和Meio-G2中均全部纯合,观测杂合度为0。结果表明,Meio-G2的纯合度、个体间平均相似系数以及亲子之间的平均相似度均略高于Meio-G1,显著高于对照组家系,证明连续两代诱导减数分裂雌核发育,能提高鱼类纯合度和遗传相似度,具有固定母本遗传性状的作用。  相似文献   

13.
The Japanese flounder Paralichthys olivaceus is a commercially important fish that is stocked extensively from hatchery rearing programs in Japan. To examine the genetic variability of hatchery-raised juveniles of the Japanese flounder that are used for stocking into natural waters, we analyzed a portion of the mitochondrial genome. The mtDNA region extending from the 3'half of the cytochrome b gene to the central domain of the control region was PCR amplified and analyzed using 11 restriction endonucleases. We identified 34 polymorphic cleavage sites out of a total of 61 sites, which resulted in 67 different haplotypes in a total of 265 offspring, examined from eight hatchery stocks. Haplotype diversity of offspring at each of the eight hatcheries ranged from 0.49 ± 0.09 (SE) to 0.94 ± 0.03 (SE). Also, we observed 40 polymorphic sites out of a total of 59 sites, which resulted in a total of 50 haplotypes in 60 wild flounder. Haplotype diversity of the wild population was 0.98 ± 0.01 (SE). The use of subcultured fishes as broodstock appears to be one of the most important causes of reduced genetic diversity in hatchery-raised flounder juvenile. Our results suggest that the use of wild fish for broodstock is an effective way to maintain genetic variability in Japanese flounder offspring.  相似文献   

14.
牙鲆抗鳗弧菌病AFLP分子标记筛选   总被引:13,自引:1,他引:12  
牙鲆(Paralichthys olivaceus)感病群体和抗病群体通过注射鳗弧菌(Vibrio anguillarum)获得。利用61对AFLP引物组合扫描了牙鲆感病群体和抗病群体各20个个体,结果共扩增出3 200条带,8条AFLP带在2个群体中显示了极大的差异(P<0.01),其中有2条带是在抗病群体中出现的高显性基因频率的标记,另外6条带是在感病群体中出现的高显性基因频率的标记。这些标记很可能是与抗病性相关的候选标记。这些抗病性候选标记的获得为实现牙鲆分子标记辅助育种和抗病基因克隆奠定了一定基础。[中国水产科学,2007,14(1):155-159]  相似文献   

15.
迟缓爱德华氏菌(Edwardsiella tarda)是牙鲆(Paralichthys olivaceus)的主要致病菌之一,严重影响牙鲆养殖业的可持续发展。本研究主要以2012、2013和2014年选育的优质抗病牙鲆家系为亲本,于2016年建立和培育了28个牙鲆家系,包括F3代家系4个、F_4代家系23个和对照家系1个。经过60 d的鱼苗早期生长性能测定和迟缓爱德华氏菌人工攻毒感染实验,筛选得到7个高抗病力(攻毒感染存活率66%)的家系,包括1个高抗病、速生家系(F1639),攻毒存活率达77.23%,比28个家系的平均值高32.75%,全长日增长率达到0.174 cm/d,比28个家系的均值高0.023 cm/d。该家系亲本源自2007年[F0750,抗鳗弧菌(Vibrio anguillarum)病家系]、2009年(F0927,抗鳗弧菌病家系)和2014年(F1421,抗迟缓爱德华氏菌家系)选育的抗病力强家系。历代攻毒感染实验的结果显示,选育的牙鲆家系抗病力逐代提高,说明通过家系选育(同胞选择),能够有效提高选育后代的抗病力。本研究进一步证明,家系选育是培育鱼类抗病优良品种的有效途径,为进一步培育出生长更快、抗病力更强的牙鲆新品种奠定了良好的基础,也为牙鲆对爱德华氏菌抗病性能的遗传解析和抗病机理研究提供了良好的遗传材料,对其他鱼类抗病良种选育具有重要指导作用和应用价值。  相似文献   

16.
We analyzed a portion of the mitochondrial genome of hatchery Japanese flounder Paralichthys olivaceus to compare the genetic characteristics between maternal parents and their offspring. The maternal parents consisted of 11 subcultured fish (broodstock taken from hatchery-raised fish) and 41 wild fish. A 1098 base pair region extending from the 3'half of the cytochrome b gene to the central domain of the control region of mtDNA was amplified by PCR and analyzed using 11 restriction endonucleases. We also analyzed the number of copies of tandem repeats in the control region from the sizes of the PCR products. Each female parent had a unique haplotype, but only 31 of them were observed among the 66 offspring examined. From these results, we estimated that about 60% of the maternal parents in the hatchery contributed to the offspring we surveyed. The distribution of the family sizes of the wild fish was Poisson, which is consistent with expectation from a randomly mating population. In contrast, the distribution of family sizes of the subcultured fish deviated from a Poisson distribution. One of the sources of the deviation was that none of the six oldest fishes contributed to offspring production, which is consistent with observation that the spawning peaks later in the spawning season for older fish in flounder hatcheries. Uneven contribution of the female flounders in the hatchery has the potential to reduce substantially the genetic diversity in the offspring. Our results suggest that the misuse of subcultured fish as broodstock is an important cause of reduced genetic diversity in hatchery-raised flounder juvenile.  相似文献   

17.
异源精子诱导条斑星鲽雌核发育   总被引:1,自引:0,他引:1       下载免费PDF全文
用冷冻保存的花鲈精子作为异源精子,采用紫外线(UV)对精子进行照射使其遗传物质失活,然后与卵子进行授精,可以刺激条斑星鲽鱼卵进行雌核发育,在受精后一定时间采用冷休克处理“受精”卵,抑制第二极体排出成功获得了条斑星鲽雌核发育二倍体鱼苗。实验表明,花鲈精子只有经过紫外线照射遗传失活后,才能诱导产生条斑星鲽雌核发育二倍体鱼苗。经过大量实验筛选出诱导条斑星鲽雌核发育的最佳条件为花鲈冷冻精子采用80 MJ/cm2 的紫外线照射,然后与条斑星鲽卵子进行授精,在受精后7~9 min,将受精卵放在-1.0~1.5 ℃海水中进行冷休克处理,持续时间为60~90 min,在此条件下,获得的雌核发育二倍体的相对诱导率达40.68%±7.24%。由于不失活精子与条斑星鲽卵形成的杂交胚只能存活到原肠期,而染色体未被成功加倍的胚胎会由于单倍体的致死效应在孵化前后死亡,所以存活的仔鱼全部为条斑星鲽雌核发育二倍体。采用微卫星标记技术对雌核发育鱼苗进行了分析,证明了雌核发育鱼苗为雌核发育二倍体。首次报道了采用异源冷冻精子诱导条斑星鲽鱼卵进行雌核发育的技术方法,为条斑星鲽性别控制和遗传改良提供了技术手段。  相似文献   

18.
牙鲆三个同源纯系的生长和遗传性状比较   总被引:1,自引:1,他引:0       下载免费PDF全文
利用同一牙鲆(Paralichthys olivaceus)家系F09119的母本,建立了减数雌核发育系(F1324)、卵裂雌核发育系(F1346)及近交家系(F1313)3个纯系,对3个纯系群体的生长和遗传性状进行比较分析。在受精后85~388 d对3个家系的体长、体宽、体重及成活率进行测定比较,结果显示:F1346生长最快,388 d时体长、体宽和体重分别为(28.89±2.77)cm、(10.00±1.21)cm和(254.91±83.11)g,F1313次之,F1324最慢(P0.05)。388 d时F1324成活率最高(46.50%),F1313次之(38.00%),F1346最低(26.80%)。F1346、F1324和F1313平均等位基因数(Na)分别为2.0、2.0和2.35,平均有效等位基因数(Ne)分别为1.87、1.95和2.1,多态信息含量(PIC)分别为0.35、0.36和0.4,平均观测杂合度分别为0、0.8155和0.6366;卵裂雌核发育系和减数雌核发育系的遗传多样性明显低于近交系。平均期望纯合度F1313(0.503)F1324(0.5105)F1346(0.532);平均期望杂合度正好相反,F1313(0.4967)F1324(0.4894)F1346(0.4679)。卵裂雌核发育系纯合度是减数雌核发育系的1.0421倍,是近交系的1.0577倍;减数雌核发育系纯合度是近交系的1.0149倍。F1346与F1313之间的遗传距离最大(0.1568),遗传相似度最小(0.8549);F1346与F1324之间的遗传距离最小(0.0406),遗传相似度最大(0.9602)。本研究结果为牙鲆纯系构建及解析卵裂雌核发育系、减数雌核发育系和近交系的遗传区别提供了理论依据。  相似文献   

19.
ABSTRACT

Aquaculture of Japanese flounder, Paralichthys olivaceus, started in the middle 1970s in Japan, and the commercial production became extensive in the early 1980s, with development of seedling production and farming techniques. Annual production in 1996 was 7,692 metric tons, ranked fourth among marine cultured finfish after yellow-tail, red sea bream, and coho salmon. Marine finfish aquaculture in Japan is mostly conducted in floating net cages; however, land-based culture tanks are the prevalent culture system for Japanese flounder. The tanks are circular, square, or octagonal and constructed of various materials: concrete, plastic and/or a combination of the two. Culture tanks are generally inside or covered with shade cloths. Sand-filtered sea water is continually supplied to each tank, with 12 to 24 exchanges daily. Three-gram fish are stocked in the culture tank and raised for 1 to 2 years until they grow to 500-1,000 g. Survival ranges from 60 to 80%. Sardines and sand lance, fresh or frozen, are mainly fed; however, use of moist or dry pellets are increasing recently because of the decline in catch of these fishes. Fingerlings are obtained from commercial hatcheries virtually year-round. The fish utilize almost no dietary carbohydrate as an energy source, and an increase of lipid in the diet did not improve the growth, although it did seem to produce a slight increase in protein efficiency ratio. Therefore, diet for Japanese flounder should contain high percentages of protein (fish meal). Finding alternative protein sources for fish meal in the diet has been researched, and the potential of defatted soybean, corn gluten, feather, meat, and meat bone meals have been examined. The optimum temperature for the growth is 20-25°C. Salinity range of 4.4 to 34.0 ppt did not affect the growth of Japanese flounder at 8 g initial body weight.  相似文献   

20.
To establish the practical use of microbound diets (MBD) for larval fish in mass seedling production, rearing experiments of larval red sea bream, Pagrus major , and Japanese flounder, Paralichthys olivaeeus , were conducted. A mixture of various protein sources was used, and dietary amino acid patterns were approximated to those of larval whole body protein. Two thousand red sea bream larvae and 1,000 Japanese flounder larvae, all 10 days old, were placed in 100 liter tanks with running sea water under ambient water temperature, which ranged from 18 to 20C. The particle size of MBD was 125 μm at the beginning of the experiment and adjusted as fish size increased thereafter. Employing MBD together with a small amount of live food could sustain the growth and survival of larval red sea bream and Japanese flounder. Thus, data from the present study indicates that substitution of artificial feeds for live foods is possible for larval fish production, although improvements in MBD diets may be necessary before they are adequate for large scale seedling production.  相似文献   

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