用RAPD技术对罗非鱼遗传变异的研究及应用(英文)

应用随机扩增多态性ＤＮＡ（ＲＡＰＤ）技术检测了一个奥利亚罗非鱼（ａｕ）和湘湖（ｎｘ）、美国（ｎｍ）、沙市（ｎｐ）三个尼罗罗非鱼养殖群体（Ｔａｂｌｅ１）。在２０个引物（Ｔａｂｌｅ ２）中筛选到１２个引物,它们的扩增产物显示了罗非鱼和尼罗罗非鱼二者在群体内或群体间存在遗传差异。其中（Ｆｉｇ．１）, ＯＰＺ０６、 ＯＰＺ１６、 ＯＰＺ１２和 ＯＰＺ１９四个引物分别有一个扩增片段具有种的特异性。它们的大小分别是９００、１５００、１７００和７３０ｂｐ。可以作为鉴别罗非鱼和尼罗罗非鱼二者的分子遗传标记。湘湖（ｎｘ）、美国（ｎｍ）和沙市（ｎｐ）三个尼罗罗非鱼群体内遗传变异相似性指数Ｓ分别为 ０．７９８、 ０．７９５和０．８２４（Ｔａｂｌｅ ３）。表明：这三个尼罗罗非鱼群体都保留了较高水平的遗传变异。而奥利亚罗非鱼（ａｕ）的群体内遗传变异最小。奥利亚罗非鱼（ａｕ）与湘湖（ｎｘ）、美国（ｕｍ）、沙市（ｕｐ）三个尼罗罗非鱼群体之间的遗传距离分别是０．２８５、０．２６２和０．３４４（Ｔａｂｌｅ ３）,说明奥利亚罗非鱼（ａｕ）和沙市尼罗罗非鱼（ｎｐ）杂交将可能产生较强的杂种优势。     

应用RAPD技术分析奥利亚罗非鱼和尼罗罗非鱼的基因多态性

以随机扩增多态DNA技术(RAPD）分析了奥利亚罗非鱼和尼罗罗非鱼两个养殖群体的群体内及群体间遗传关系,并探讨了该技术在种群鉴定中的应用。RAPD引物筛选结果表明,所测试的20个随机引物中(Table 1),除一个引物未扩增出任何片段外,其余19个引物均扩增出1～11个大小不等的片段,长度大部分在500—3000bp之间,共扩增出220个片段,平均每个引物产生55个片段。两群体间共有片段70条,大部分引物的扩增产物具有种间多态性,种群间相似系数为0.727。以筛选的引物对两种群不同个体(Fig．1,Table 2)及种群混合样品(Fig.2,Table 3)进行RAPD分析。结果表明,不同引物在扩增图谱上表现很大差异：奥利亚罗非鱼不同个体间表现为一致的扩增图谱,种内相似系数达1000,显示了其种群内遗传变异的缺乏;尼罗罗非鱼种内相似系数为0．827,个体间存在不同程度的多态性;两个种群间的相似系数分别为0．767和0.742,表明种间有较高的同源性,遗传距离为0．235,略低于国外的报道．此外,两个养殖群体间的扩增图谱比较也暗示了遗传渐渗现象的存在。实验表明,RAPD标记可以作为一种可靠的遗传标记,用于不同鱼类种群的鉴定,RAPD分析方法是一种快速,简便且行之有鼓的鉴定鱼类种群的方法。     

用RAPD技术对罗非鱼遗传变异的研究及应用

应用随机扩增多态性DNA（RAPD）技术检测了一个奥利亚罗非鱼（au）和湘湖（nx)、美国（nm)、沙市（np）三个尼罗罗非鱼养殖群体（Table1)。在20外引物（Table2）中筛选到12个引物,它们的扩增物显示了罗非鱼和尼罗罗非鱼二者在群体内或群体间存在遗传差异。其中（Fig.1),OPZ06、OPZ16、OPZ12和OPZ19四个引物分别有一个扩增片段具有种的特异性。它们的大小分别是900、1500、1700和730bp。可以作为鉴别罗非鱼和尼罗罗非鱼二者的分子遗传标记,湘湖（nx）、美国（nm）和沙市（np）三个尼罗罗非鱼群体都保留了较高水平的遗传变异。而奥利亚罗非鱼（au）的群体内遗传变异最小。奥利亚罗非鱼（au）与湘湖（nx）、美国（nm)、沙市（np）三个尼罗罗非鱼群体之间的遗传距离分别是0．285、0．262和0．344（Table3）,说明奥利亚罗非鱼（au）和沙市尼罗罗非鱼（np）杂交将可能产生较强的杂种优势。     

应用RAPD技术对不同基因组组合生物型遗传多态性的研究(英文)

利用ＲＡＰＤ技术对不同基因组合的鱼类进行了基因组指纹图谱构建,在ＤＮＡ水平上对基因组成分进行了分析,探讨了其遗传多态性。ＲＡＰＤ结果发现,在２６个随机引物扩增的产物中,平均每个个体观察到约１４２个ＲＡＰＤ标记,单个引物获得的标记平均为５．４。其中４个引物扩增的图谱可将不同的生物型区分开：Ｓ－２６引物的扩增图谱（Ｆｉｇ．１）可将红鲫（ＲＡ）与其它组合区分开,还可将鲤鲫杂种一倍体（ＣＡ）与鲫鲤杂种三倍体（ＣＡＡ）和人工复合三倍体鲤（ＣＣＡ）区分开;Ｓ－８引物（Ｆｉｇ．２）可区分开红鲤（ＲＣ）和镜鲤（ＭＣ）;Ｓ－４５引物（Ｆｉｇ．３）可区分开ＲＣ和ＣＡ;Ｓ－２２引物则可区分开ＣＡＡ和ＣＣＡ。六种生物型均存在基因组特异性的图谱即各自独特的“诊断性”图谱,作者由此建立了详细的分子标记检索表（Ｔａｂｌｅ１）。通过对ＲＡＰＤ图谱的量化分析,利用ＵＰＧＭＡ构建了不同生物型的遗传关系树图;反映了鲤鲫及各种组合生物型之间的遗传相似关系：ＲＣ和ＭＣ属同一种系,聚为一族;ＣＡＡ和ＣＡ基因组类型相同,聚为一族;ＣＣＡ虽自成一体,但可与ＣＡＡ和ＣＡ聚为一族;而ＲＡ与其它组合遗传距离较远,自成一族。ＲＡＰＤ的结果也表明各种生物型内个体间     

巴马小型猪群体遗传结构的随机扩增多态DNA分析

目的分析巴马小型猪的群体遗传结构。方法应用经过筛选的 ３１条引物对巴马小型猪个体基因组ＤＮＡ进行ＲＡＰＤ扩增,利用从ｉｎｔｅｒｎｅｔ网上下载的软件ＲＡＰＤ ｉｓｔａｎｃｅ Ｐａｃｋａｇｅ ｖｅｒ－ｓｉｏｎ１．０４软件对实验结果进行分析,计算不同个体间的相似系数。结果经ＲＡＰＤ反应,共扩增出２７５条带,其中多态性带８５条,多态性带频率在０～６６．７％之间,平均为２７．７％。不同个体猪拥有的ＲＡＰＤ条带具有差异,但拥有相同条带个体猪比率较高。该群体猪的相似系数（Ｆ）为０．９２８（０．７８～０．９７）,平均等位基因频率（ｑ）为０．７３２,最低平均杂合率（Ｈ）为０．２８６。结论巴马小型猪个体具有较好的遗传一致性和遗传稳定性。     

微卫星标记分析罗非鱼群体的遗传潜力

利用25个微卫星标记,对奥利亚罗非鱼2个群体["夏奥1号"(ZA)、广西群体(GA)]和尼罗罗非鱼4个群体[埃及品系(ZN)、88品系(XN)、广西群体(GN)、美国品系(MN)]进行检测。共检测到7 775个扩增片段,长度在100~400 bp;等位基因数3~8个不等,共计143个等位基因;平均每个基因座扩增得到5.72个等位基因。各群体平均观测杂合度(H o)在0.7253~0.8160之间,平均期望杂合度(He)在0.5146~0.6834之间,平均多态信息含量(PIC)在0.4212~0.6105之间,平均有效等位基因数(A e)在2.20~3.23之间。ZA与GA遗传相似系数最高(0.9130),ZA与ZN遗传相似系数最低(0.4352)。总的说来,4个尼罗罗非鱼群体的遗传潜力较高,2个奥利亚罗非鱼群体的遗传潜力适中。     

草鱼和鲤群体遗传变异的RAPD指纹分析

利用随机扩增多态ＤＮＡ技术对革鱼,兴国红鲤,野鲤的种群内,种群间以及种间的遗传变异亏待进行了定量分析。结果表明;草鱼与鲤的ＲＡＰＤ指纹图谱带型差异显著,草鱼与红鲤和鲤种间的平均带纹相似系数分别为０．２５８３和０．２３９４,遗传距离分别达到０．９３６２和１．２２７７。     

四个奥利亚罗非鱼群体的微卫星分析

应用筛选到的19对微卫星引物,对四个不同来源的奥利亚罗非鱼（Oreochromis aureus）群体（奥利亚罗非鱼83系、奥利亚罗非鱼02系、奥利亚罗非鱼05系和红色奥利亚罗非鱼）的基因组DNA进行PCR扩增,分析其群体遗传结构和亲缘关系。根据几个群体在19个位点上的PCR扩增图谱,统计计算各群体的遗传多样性指数。四个群体的平均观测遗传杂合度值在0．154—0．391间;平均预期杂合度在0．181—0．428间;平均多态信息含量值在0．1513—0．3882间,说明它们的遗传多样性水平较低。遗传偏离指数D的评估结果显示这4个群体有多个位点存在不同程度的Hardy—Weinberg遗传平衡偏离。运用MicroChecker软件进行零等位基因预测,结果显示除红色奥利亚罗非鱼群体外,其他3个群体中均可能存在零等位基因位点。各群体零等位基因的位点数分别为：83系1个,02系3个,05系7个,红奥群体为0。零等位基因位点的存在可能是导致位点发生Hardy—Weinberg遗传平衡偏离的原因之一。4个群体中,05系群体与83系群体间的遗传相似性系数最高（0．9422）,遗传距离最小（0．0596）,说明两者亲缘关系最近;83系群体与红奥群体的遗传相似性系数最低（0．6977）,遗传距离最大（0．3599）,可推断两者亲缘关系最远。根据群体间的遗传距离采用UPGMA法进行聚类,结果表明：83系首先与05系聚类为一支,然后与02系群体聚类,最后与红奥群体聚类。聚类结果说明红奥群体与其他三个群体亲缘关系最远;83系群体与05系群体亲缘关系最近,与02系群体次之。     

吉丽罗非鱼(尼罗罗非鱼♀×萨罗罗非鱼♂)及其两亲本遗传变异的微卫星分析

吉丽罗非鱼是由耐盐性较强的萨罗罗非鱼做父本与生长速度较快的尼罗罗非鱼做母本进行杂交、杂交后代自交产生,2009年全国水产原良种审定委员会审定为养殖新品种。为了分析吉丽罗非鱼及其两亲本遗传特性,选择有代表性的6对微卫星引物,对这3种罗非鱼遗传变异进行研究分析。研究结果表明:(1)6对微卫星引物扩增产物片段大小为180～350bp,共发现21个等位基因,鱼类群体间、微卫星座位间及等位基因间都存在极显著差异。(2)有效等位基因数(Ne)、Nei's基因多样指数(H)和多态信息含量(PIC)值等群体遗传多样性指标都是吉丽罗非鱼>尼罗罗非鱼>萨罗罗非鱼,吉丽罗非鱼PIC值达到了0.657,属于高度多态性。(3)吉丽罗非鱼与萨罗罗非鱼的遗传距离要比与尼罗罗非鱼的近,萨罗罗非鱼对吉丽罗非鱼的遗传影响要大于尼罗罗非鱼。     

冬虫夏草的随机扩增多态DNA及其遗传分化

本文对来自青藏高原３个区域５个具有代表性地方的１３个冬虫夏草样本进行随机扩增多态ＤＮＡ（ＲＡＰＤ）分析。１９个随机引物获得的ＲＡＰＤ谱带清晰并呈现多态,单个引物获得的ＲＡＰＤ片段数在３￣１０个之间。该１９个引物在每个样本中扩增的ＲＡＰＤ片段总数平均约为６５个。基于遗传距离分析,受试的１３个冬虫夏草样本中,来自同一地方的样本间遗传差异甚微,同一区域不同地方的样本间遗传差异较大,不同区域的样本间遗传差     

Genetic variation within and among populations of a wild rice Oryza granulata from China detected by RAPD and ISSR markers

Genetic variation within and between five populations of Oryza granulata from two regions of China was investigated using RAPD (random amplified polymorphic DNA) and ISSR (inter-simple sequence repeat amplification) markers. Twenty RAPD primers used in this study amplified 199 reproducible bands with 61 (30.65%) polymorphic; and 12 ISSR primers amplified 113 bands with 52 (46.02%) polymorphic. Both RAPD and ISSR analyses revealed a low level of genetic diversity in wild populations of O. granulata. Furthermore, analysis of molecular variance (AMOVA) was used to apportion the variation within and between populations both within and between regions. As the RAPD markers revealed, 73.85% of the total genetic diversity resided between the two regions, whereas only 19.45% and 6.70% were present between populations within regions and within a population respectively. Similarly, it was shown by ISSR markers that a great amount of variation (49.26%) occurred between the two regions, with only 38.07% and 12.66% between populations within regions and within a population respectively. Both the results of a UPGMA cluster, based on Jaccard coefficients, and pairwise distance analysis agree with that of the AMOVA partition. This is the first report of the partitioning of genetic variability within and among populations of O. granulata at the DNA level, which is in general agreement with a recent study on the same species in China using allozyme analysis. Our results also indicated that the percentage of polymorphic bands (PPB) detected by ISSR is higher than that detected by RAPD. It seems that ISSR is superior to RAPD in terms of the polymorphism detected and the amplification reproducibility. Received: 29 March 2000 / Accepted: 15 May 2000     

Genetic diversity among chicken breeds estimated through randomly amplified polymorphic DNA.

The randomly amplified polymorphic DNA (RAPD) markers were used to detect polymorphism among five breeds of chicken i.e. White Leghorn and Rhodes Island Red (selected for part period egg production and egg mass respectively), Red Cornish and White Plymouth Rock (selected for early body weights) and Kadaknath (native breed). Twelve of the fifty random primers screened yielded distinct polymorphic RAPD profiles. Of the total 96 fragments amplified, about 25% showed polymorphism. Using the RAPD data matrix, the within population and between population genetic similarity was estimated. The selected improved breeds showed higher within population genetic similarity in comparison to the native breed. The two meat type breeds showed a high level of genetic similarity between themselves. The White Leghorn breed showed a low genetic similarity with other breeds. The native breed showed highest similarity with Rhodes Island Red. The dendogram was constructed to show phylogenetic relationship among these breeds. As expected, the genetic distances were lowest within similar type breeds and were highest between dissimilar type breeds. The results indicated the effectiveness of RAPD in detecting polymorphism between chicken populations and their applicability in population studies and establishing genetic relationships among the chicken populations.     

Identification of the Molecular Markers Linked to the Salt-resistance Locus in the Wheat Using RAPD-BSA Technique

Calli from mature embryo of “Jimai-24” wheat ( Triticum aestivum L.) were induced on medium containing Zhengdingmycin then continuously cultured on medium containing 0.5% NaCl till to regenerate plants named 8901-17 salt-tolerant mutant. “Jimai-24” was compared with 8901-17 by using the technique of RAPD. Thirty-five out of 280 random primers could detect DNA polymorphism. The similarity index was 0.978, indicating that they were NILs (near-isogenic lines). Two F2 populations (“Jimai-24”×8901-17 and 8901-17דZhongmai-9”) had been constructed using the method of half-division. The two relative DNA pools (salt tolerant DNA pool and susceptible DNA pool) which come from the two F2 populations, respectively, had been made according to the method of BSA (bulked segregant analysis). RAPD analysis between the two DNA relative pools was carried on with above 35 random primers which could detect DNA polymorphism definitely. The identical polymorphism between the two sets of DNA pools come from the two F2 populations could be determined only by OperonQ4 primer. This result implied that the polymorphic fragment amplified by OperonQ4 primer was the molecular marker of RAPD closely linked to the salt tolerant mutation locus.     

Large extent of mitochondrial DNA transfer from Oreochromis aureus to O. niloticus in West Africa

Introgressive hybridization has an important evolutionary significance in terms of gene diversity and speciation. Among the major groups of vertebrates, fish show a strong propensity to hybridize. In order to highlight the possible occurrence of gene flow between two tilapia species, Oreochromis niloticus and O. aureus, a comparison of allozyme and mitochondrial DNA (mtDNA) polymorphism was performed on sympatric and allopatric populations of these two species. Nuclear data were congruent with the morphological identification of O. niloticus and O. aureus populations. In opposition, the mtDNA analysis resulted in two strictly differentiated groups which did not follow the morphological and nuclear DNA classification. The first group consisted of East African O. niloticus populations and the second included all the O. aureus populations and the West African O. niloticus populations. Moreover, in some cases, the same sequences were detected in both species. These data strongly support a differential introgression of mtDNA from O. aureus to O. niloticus involving all the West African area. This work points out the risk of misinterpretation of mtDNA or nuclear DNA data when only one single class of marker is used.     

RAPD variations among pure and hybrid populations ofPicea mariana, P. rubens, andP. glauca (Pinaceae), and cytogenetic stability ofPicea hybrids: Identification of species-specific RAPD markers

Random amplified polymorphic DNA (RAPD) analysis was used to determine genetic relationships amongP. mariana (black spruce),P. rubens (red spruce), andP. glauca (white spruce) and to assess the degree of polymorphism within populations from different provenances and among spruce hybrids. Eleven arbitrary decamer primers were used to amplify genomic DNAs extracted from embryogenic cultures and seedlings. Species-specific RAPD markers were identified.Picea mariana andP. rubens showed similar RAPD profiles confirming their close genetic relationship. Species-specific RAPD markers were identified and were useful in distinguishing white spruce from black and red spruces. RAPD differentiation between populations within each species was small. The level of polymorphism was much higher in spruce hybrid populations than in the pure species. Cytological analysis ofP. mariana ×P. rubens hybrids showed normal mitotic behaviour at prophase, metaphase, anaphase, and telophase. All the hybrids analyzed from different cross combinations were euploids.     

高大山羊草(Aegilops longissima Schweinf.and Muschl.)遗传多样性的RAPD分析

通过70个 RAPD 引物对高大山羊草15份材料进行扩增,共扩增出766条带,其中无多态性(即相同带)的带115条,占总带数的15%,有多态性的带651条,占总带数的85%。通过分析,发现高大山羊草的 Y315、Y316、Y317与其它12份材料差异很大,这3份材料的特异带有253条,占整个多态性带数的38.9%。经 NTSYS 系统聚类表明,高大山羊草 Y315、Y316、Y317这3份材料为一个类群,而其余12份材料为另一类群;这2个类群中任何一份山羊草与另一类群中任何一份山羊草的遗传距离均很大,变幅为1.38～1.58,是它们各自类群内遗传距离的3倍以上。鉴于这两类材料在分子水平的 RAPD 扩增产物上差异很大,并考虑到这两个类群在形态上也确实存在明显差异,因而建议将高大山羊草分为两个亚种,当然这一观点还有待收集更多的材料做进一步的研究。     

Identification and Characterization of Malaysian River Catfish, Mystus nemurus (C&V): RAPD and AFLP Analysis

This work represents the first application of the amplified fragment length polymorphism (AFLP) technique and the random amplified polymorphic DNA (RAPD) technique in the study of genetic variation within and among five geographical populations of M. nemurus. Four AFLP primer combinations and nine RAPD primers detected a total of 158 and 42 polymorphic markers, respectively. The results of AFLP and RAPD analysis provide similar conclusions as far as the population clustering analysis is concerned. The Sarawak population, which is located on Borneo Island, clustered by itself and was thus isolated from the rest of the populations located in Peninsular Malaysia. Both marker systems revealed high genetic variability within the Universiti Putra Malaysia (UPM) and Sarawak populations. Three subgroups each from the Kedah, Perak, and Sarawak populations were detected by AFLP but not by RAPD. Unique AFLP fingerprints were also observed in some unusual genotypes sampled in Sarawak. This indicates that AFLP may be a more efficient marker system than RAPD for identifying genotypes within populations.     

Analysis of genetic variation in rare endemic species Oxytropis chankaensis Jurtz. (Fabaceae) using RAPD markers

The method of polymerase chain reaction with random primers (RAPD) was used to assess genetic variation and population differentiation in the rare endemic plant Oxytropis chankaensis Jurtz. (Fabaceae). DNA samples from plants of two isolated populations were compared at 133 loci detected by use of ten primers. Both populations examined were characterized by high polymorphism levels (P95 = 72.9%, A = 1.92 and P95 = 74.4%, A = 1.88, respectively). They were also statistically significantly different in the frequencies of most of the amplicons. For each of the plants, unique multilocus RAPD phenotype was established using 17 to 20 RAPD markers. Diagnostic markers were not revealed. The populations were poorly differentiated. On average, the between-population component accounted for about 8% of the variation, while 92% of the variation was detected within populations. High variation along with the low degree of differentiation characteristic of two most geographically remote populations of O. chankaensis can have several explanations, among which a polyploid origin of the species seems to be most important.     

Low Genetic Polymorphism in Natural Populations of Crotalaria Longipes

Natural genetic variation present in two populations of the critically endangered legume C. longipes was revealed by random amplified polymorphic DNA (RAPD) analysis. Out of the 30 primers used to test the intra-specific genetic polymorphism (between individuals from isolated populations) only 21 gave amplification. Eight primers produced monomorphic bands and 13 primers produced polymorphism. But the range of percent polymorphism was only 0 to 33 %. There was close similarity between individuals within and between populations. Cluster analysis based on Nei's indices did not reveal any population differentiation and individuals of both populations clustered with each other. These results point to a very low genetic polymorphism in C. longipes populations.     

Characterization of Trichomonad Species and Strains by PCR Fingerprinting

ABSTRACT. The random amplified polymorphic DNA (RAPD) technique was used for phylogenetic analysis of trichomonads, for intraspecies genealogical study of Trichomonas vaginalis strains, and for assessment of intrastrain polymorphism in Trichomonas vaginalis . The phylogenetic tree for 12 trichomonad species showed certain discrepancies with current models of trichomonad evolution. However, it shows that RAPD traits retain phylogenetically relevant information. The results of intraspecies analyses of 18 Trichomonas vaginalis strains suggested some concordance between the genetic relationship of strains and their geographic origin. They also suggested a concordance between the strain genetic relationships and the resistance to metronidazole. A concordance was also found with respect to the severity of disease observed in donor patients but not with the results of laboratory virulence assays. No concordance was found between genetic relationship of strains and strain infection with a dsRNA Trichomonas vaginalis virus (TVV). The latter suggests that TVV might be transmitted horizontally among Trichomonas vaginalis populations. The identity of RAPD patterns of clones isolated from in vitro cultures and those of the cultures reisolated independently from the same patient within a period of six weeks suggests that individual Trichomonas vaginalis strains are not polymorphic and that the RAPD patterns are stable. Therefore, the RAPD technique seems useful for addressing various clinically relevant issues.