998 resultados para DNA 5S
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In higher eukaryotes, the 5S ribosomal DNA (5S rDNA) is organized in tandem arrays with repeat units composed of a coding region and a non-transcribed spacer sequence (NTS). These tandem arrays can be found on either one or more chromosome pairs. 5S rDNA copies from the tilapia fish. Oreochromis niloticus, were cloned and the nucleotide sequences of the coding region and of the non-transcribed spacer were deter-mined. Moreover, the genomic organization of the 5S rDNA tandem repeats was investigated by fluorescence in situ hybridization (FISH) and Southern blot hybridization. Two 5S rDNA classes, one consisting of 1.4-kb repeats and another one with 0.5-kb repeats were identified and designated 5S rDNA type I and type II, respectively, An inverted 5S rRNA gene and a 5S rRNA putative pseudogene were also identified inside the tandem repeats of 5S rDNA type I. FISH permitted the visualization of the 5S rRNA genes at three chromosome loci, one of them consisting of arrays of the 5S rDNA type I, and the two others corresponding to arrays of the 5S rDNA type II. The two classes of the 5S rDNA. The presence of pseudogenes, and the inverted genes observed in the O. niloticus genome might be a consequence of the intense dynamics of the evolution of these tandem repeat elements. Copyright (C) 2002 S. Karger AG, Basel.
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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木根麦冬(Ophiopogon xylorrhizus Wang et Dai)属于铃兰科(Convallariaceae)或广义百合科(Liliaceae s.l.)沿阶草族(Ophiopogoneae)沿阶草属(Ophiopogon Ker-Gawl.),属于典型的濒危植物。前人已从细胞学、种群生态学、生殖生物学和遗传结构与多样性等方面对木根麦冬进行了研究,但在分子进化和分子细胞遗传学水平上的研究近为空白。本文运用染色体的荧光原位杂交(FISH)、PCR扩增和克隆、DNA测序、系统发育重建等方法,对18S rDNA作了染色体原位定位,研究了木根麦冬的Ss rRNA基因结构特点,并重建了该基因的系统发育树,探讨了5S rRNA多基因家族的分子进化模式和木根麦冬的濒危机制。主要结果如下: 1.对木根麦冬三个居群七个个体、及其最近姐妹种林生麦冬(Ophiopogon svlvicola Wang et Tang)一个个体的5S rRNA基因进行了PCR扩增和TA克隆,在两个种中共得到1085个具有插入片段的阳性克隆。 2.对木根麦冬三个居群六个个体的294个SS rRNA基因克隆,及林生麦冬一个个体的45个克隆,总计339个克隆进行了DNA序列测定,这是目前已完成的最大的单个物种的5S rRNA数据。结果表明:两个种的序列高度多样化,在339个拷贝中仅仅有13对(3.8%)是相同的,序列长度变化在307bp-548bp之间,长度变异主要发生在间隔区,单个碱基的插入和缺失(indel)频率很高,5bp以上片段的插入,缺失有11个,插入的序列通常是其两侧序列的重复和倒位。术根麦冬序列的分化指数(sequence differentiation index,SDI)是0.078,林生麦冬是0.032,两个物种间是0.149,木根麦冬的序列之间的分化明显大于林生麦冬。 3.以PAUP程序对339个5S rRNA基因拷贝的DNA序列(包括编码区和间隔区)作了系统发育分析,结果如下:在得到一个唯一的最俭约树中,所有木根麦冬的拷贝被聚成一支,而林生麦冬的则被聚到另一支,统计支持率(bootstrap)达到lOO%,表明这两个物种所有的的5S rRNA基因拷贝分别来自各自的一个祖先拷贝(建立者拷贝),而其共同祖先的其它拷贝则在物种形成中或之后丢失:在多基因家族中如此长期而单一的拷贝偏选( sorting)过程尚未有前人报道;由此基因系统发育树可以看出,在这两个物种形成之后,“建立者拷贝”经历了多次扩增过程而形成了一个直系的(orthologous)多基因家族。 4.在木根麦冬分支中,很少有亚分支是全部由一个居群或一个个体的拷贝组成的,不同居群、不同个体的拷贝混合在同一个亚分支中;对基因系统发育树、序列多样性和序列分化指数分析表明,5S rRNA基因家族内一致化(homogeruzation)过程很弱,不同拷贝是独立进化的,这在串联.重复的多拷贝基因家族中是不寻常的;由上述分析我们推测,在术根麦冬的进化历史上,居群间的基因交流远远比今天频繁,可能是某些外在因素在近期发生变化,导致自交和自交衰退,并进而导致濒危。 5.利用荧光原位杂交技术,成功地将18S rRNA基因定位在木根麦冬减数分裂期的染色体上,两对强信号和一对弱信号分别位于三对二价体染色体上。
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被子植物的rRNA基因已经得到深入研究。二倍体被子植物一般拥有1-4对18S-5.8S-26S rDNA位点和1-2对5S rDNA位点。作为特殊的多基因家族成员,rDNA会受均一化力 (homogenizing forces) 的作用,通过基因转换、不等交换等机制,形成基因的致同进化 (concerted evolution)。长期以来,我们一直认为动植物rDNA致同进化水平很高,各种拷贝的序列几乎完全一致,因此可以直接应用PCR测序的方法进行分子系统学研究。但是在裸子植物中由于研究资料的匮乏,使我们对裸子植物rDNA的变异模式了解甚少。松属植物作为裸子植物的最大类群,它的rDNA变异和进化有何特点、与被子植物是否相同,是这个重要类群的进化研究中目前尚未解决的问题。本文的研究内容从三个方面进行: (1)rDNA的染色体定位 目前,松属的18S-5.8S-26S rDNA的染色体定位研究只包括5种植物,其中的3种同时涉及到5S rDNA定位。这些研究结果表明,不同种存在相异的rDNA位点数目,甚至不同的个体的rDNA位点均有变化。其共同点是,18S-5.8S-26S rDNA位点数平均较被子植物多,5S rDNA除Pinus radiata外,在其它种里则与被子植物相似。这种现象是松属或裸子植物的共同特征,亦或是特例呢?有限的研究限制了对裸子植物rDNA的了解。本研究的目的之一就是研究松属植物rDNA的染色体空间分布特征,希望借此了解松属植物间的关系,比较裸子植物和被子植物rDNA在染色体组水平的差异。 (2)5S rDNA的分子进化 5S rDNA的序列水平的进化研究在松属中尚属空白。5S rDNA在染色体数目上没有显示裸子植物与被子植物的差异,是否意味着松属乃至裸子植物的5S rDNA也同被子植物一样——致同进化完全,序列高度一致呢?利用克隆测序方法对松属植物5S rDNA的研究无疑是有开创性的工作,可以探讨裸子植物的5S rDNA的进化机制和种间关系。 (3)杂种基因组研究 杂交物种的起源演化是当前生物学研究的热点,通过杂种基因组的研究,可以了解杂种的的基因组构成,组织方式和进化历史,探讨杂交事件对成种过程的影响及意义。这项研究涉及到高山松、云南松和油松。之所以采用这三种植物,因为等位酶、cpDNA和mtDNA证据证明高山松为油松和云南松的自然杂交种。但这些证据不足以反映杂种核基因组的重组特征和构成及其进化规律。我们利用rDNA-FISH、5S rDNA和基因组原位杂交分析三种松树间的基因组关系,为揭示高山松的进化机制和历史提供新的依据。 本项研究得到以下结果: 一. rDNA荧光原位杂交 (FISH) 通过对华山松和白皮松两种单维管束亚属植物及油松、云南松、高山松、马尾松和南亚松等五种双维管束亚属植物的18S rDNA与5S rDNA的荧光原位杂交,结果表明: ⑴ 裸子植物的18S rDNA位点数目明显多于二倍体被子植物。其中主要位点数目,油松有7对,高山松5对,云南松8对,马尾松10对,南亚松6对,白皮松3对,华山松10对,平均在7对;另外,部分松树还存在弱位点。无论强弱位点都有部分存在于染色体的着丝粒区,除了赤松 (Pinus densiflora),在其它松科植物中并没有发现这种现象。究竟是基因转移的结果或该位点是18S rDNA的原始起源位置还有待确证。 ⑵ 5S rDNA位点相对变异较小,与被子植物相当。除了华山松5S rDNA有4对位点,马尾松只有1对位点外,其它松树的5S rDNA位点数目均为2对,并且在双维管束亚属植物中有一对属于弱位点。 ⑶ 两种rDNA存在不同连锁模式。双维管束亚属植物中,5S与18S rDNA连锁在同一染色体的同一臂或两条臂上。在同一染色体臂时,18S rDNA在臂的远端。单维管束亚属植物的5S与18S rDNA或连锁于同一染色体的同一臂上,或分别处于不同染色体。前一情况,5S rDNA位于臂的远端。据此可以说明两个亚属的rDNA结构在染色体组水平的很大分化。 ⑷ 松属植物的关系及高山松核型特征。由于5S与18S rDNA连锁关系的不同,可以将单维管束亚属和双维管束亚属分开。各亚属的不同物种可以依据杂交位点的多少、位置、信号强弱构成的核型图加以区分,并且构成一定的系统关系。杂交起源的高山松在染色体组上,表现出对油松和云南松两亲本不同染色体特征的分别继承与重组,并产生独有的特征。其II同源染色体之一18S rDNA位点的缺失,可能是染色体重组的痕迹。 二. 5S rDNA的序列变异与分子进化 利用分子克隆和DNA测序分析了油松、云南松、马尾松、白皮松和不同遗传背景的高山松居群的5S rRNA基因序列变异及基因进化规律,得到以下主要结果: ⑴ 5S rDNA的结构特征。双维管束亚属植物长度在658-728 bp,白皮松则为499-521 bp。长度差异体现在基因间隔区,而基因区极端保守,基本为120 bp。基因转录区内部存在着转录控制区,决定了5S rRNA的转录起始与转录效率。5S rRNA基因能够折叠成正常的二级结构,其中,相对于干区来说,环区要保守,但环E却表现出异乎寻常的变异,转换/颠换比值高达7.1,这种突变可能是假基因的产物。基因间隔区存在一定的保守单元,其中一些与转录的起始和终止调控相关,有些是裸子植物未知功能的特异保守区。 ⑵ 松属植物5S rDNA存在着基因组内与种间的异质性。基因组内的各个克隆中有超过80%的特异的,彼此不相同。整个5S rDNA分化距离为0.042 - 0.051,其中,间隔区的分化比基因区高,其速度约是基因区的3-7倍。比较种间5S rDNA序列发现:在122个克隆中,基因区只有50个特异的序列。基因组间的序列变异度与基因组内 (个体内) 没有明显差别。白皮松的间隔区与双维管束亚属松树的5S rDNA间隔区差异极大,几乎不能排序,而四种双维管束亚属植物的5S rDNA间隔区种间种内差异不大。 ⑶ 松属植物5S rDNA进化。PAUP分析建立的5S rRNA基因树显示,5S rRNA基因在基因组内是多系的 (polyphyletic),表明成种事件以前,祖先种就已经存在序列的分化。观测到的5S rRNA基因序列变异状况,并非完全是致同进化或独立进化的单一因素造成的,而是二者的相互作用的结果。致同进化确实存在,只是速度较慢而已。 ⑷ 高山松5S rDNA 组成。高山松拥有最高的基因组内的序列多样性,高山松的5S rDNA拷贝既有亲本类型,又有重组类型,并且不同地理及遗传来源的高山松显示一定的分化趋势,有更多的拷贝来自母系亲本。 三. 基因组原位杂交 以油松和云南松总DNA作为探针,相互进行基因组原位杂交,结果显示云南松和油松的染色体组可以完全被对方探针标记,在现有基因组原位杂交的分辨率下不能将两个基因组区分开。说明云南松和油松基因组之间存在高比例的同源序列,两种松树的基因组组成十分相似。利用油松和云南松总DNA作为探针,对高山松的染色体组进行双探针基因组原位杂交。结果表明,高山松全部基因组都能与两亲本探针完全杂交,说明三者间有着异乎寻常的亲缘关系。但在PH失调影响下,高山松只有部分基因组被杂交,并且两种探针的杂交信号有轻微差异。这可能是高度重复序列优先杂交的结果。这些情况表明,高山松虽然在基因组构成上与两个亲本基本一致,但基因在染色体组的空间排布上是存在差异的,这一点可以从rDNA-FISH中证明。
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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A substantial fraction of the eukaryotic genome consists of repetitive DNA sequences that include satellites, minisatellites, microsatellites, and transposable elements. Although extensively studied for the past three decades, the molecular forces that generate, propagate and maintain repetitive DNAs in the genomes are still discussed. To further understand the dynamics and the mechanisms of evolution of repetitive DNAs in vertebrate genome, we searched for repetitive sequences in the genome of the fish species Hoplias malabaricus. A satellite sequence, named 5SHindIII-DNA, which has a conspicuous similarity with 5S rRNA genes and spacers was identified. FISH experiments showed that the 5S rRNA bona fide gene repeats were clustered in the interstitial position of two chromosome pairs of H. malabaricus, while the satellite 5SHindIII-DNA sequences were clustered in the centromeric position in nine chromosome pairs of the species. The presence of the 5SHindIII-DNA sequences in the centromeres of several chromosomes indicates that this satellite family probably escaped from the selective pressure that maintains the structure and organization of the 5S rDNA repeats and become disperse into the genome. Although it is not feasible to explain how this sequence has been maintained in the centromeric regions, it is possible to hypothesize that it may be involved in some structural or functional role of the centromere organization.
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5S rDNA sequences present an intense dynamism and have proved to be valuable as genetic markers to distinguish closed related species and also in the understanding of the evolutionary dynamic of repetitive sequences in the genomes. In order to identify patterns of 5S rDNA organization and their evolution in the genome of fish species, such genomic segment was investigated in the tilapias Oreochromis niloticus and Tilapia rendalli, and in the hybrid O. urolepis hornorum x O. mossambicus. A dual 5S rDNA system was identified in the three analyzed tilapia samples. Although each 5S rDNA class was conserved among the three samples, a distinct 5S rDNA genome organization pattern could be evidenced for each sample. The presence of a dual 5S rDNA system seems to be a general trait among non-related teleost fish orders, suggesting that evolutionary events of duplication have occurred before the divergence of the main groups of teleost fishes.
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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DNA polymerase has been purified approximately 2000-fold from Mycobacterium tuberculosis H37Rv. The purified preparation was homogeneous by electrophoretic criteria and has a molecular weight of 135 000. The purified enzyme resembles Escherichia coli polymerase I in its properties, being insensitive to sulfhydryl drugs and possessing 5′,3′-exonuclease activity in addition to polymerase and 3′,5′-exonuclease activities. However, it differs from the latter in its sensitivity to higher salt concentration and DNA intercalating agents such as 8-aminoquinoline. The polymerase exhibited maximal activity between 37–42°C and pH 8.8–9.5. The polymerase was stable for several months below 0°C. However, the 5′,3′-exonuclease activity was more labile. The effects of different metal ions, polyamines and drugs on the polymerase activity are presented.
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A genomic library was constructed from a HindIII digest of Azospirillum lipoferum chromosomal DNA in the HindIII site of pUC19. From the library, a clone, pALH64, which showed strong hybridization with 3' end labeled A. lipoferum total tRNAs and which contains a 2.9 kb insert was isolated and restriction map of the insert established. The nucleotide sequence of a 490 bp HindIII-HincII subfragment containing a cluster of genes coding for 5S rRNA, tRNA(Val)(UAC), tRNA(Thr)(UGA) and tRNA(Lys)(UUU) has been determined. The gene organization is 5S rRNA (115 bp), spacer (10 bp), tRNA(Val) (76 bp), spacer (3 bp), tRNA(Thr) (76 bp), spacer (7 bp) and tRNA(Lys) (76 bp). Hybridization experiments using A. lipoferum total tRNAs and 5S rRNA with the cloned DNA probes revealed that all three tRNA genes and the 5S rRNA gene are expressed in vivo in the bacterial cells.
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SECTION I
Section I is concerned with a partial sequence analysis conducted on 5S RNA from HeLa cells. Analysis of the oligonucleotide pattern after pancreatic ribonuclease digestion of a highly-purified preparation of 5S RNA gave results which were in general agreement with those published for KB cells, both with respect to the identity and the frequency of the partial sequences. However, the presence of a trinucleotide not found in the KB 5S pattern, together with the reproducibly much lower than expected molar yield of the larger oligonucleotides strongly suggested the occurrence of alternate sequences at various sites in the 5S molecules of human cells. The presence of ppGp and pppGp at the 5'-terminus of HeLa 5S RNA was clearly demonstrated. The implications of this finding with regard to the origin of 5S RNA are discussed.
SECTION II
In Section II the proportion of the HeLa cell genome complementary to tRNA was investigated by using RNA- DNA hybridization. The value for saturation of the HeLa DNA by tRNA was found to be 1.1 x 10-5, which corresponds to about 4900 sites for tRNA per HeLa cell in an exponentially growing culture. Analysis of the nucleotide composition of the hybridized tRNA revealed significant differences from the nucleotide composition of the input tRNA, with the purine to pyrimidine ratio indicating, however, that these differences were not produced by excessive RNase attack of the hybrid. The size of the hybridized tRNA was only moderately smaller than that of the input RNA; the average S value in formaldehyde was 2.7 (corresponding to a length of about 65 nucleotides), suggesting that a relatively small portion near the ends of the hybridized 4S chains had been removed by RNase.
SECTION III
The proportion of the HeLa cell genome complementary to 5S RNA was investigated by using RNA-DNA hybridization. The value for saturation of the HeLa DNA by 5S RNA was found to be 2.3 x 10-5, which corresponds to about 7,000 sites for 5S RNA per HeLa cell in an exponentially growing culture. Analysis of the nucleotide composition of the hybridized 5S RNA revealed no significant difference from the nucleotide composition of the input RNA. At the RNA to DNA input ratio of 1:1000, the average S value in formaldehyde of the hybridized 5S RNA corresponded to a polynucleotide chain about two-thirds the size of the input RNA.
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核核糖体DNA(nrDNA)已被作为一个重要的标记,用于推断很多分类等级上的系统发育关系。相对于在被子植物中的快速致同进化,nrDNA在裸子植物中的致同进化速率低,且ITS和5S-NTS区有着较大的长度变异,这种现象在松科植物中尤为明显。在本研究中,我们克隆并测定了银杉属的5S rDNA以及冷杉属、银杉属、雪松属、油杉属、长苞铁杉属、金钱松属与铁杉属的ITS序列。基于获得的新数据,再结合前人报导的其它属的数据,我们探讨了如下四个问题: (1)松科 nrDNA ITS1 亚重复单位的组成、分布及进化;(2)ITS1区的长度变异与亚重复单位数目的关系以及它们的系统学意义;(3)松科ITS1的二级结构特征;(4)银杉5S rDNA编码区及非转录间隔区的结构特征。主要研究结果如下: 1. ITS区的序列分析ITS区的克隆及序列分析发现:(1) 松科ITS1的长度变异范围为 944-3271 bp, 这是目前已报导的真核生物中属间ITS变异最大的类群之一;(2) 所有松科植物的ITS区域都包含亚重复单位,亚重复单位的数目从2到9,并且这些亚重复单位可分为两种类型,即不含保守核心序列(5’-GGCCACCCTAGTC ) 的长亚重复单位(LSR)和含上述保守核心序列的短亚重复单位(SSR);(3) ITS1区的巨大长度变异主要归因于亚重复单位的数量变异; (4) ITS1区的GC含量与 它的序列长度和亚重复单位的数目有一定关系,并能够提供一些系统发育信息,特别是支持云杉属、松属和银杉属三者具有很近的亲缘关系。 2. ITS1亚重复单位的系统发育分析为了研究亚重复单位的进化关系,我们用最大似然法和最大简约法构建了松科ITS1亚重复单位的系统发育树。结果表明:(1)在ML和MP树中可发现有共同的五个分支; (2) 银杉比松科其它属拥有更多的SSR,且该属的所有9个SSR在系统树中构成一个单系支,表明它们是在银杉属内发生重复的;(3)一些SSR在属间和种间具有同源性,可为nrDNA ITS 的进化历史以及松科的系统发育 研究提供重要信息;(4)亚重复单位的多次重复以及伴随的重组可能是导致LSR 和SSR在松科不同属中分布式样不同的原因。 3. 松科ITS1的二级结构 用 Mfold 3.2 软件对松科所有11个属的ITS1区进行了二级结构预测,共获得了563个最低自由能折叠。结合以前关于松科二级结构的报导,我们分析的结果表明:(1) 松科ITS1的二级结构主要由几个延展的发夹结构组成;(2) 构象的复杂性与亚重复的数目呈正相关;(3)配对的亚重复单位通常在保守核心区(5’-GGCCACCCTAGTC ) 处有部分重叠,并且构成一个长茎,而其它的亚重复单位通常会自身折叠,且保守核心区的部分出现在发夹结构的环中。 4. 银杉5S rDNA 序列分析 我们对来自银杉不同群体的3个个体的5S rDNA进行了克隆,共获得 45 条序列,分析结果表明:(1) 绝大多数银杉5S rDNA编码区长度为120 bp, 以GGG 开头,以CTC结尾,编码区出现的碱基替代主要为转换;(2) 银杉与其它裸子植物相比,5S rDNA基因编码区具很高的相似性(90-99%); (3)间隔区含有一个poly-C和一个poly-T结构、两个TC丰富区以及五个GC丰富区。根据长度和序列特征,银杉的5S rDNA间隔区可分为三种类型:Type A 长751-764 bp,Type B 长770-807 bp (含一个32 bp的插入),Type C 长581-594 bp; (5)长间隔区(Type A,Type B )中含有两个148-175 bp的串联亚重复单位,该亚重复单位与短间隔区(Type C )中的一段143 bp的序列具有较高的相似性(56.0-66.8%)。 5. 银杉5S rRNA的二级结构 Mfold 3.2 预测结果表明:(1)银杉5S rRNA二级结构包括5个双螺旋区(干区)(Ⅰ-Ⅴ)、2个发夹结构环区(C和D)、3个中间环区(B1、B2 和 E)和1个铰链区(A), 铰链区为三个双螺旋的结合处;(2) 二级结构中的环区通常比双螺旋区更加保守;(3)在5个双螺旋中,I 和 IV 区有较高的碱基替代率。
Resumo:
5S ribosomal DNA (rDNA) was isolated and sequenced from the gibel carp Carassius auratus gibelio with 162 chromosomes and crucian carp Carassius auratus with 100 chromosomes, and fluorescent probes for chromosome localization were prepared to ascertain the ploidy origin and evolutionary relationship between the two species. Using fluorescence in-situ hybridization (FISH), major 5S rDNA signals were localized to the short arms of three subtelocentric chromosomes in the gibel carp and to the short arms of two subtelocentrics in the crucian carp. In addition, some minor signals were detected on other chromosomes of both species. Simultaneously, six chromosomes were microdissected from the gibel carp metaphase spreads using glass needles, and the isolated chromosomes were amplified in vitro by degenerate oligonucleotide primed-polymerase chain reaction (DOP-PCR). Significantly, when the DOP-PCR-generated probes prepared from each single chromosome were hybridized, three same-sized chromosomes were painted in each gibel carp metaphase, whereas only two painted chromosomes were observed in each crucian carp metaphase spread. The data indicate that gibel carp is of triploid origin in comparison with diploid crucian carp.
