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1.
文昌鱼的进化地位十分重要,对其染色体的研究在进化和比较基因组学方面有重要意义。然而文昌鱼的染色体制备困难,使研究受到了限制。本文介绍了一种改良的文昌鱼胚胎细胞染色体标本制备方法,以及用文昌鱼成体再生细胞制备染色体,首次获得了文昌鱼体细胞中期染色体标本,并观察了厦门2种文昌鱼的染色体,其中白氏文昌鱼(Branchiostoma belcheri)二倍体2n=40,日本文昌鱼(B. japonicum)二倍体2n=36。再次从细胞分类学角度证实白氏文昌鱼和日本文昌鱼作为两个独立物种的分类地位。 相似文献
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文昌鱼是进化发育研究的重要模式动物,目前实验材料均采自野外.因此,对其进行正确的物种鉴定和地理种群的遗传分化分析十分必要.该研究扩增并测定了COX 1基因部分序列,结合NCBI数据库中的COX 1序列信息,对太平洋西岸文昌鱼的种类和地理种群分化情况进行了分析.结果表明,马来文昌鱼(Branchiostoma malayanum)、白氏文昌鱼(B.belcheri)和日本文昌鱼(B.japonicum)这3个种之间的遗传差异很大,再次证实3个物种的有效性,同时提出应当审慎对待NCBI数据库中文昌鱼的种名标注;太平洋西岸文昌鱼属Branchiostoma的3种文昌鱼群体遗传多样性均处于较高水平,同一物种的不同地理种群间没有出现明显的遗传分化,反映了海洋动物的基因交流较容易,不同海域隔离较弱. 相似文献
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通过Cyt b基因同源序列比较评估厦门文昌鱼的分类学地位 总被引:28,自引:0,他引:28
白氏文昌鱼Branchiostomabelcheri (Gray)在我国和日本沿海均有分布 ,由于南、北方文昌鱼形态学上有一定差异 ,且二者间存在一些过渡类型 ,其分类地位问题仍有待进一步澄清。本文测定了厦门欧厝海域产的文昌鱼mtDNACytb基因序列 ,并与日本产的文昌鱼以及另外产于大西洋的两种文昌鱼Cytb基因序列比较。分子系统学分析结果表明 :厦门欧厝海域产的文昌鱼与日本产的文昌鱼平均遗传距离为 2 1 12 % ,达到了种间分化的水平 ;经过对已有文献和文昌鱼地理分布的综合分析 ,作者建议将原来的白氏文昌鱼青岛亚种B belcheritsingtauense提升为种 ,南、北方所产文昌鱼分别作为两个独立的种存在 ,即南方的B belcheri (Gray)和北方的B tsingtauenseTchangetKoo 相似文献
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文昌鱼的实验室繁育及子二代获得 总被引:1,自引:0,他引:1
文昌鱼特殊的进化地位、简单的器官系统和终生透明的躯体等特征,使其很有希望成为一个新型实验室模式动物。要实现文昌鱼的模式动物化,实验室内全人工条件下繁殖是关键的第一步。为此,我们于2003年9月和2004年4月两次采集产于厦门海域的2种文昌鱼,开展实验室内养殖研究。经过3年多的持续实验室养殖,继2005年夏季于实验室内繁殖出子一代文昌鱼后,又在2006年夏季成功获得了这两种文昌鱼的子二代,初步实现文昌鱼在实验室内的全人工养殖。对子代文昌鱼养殖的初步观察发现,不同水温对生长发育速度有一定影响,提示有可能通过水温控制实现文昌鱼一年多次产卵的目的。目前这两种文昌鱼子二代幼体已完成变态,进入亚成体生长发育阶段,其体长分别已达14.6mm(日本文昌鱼Branchiostomajaponicum)和6.5mm(白氏文昌鱼B.belcheri)。 相似文献
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文昌鱼特殊的进化地位、简单的器官系统和终生透明的躯体等特征,使其很有希望成为一个新型实验室模式动物。要实现文昌鱼的模式动物化,实验室内全人工条件下繁殖是关键的第一步。为此,我们于2003年9月和2004年4月两次采集产于厦门海域的2种文昌鱼,开展实验室内养殖研究。经过3年多的持续实验室养殖,继2005年夏季于实验室内繁殖出子一代文昌鱼后,又在2006年夏季成功获得了这两种文昌鱼的子二代,初步实现文昌鱼在实验室内的全人工养殖。对子代文昌鱼养殖的初步观察发现,不同水温对生长发育速度有一定影响,提示有可能通过水温控制实现文昌鱼一年多次产卵的目的。目前这两种文昌鱼子二代幼体已完成变态,进入亚成体生长发育阶段,其体长分别已达14.6 mm(日本文昌鱼Branchiostoma japonicum)和6.5 mm(白氏文昌鱼B. belcheri)。 相似文献
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远缘杂交形成的二倍体鱼和多倍体鱼生殖细胞染色体研究 总被引:3,自引:0,他引:3
本文采用性腺染色体制片及组织学切片方法,系统地研究了不同发育时期的鲫鲤杂交第二代(F2) (2n=100)、异源四倍体鲫鲤(4n=200)、三倍体鲫鱼(3n=150))、雌核发育二倍体鲫鲤第二代(G2)(2n=100)及鲤鱼(Cypninus carpio L)(2n=100)(对照组)生殖细胞的染色体特征.研究结果表明,对照组中鲤鱼精原细胞染色体数与体细胞染色体数一致,为二倍体精原细胞(2n=100),而远缘杂交形成的二倍体鱼和多倍体鱼的生殖细胞中则观察到明显的染色体数加倍现象,其中,鲫鲤杂交第二代(F2)精巢生殖细胞染色体数加倍现象特别丰富,占检测的染色体分裂相的21.6%,为其产生不减半的二倍体配子提供了直接的细胞学证据,同时也说明远缘杂交是导致生殖细胞染色体数加倍的一个重要因素.该研究在探讨多倍体鱼的发生及鱼类遗传育种方面具有重要意义. 相似文献
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隶属于头索动物亚门的文昌鱼是现存生物中最近似于脊椎动物亚门直接祖先的一个类群, 具有重要的进化地位, 是研究脊椎动物原始祖先的重要材料和模式动物。随着文昌鱼实验室连续繁殖的成功, 全基因组测序成为中国文昌鱼模式化急需完成的工作之一。文章从单条雄性白氏文昌鱼精巢组织中提取高质量的基因组DNA, 经EcoRⅠ限制性内切酶和EcoRⅠ甲基化酶酶切, 脉冲场电泳选择合适酶切DNA片段, 连接线性磷酸化的载体pCC1BAC, 转化大肠杆菌EPI300 E. coli, 构建了含有44 706个克隆的全基因组BAC( Bacterial artificial chromosome)文库, 该文库平均插入片段80 kb,具有9倍的基因组覆盖率, 基本能够满足功能基因等研究需要, 为中国文昌鱼全基因组测序打下基础。 相似文献
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文昌鱼分类学研究及展望 总被引:17,自引:4,他引:13
文昌鱼是最接近脊椎动物直接祖先的现生动物,在脊椎动物起源与演化研究中占有极其重要的位置。近年来,对文昌鱼的研究已引起越来越多的科学家的兴趣,然而作为生命科学研究的重要基础,这类动物的分类学研究相对滞后。依据已有的中国文昌鱼资源调查资料,中国沿海文昌鱼的分布应当十分广泛,即只要有适合文昌鱼栖息的沙滩,均有文昌鱼分布的可能。根据目前的分类学研究成果和动物命名法中的优先权原则,建议将产于青岛等地的文昌鱼种名Brnachiostoma belcheri tsingtauense订正为B.japonicus,南方的文昌鱼保留其原种名B.belcheri。由此,目前分布在中国沿海的鳃口文昌鱼属(Branchiostoma)至少有2种,侧殖文昌鱼属(Epigonichthys)有1~3种,漂浮文昌鱼(Amphioxides pelagicus)1种。DNA分子标记技术在文昌鱼分类学研究中将会发挥更大的作用。 相似文献
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阿拉善黄鼠模式产地标本染色体核型 总被引:1,自引:0,他引:1
采用骨髓细胞直接制备染色体的方法,对采自阿拉善黄鼠(Spermophilus alaschanicus Buchner,1888)模式标本产地,内蒙古阿拉善南部典型荒漠区的5号黄鼠(Spermophilus spp.)标本进行染色体研究.结果表明,该种二倍体体细胞的染色体数为2n=38,与达乌尔黄鼠(草原黄鼠)(S.dauricus Brandt,1843)二倍体体细胞的染色体数2n=36,完全不同,且形态特征与达乌尔黄鼠具有明显差异.基于该种的染色体和形态特征以及分布区域,并与国内外相关研究比较的结果,确认该种为阿拉善黄鼠. 相似文献
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We describe an efficient protocol for mapping genes and other DNA sequences to amphioxus chromosomes using fluorescent in situ hybridisation. We apply this method to identify the number and location of ribosomal DNA gene clusters and telomere sequences in metaphase spreads of Branchiostoma floridae. We also describe how the locations of two single copy genes can be mapped relative to each other, and demonstrate this by mapping an amphioxus Pax gene relative to a homologue of the Notch gene. These methods have great potential for performing comparative genomics between amphioxus and vertebrates. 相似文献
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Morphology and behaviour of the X and Y chromosomes of four species of genus Microtus were studied at pachytene, metaphase I and meiotic metaphase. The X chromosomes of the species varied with respect to their size and location of heterochromatic blocks. The axes of X and Y chromosomes of these species as well as Microtus agrestis never formed true synaptonemal complexes at any sub-stage of the pachytene. They approached each other at the start of the pachytene throughout to metaphase I, getting situated closely. At the end of the pachytene, they formed sex vesicle. The X and Y chromosomes kept their proximity during metaphase I, but never formed true bivalents. It is suggested that lack of synapsis of the X and Y chromosomes in the genus Microtus is the final step of evolutionary trend to reduction of the size of the pseudo-autosomal region. The abolition of restrictions on homology between the X and Y chromosomes is supposed to be a cause for the fast divergence in morphology of sex chromosomes in the genus. 相似文献
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Spermatogonial metaphase chromosomes were examined in two dragonfly species, Somatochlora metallica (Cordulidae) and Aeshna grandis (Aeshnidae), and the behaviour of male meiotic chromosomes was studied in S. metallica. Both in S. metallica and A. grandis the male mitotic metaphase chromosomes from cells treated with colchicine consisted of two equidistantly aligned chromatids, showing no primary constriction. In meiosis the chromosomes of S. metallica males showed telokinetic activity during the first meiotic division, and kinetic activity was restricted in the middle parts of chromosomes during the second division. The kinetic behaviour of the chromosomes both in mitosis and meiosis showed that they were holocentric. One chiasma arises interstitially in each bivalent in S. metallica male meiosis. The chiasmata retain their interstitial position at metaphase I and do not terminalize. At metaphase I bivalents co-orient with homologous telomere regions towards the opposite poles. Thus genuine dyads segregate at the first anaphase. Meiosis in these male dragonflies is thus pre-reductional or conventional, not post-reductional or inverted, as has been previously proposed. 相似文献
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Cephalochordate amphioxus is a promising model animal for studying the evolutionary and developmental mechanisms of vertebrates because its unique phylogenetic position, simple body plan and sequenced genome. However, one major drawback for using amphioxus as a model organism is the restricted supply of living embryos since they are available only during spawning season that varies from a couple of days to several months according to species. Therefore we are aiming to develop methods for obtaining viable amphioxus embryos in non-spawning season. In the current study, we found that Branchiostoma belcheri could develop their gonads and spawn consecutively in the laboratory when cultured in a low density at a high temperature (25–28°C) supplied with sufficient food and proper cleanness. Among the approximate 150 observed animals, which spawned spontaneously between November and December 2011, 10% have spawned twice, 10% three times, and 80% four times, through April 2012. The quality and quantity of the gametes reproduced in the consecutive spawning have no obvious difference with those spawned once naturally. Spawning intervals varied dramatically both among different animals (from 1 to 5 months) and between intervals of a single individual (from 27 to 74 days for one animal). In summary, we developed a method with which, for the first time, consecutive spawnings of amphioxus in captivity can be achieved. This has practical implications for the cultivation of other amphioxus species, and eventually will greatly promote the utilization of amphioxus as a model system. 相似文献
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PB Moens 《The Journal of cell biology》1979,83(3):556-561
For three species of grasshoppers the volumes of the largest and the smallest metaphase chromosome differ by a factor of 10, but the microtubules (MTs) attached to the individual kinetochores show no corresponding range in numbers. Locusta mitotic metaphase chromosomes range from 2 to 21 μm, and the average number of MTs per kinetochore is 21 with an SD of 4.6. Locusta meiotic bivalents at late metaphase I range from 4 to 40 μm(3), and the kinetochore regions (= two sister kinetochores facing the same spindle pole) have an average of 25 kinetochore microtubules (kMTs) with an SD of 4.9. Anaphase velocities are the same at mitosis and meiosis I. The smaller mitotic metaphase chromosomes of neopodismopsis are similar in size, 6 to 45 μm(3), to Locusta, but they have an average more kMTs, 33, SD = 9.2. The four large Robertsonian fusion chromosomes of neopodismopsis have an average of 67 MTs per kinetochore, the large number possibly the result of a permanent dicentric condition. Chloealtis has three pairs of Robertsonian fusion chromosomes which, at late meiotic metaphase I, form bivalents of 116, 134, and 152 μm (3) with an average of 67 MTs per kinetochore similar to Locusta bivalents, but with a much higher average of 42 MTs per kinetochore region. It is speculated that, in addition to mechanical demands of force, load, and viscosity, the kMT numbers are governed by cell type and evolutionary history of the karyotype in these grasshoppers. 相似文献
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The Mexican tree frog Smilisca baudinii, is a very common frog in Central America. In spite their importance to keep the ecological equilibrium of the rainforest, its biology and genetics are poorly known. In order to contribute with its biological knowledge, we described the typical meiotic karyotype based in standard cytogenetic protocols to specimens collected in Tabasco, Mexico. The study was centered in the analysis of 131 chromosome spreads at meiotic stage from two adults of the species (one female and one male). The metaphase analysis allowed the establishment of the modal haploid number of 1n = 12 bivalent chromosomes. The chromosomic formulae from the haploid bivalent karyotype was integrated by 12 biarmed chromosomes characterized by twelve pairs of metacentric-submetacentric (msm) chromosomes. The meiotic counting gives the idea that diploid chromosome number is integrated by a complement of 2n = 24 biarmed chromosomes. The presence of sex chromosomes from female and male meiotic spreads was not observed. Current results suggest that S. baudinii chromosome structure is well shared among Hylidae family and "B" chromosomes are particular structures that have very important evolutionary consequences in species diversification. 相似文献
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In vertebrates, multiple microsomal retinol dehydrogenases are involved in reversible retinol/retinal interconversion, thereby controlling retinoid metabolism and retinoic acid availability. The physiologic functions of these enzymes are not, however, fully understood, as each vertebrate form has several, usually overlapping, biochemical roles. Within this context, amphioxus, a group of chordates that are simpler, at both the functional and genomic levels, than vertebrates, provides a suitable evolutionary model for comparative studies of retinol dehydrogenase enzymes. In a previous study, we identified two amphioxus enzymes, Branchiostoma floridae retinol dehydrogenase 1 and retinol dehydrogenase 2, both candidates to be the cephalochordate orthologs of the vertebrate retinol dehydrogenase enzymes. We have now proceeded to characterize these amphioxus enzymes. Kinetic studies have revealed that retinol dehydrogenase 1 and retinol dehydrogenase 2 are microsomal proteins that catalyze the reduction of all-trans-retinaldehyde using NADH as cofactor, a remarkable combination of substrate and cofactor preferences. Moreover, evolutionary analysis, including the amphioxus sequences, indicates that Rdh genes were extensively duplicated after cephalochordate divergence, leading to the gene cluster organization found in several mammalian species. Overall, our data provide an evolutionary reference with which to better understand the origin, activity and evolution of retinol dehydrogenase enzymes. 相似文献