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基于细胞色素b的鸫亚科部分鸟类的系统进化 总被引:8,自引:0,他引:8
采用分子系统学方法对鸫亚科(Turdinae)16属35种鸟类的线粒体细胞色素b基因进行系统发生分析。所测序列经对位排列后共983bp,包含变异位点399个,简约信息位点349个。以太平鸟(Bombycillagarrulus)和雪松太平鸟(Bombycillacedrorum)为外群,采用邻接法、最大简约法、最大似然法和贝叶斯法分别构建鸫亚科的系统发生树。研究结果表明:构建的系统树将所研究鸫亚科鸟类分为2个支系。第1个支系包括鸫属(Turdus)、地鸫属(Zoothera)和宽嘴鸫属(Cochoa);第2个支系包括歌鸲属(Luscinia)、鸲属(Tarsiger)、鹊鸲属(Copsychus)、薮鸲属(Cercotrichas)、红尾鸲属(Phoenicurus)、水鸲属(Rhyacornis)、燕尾属(Enivurus)、啸鸫属(Myiophoneus)、石属(Saxicola)、属(Oenanthe)、溪鸲属(Chaimarrornis)、矶鸫属(Monticola)和欧亚鸲属(Erithacus)。其中地鸫属并非单系类群;红尾鸲属为并系发生,水鸲属和溪鸲属归并到这一支系;石属与矶鸫属互为姐妹群,再与属聚合构成另一支系;然后上述两个支系构成姐妹群;歌鸲属和鸲属聚成姐妹群。对于鹊鸲属、薮鸲属、啸鸫属、欧亚鸲属、宽嘴鸫属和燕尾属,本研究结果并没有完全解决它们在大分支内与其它属间的亲缘关系 相似文献
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鹳形目鸟类的传统分类一直存在分歧,而近期的分子系统学研究大多只用单个基因,其结论的可信度需要进一步验证.本文通过核c-mos基因和线粒体12S rRNA基因序列分别和合并分析,采用分子系统学方法探讨了鹳形目6科12种鸟类的系统发生关系.文中测出鹳形目鸟类6种核c-mos基因的片断序列,结合来自Genebank的其他种类的c-mos和12S rRNA基因序列,分别经Clustal W软件对位排列后,以原鸡为外类群用最大似然法、邻接法和最大简约法建立系统树.系统树分析表明, 鹳形目6科之间的系统发生关系总结为:(鹭科,((鹮科,美洲鹫科),(鹳科,(鲸头鹳科,锤头鹳科)))).鹭科7个属之间的系统发生关系总结为:(麻(开鸟)属(夜鹭属(池鹭属(苍鹭属(中白鹭属(白鹭属,大白鹭属)))))).分别基于两个单基因的系统树有一定差异,而基于合并数据的系统树支持率和分辨率都高于基于单基因的系统树,表明使用在遗传上相对独立的分子数据合并建立系统树有较高的可信度和分辨率,是一种更好的研究方法. 相似文献
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采用分子系统学方法对鹟亚科(Muscicapinae)6属31种鸟类的cytb基因序列992bp进行系统发生分析。以荒漠伯劳(Lanius isabellinus)和发冠卷尾(Dicrurus hottentottus)为外群,采用贝叶斯法(Bayesian,BI)、最大似然法(Maximum-likelihood,ML)和最大简约法(Maximumparsimony,MP)分别构建鹟亚科的系统发育树。结果支持:寿带属(Terpsiphone)、扇尾鹟属(Rhipidura)与方尾鹟属(Culicicapa)可从鹟亚科中移出,其中寿带属归入王鹟科(Monarchidae),扇尾鹟属与方尾属归入扇尾鹟科(Rhipiduridae);鹟属(Muscicapa)、仙鹟属(Niltava)为单系发生,并聚为姐妹群,亲缘关系较近;姬鹟属(Ficedula)并非单系发生,白眉姬鹟(Ficedulazanthopygia)在3种系统发生树中的位置差别较大,研究结果未能确定其分类地位;铜蓝(Muscicapa thalassina)与白腹蓝(Cyanoptila cyanomelana)亲缘关系较近,前者应从属中移出,后者应从姬属移出,共同归入仙属或列为仙属的姐妹属。上述结论解决了亚科部分有争议属、种间的进化关系,为亚科分类系统提供了DNA水平证据。 相似文献
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基于线粒体ND4基因和核c-mos基因初步探讨广西拟水龟和艾氏拟水龟的系统发生 总被引:2,自引:0,他引:2
广西拟水龟和艾氏拟水龟的分类和系统发生多年来存在争议。通过测定广西拟水龟、艾氏拟水龟和黄喉拟水龟线粒体ND4基因和核c-mos基因部分序列,合并GenBank中拟水龟属其他物种的ND4基因和c-mos基因部分序列进行分析,从分子水平探讨广西拟水龟和艾氏拟水龟的系统发生。ND4基因数据分析发现NJ、MP和BI树中广西拟水龟与安南拟水龟的聚类分支相互交织聚为一支,二者种内遗传距离均为0.002~0.017,种间遗传距离为0.000~0.035,种间遗传距离明显小于同属内其他种间0.056~0.109的遗传距离,表明广西拟水龟与安南拟水龟可能为同一物种,可能是安南拟水龟的同种异名,或是作为安南拟水龟的一个亚种;NJ树、MP树和BI树均显示,艾氏拟水龟与黄喉拟水龟的位置和关系最为相近,二者间的遗传距离为0.020~0.035,明显小于拟水龟属其他物种间遗传距离,而明显大于同属各物种内遗传距离,艾氏拟水龟与黄喉拟水龟之间系统分类关系是介于种内与种间之间;乌龟、中华花龟、安南拟水龟等物种都是与拟水龟属中其他物种先聚成一支后再与同科的地龟属的地龟形成姐妹支,支持将乌龟属、花龟属和安南龟属并入拟水龟属的分类。c-mos基因数据分析发现,拟水龟属各物种间不存在明显的遗传距离,NJ树和MP树也未能对属中各物种的分子系统发生位置进行有效的界定,但在属及属以上阶元的分子分类系统中c-mos基因可以作为分类依据,并与线粒体基因数据有较好的一致性。 相似文献
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测定了粉蝶科的粉蝶亚科和黄粉蝶亚科14属共24种线粒体COⅠ和Cyt b基因部分序列,并从GenBank中下载了2种粉蝶的同源序列,以眼蝶科的2个物种为外类群,运用NJ法、贝叶斯法分别重建了分子系统树,探讨了它们的系统发生关系。基因序列分析结果表明,经比对和处理后的序列总长度为1111bp,其中变异位点478个,简约位点382个,碱基T、C、A、G平均含量为39.9%、16.9%、30.9%、12.3%,A+T含量和C+G含量分别为70.8%和29.2%。分子系统树显示:黄粉蝶亚科不是单系群,但其中迁粉蝶属和豆粉蝶属在不同的分析方法中均聚合在一起。粉蝶亚科形成一个独立的支系,其中,襟粉蝶族为并系群;粉蝶族的粉蝶属、飞龙粉蝶属和云粉蝶属具有较近的亲缘关系。 相似文献
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线蛱蝶亚科蝶类部分类群线粒体COI基因的分子系统发生分析 总被引:1,自引:0,他引:1
以线粒体细胞色素氧化酶I(COI)基因作分子标记,对线蛱蝶亚科蝴蝶进行序列测定.序列分析的结果表明.经比对和处理后的序列总长度是645bp,其中有199个变异位点,147个简约信息位点;所编码的氨基酸序列中有18个变异位点,7个信息位点.A+T平均含量为69.6%,G+C平均含量为30.4%,碱基组成出现AT偏斜.以蛱蝶亚科及秀蛱蝶亚科物种为外类群,用NJ、MP及贝叶斯法重建了该亚科的系统发生树,探讨了它们主要类群间的系统发生关系.分子系统树显示,线蛱蝶亚科由以下3大支系:环蛱蝶族+翠蛱蝶族、线蛱蝶族、丽蛱蝶族构成;其中,环蛱蝶族为单系群(NJ树也支持线蛱蝶族的单系性);翠蛱蝶族与环蛱蝶族亲缘关系较近:丽蛱蝶族可能是该亚科较早分化出的一支. 相似文献
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采用PCR扩增、测序的方法,对鹟亚科(Muscicapinae)6属16种鸟类的线粒体COI基因序列1176bp进行测定,并以荒漠伯劳和发冠卷尾作为外群构建Bayes、ML、MP3棵系统发育树。结果支持:寿带属(Terpsiphone)、扇尾鹟属(Rhipidura)、方尾鹟属(Culicicapa)3属与鹟亚科其他鸟类亲缘关系较远,扇尾鹟属与方尾鹟属亲缘关系较近;鹟属(Muscicapa)为单系发生,本研究结果未能确定它与仙鹟属、姬鹟属的进化关系;铜蓝鹟(Muscicapa thalassina)从鹟属中移出,归入仙鹟属。上述结论解决了鹟亚科部分属间的进化关系,为鹟亚科分类系统的研究提供了分子水平证据。 相似文献
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从c-mos和12S rRNA基因序列探讨现生鸟类早期历史和三趾鹑类的系统地位 总被引:2,自引:1,他引:2
通常认为古腭型鸟类处在现生鸟类系统进化树的基部,最近的分子水平研究则认为今腭型鸟类中雀形目种类构成了现生鸟类中一个最古老的支系.本研究通过对现生鸟类中21目39种核c-mos基因和线粒体12S rRNA基因部分序列的分析,从分子角度对现生鸟类的早期进化及三趾鹑鸟类的系统发生进行了探讨.研究结果表明,鸡雁类是现生鸟类最古老的一个支系,现生鸟类的祖先并不是经白垩纪到第三纪大灭绝后残留下来的一些过渡性水鸟(transitional shorebirds).在现生鸟类中,今腭型鸟类为并系发生,古腭型鸟类为单系发生.三趾鹑类在系统发生中晚于鸡雁类和古腭型鸟类,早于今腭型鸟类中非鸡雁类鸟类与鹤形目鸟类的亲缘关系较远.建议将现生鸟类分为初鸟下纲和新鸟下纲2个下纲,三趾鹑类属新鸟下纲的三趾鹑目(Turniciformes). 相似文献
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ANDREW F. HUGALL RALPH FOSTER MARK HUTCHINSON MICHAEL S. Y. LEE 《Biological journal of the Linnean Society. Linnean Society of London》2008,93(2):343-358
Recent mtDNA phylogenies of Australasian agamid lizards are highly incongruent with existing morphological views. To resolve this discrepancy we sequenced two nuclear gene regions, c- mos and brain-derived neurotrophic factor (BDNF). These were highly concordant with each other and the mtDNA phylogeny, but not the morphology. A combined molecular analysis reveals substantial hidden support (additional phylogenetic signal that emerges only when the data sets interact in a combined analysis). Bayesian posteriors, and a partitioned bootstrap procedure introduced here, indicate strong support for most nodes. The resultant tree implies extensive morphological homoplasy, with many genera emerging as non-monophyletic ( Amphibolurus , Rankinia , Ctenophorus , Physignathus , Diporiphora ). The water and forest dragons ( Physignathus and Hypsilurus ) form a paraphyletic basal assemblage to the more derived Australian forms such as Amphibolurus and Ctenophorus , which include almost all the xeric taxa. However, the thorny devil Moloch horridus is a basal lineage and not closely related to the other arid forms. Tree topology, inferred divergence dates, palaeogeographical and palaeoclimatic data are all consistent with Miocene immigration into Australia from the north by mesic forest ecomorphs, followed by initial diversification in mesic habitats before radiation into xeric habitats facilitated by increasing aridity. © 2008 The Linnean Society of London, Biological Journal of the Linnean Society , 2008, 93 , 343–358. 相似文献
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Recent molecular studies addressing the phylogenetic relationships of avian orders have had conflicting results. While studies using nuclear DNA sequences tend to support traditional taxonomic views, also supported by morphological data [(paleognaths (galloanseres (all other birds)))], with songbirds forming a clade within Neoaves (all other birds), analyses with complete mtDNA genomes have resulted in topologies that place songbirds as one of the earliest-diverging avian lineages. Considering that over half of the extant bird species are songbirds, these different results have very different implications for our understanding of avian evolution. We analyzed data sets comprising nearly 4 kb of mitochondrial DNA (mtDNA) (complete 12S, ND1, ND2, and cytochrome b) plus 600 bp of the nuclear gene c-mos for 15 birds that were chosen to represent all major avian clades and to minimize potential long-branch attraction problems; we used a partition-specific maximum likelihood approach. Our results show congruence with respect to the ingroup among phylogenies obtained with mtDNA and the nuclear gene c-mos, separately or combined. The data sets support a traditional avian taxonomy, with paleognaths (ratites and tinamous) occupying a basal position and with songbirds more derived and forming a monophyletic group. We also show that, for mtDNA studies, turtles may be a better outgroup for birds than crocodilians because of their slower rate of sequence evolution. 相似文献
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A. GEORGES J. BIRRELL K. M. SAINT W. McCORD S. C. DONNELLAN 《Biological journal of the Linnean Society. Linnean Society of London》1999,67(2):213-246
Aspects of the phylogeny of pleurodiran turtles are contentious, particularly within the Chelidae. Morphological analyses group the long-necked Australasian Chelodina and the long-necked South American Chelus and Hydromedusa into a single clade, suggesting a common derived origin of the long neck and associated habits that predated the separation of Australia from South America. In contrast, published analyses of 12SrRNA and cytochrome b sequences suggest that the long-necked Chelodina are more closely related to the short-necked Australasian genera than to either Chelus or Hydromedusa. This paper adds partial sequences of 16S rRNA and CO1 mitochondrial genes and partial sequences of the nuclear oncogene c-mos to test a range of previous hypotheses on the phylogenetic relationships among chelid turtles. In total, 1382 nucleotides were available for each of 25 taxa after elimination of ambiguously aligned regions. These taxa included representatives of all the genera of the turtle families Chelidae and Pelomedusidae, the three sub-genera of Phrynops, and recognized sub-generic groups of Elseya and Chelodina. Of the four genes examined, 12S rRNA was the most informative, followed by c-mos with 16S rRNA and CO1 the least informative. The molecular data support the currently accepted arrangement for pelomedusid genera, that is, a sister relationship between the African Pelusios and Pelomedusa and a clade comprising the South American Peltoceplhalus and Podocnemis with the Madagascan Erymnochelys. However, there is also support for Erymnochelys and Podocnemis as sister taxa to the exclusion of Peltocephalus (bootstrap values of 69–80%) which is at odds with the most commonly accepted arrangement. The South American chelids are monophyletic (76–82%). This clade includes the long-necked Chelus and Hydromedusa, but excludes the Australasian long-necked Chelodina. Furthermore, the South American long-necked chelids are not themselves monophyletic, with 98–100% bootstrap values for the node supporting Chelus and the remaining South American chelids to the exclusion of Hydromedusa. Hence, the hypothesis of a monophyletic grouping of the long-necked genera of South America and Australasia is not supported by the molecular data. Although reciprocal monophyly of the South American and Australasian chelid faunas was the most likely and the most parsimonious arrangement in all but one analysis, bootstrap support for the monophyly of the Australasian chelids was low (52–66%). The South American chelids, Chelodina and the short-necked Australasian chelids form an unresolved trichotomy. The genera Phrynops and Elseya are paraphyletic, leading to a recommendation to elevate the three sub-genera of Phrynops to generic status and support for previous suggestions to erect a new genus for Elseya latistermum and close relatives. A revised classification of the extant Pleurodira is presented, consistent with the phylogenetic relationships that emerge from this study. 相似文献
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c-mos基因在动物卵母细胞减数分裂调控中起作用,但其作用机制目前仍不清楚。本实验通过RT-PCR、免疫荧光激光共聚焦检测方法检测了猪卵母细胞在体外成熟培养过程中c-mos基因在转录水平、翻译水平上的表达以及蛋白的分布,并应用注射小干扰RNA(siRNA)方法对其进行了RNA干扰(RNAi)研究。结果显示,猪卵母细胞在体外成熟培养过程中c-mos基因mRNA量逐渐增高,电激活后6h接近完全降解;MOS(c-mos基因蛋白产物)在GV卵母细胞生发泡中有一定量的表达,生发泡破裂(GVBD)前表达量增加且开始向卵母细胞胞质弥散,成熟培养44h未成熟卵母细胞中的MOS表达量要高于成熟卵母细胞,激活后6h核区MOS明显减少,但仍然有少量MOS分布于胞质中;成熟培养前干扰c-mos基因,所用三个siRNA都能成功敲低mRNA量,分别是同时期对照组mRNA量的0.08±0.03,0.11±0.06和0.20±0.06倍,干扰后虽然没有完全剔除MOS,但MOS量比同期卵母细胞有明显下降,仍可以引发成熟卵母细胞染色体解凝集。研究结果揭示了猪卵母细胞体外成熟及发育进程中c-mos基因在转录和翻译水平上的动态表达规律,建立了猪卵母细胞c-mos基因RNAi体系,为MOS在猪卵母细胞发育过程中的功能研究建立了重要的基础。 相似文献
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The 'cation-dependent' mannose 6-phosphate receptor binds ligands in the absence of divalent cations
EcoRI restriction fragment length polymorphisms (RFLP) at the human c-mos locus were analysed in DNAs of normal individuals and tumour patients. Two alleles with fragment lengths of 2.6 kb (A1) and 5.6 kb (A2) respectively were detected. The allele distribution among the tumour group was similar to that of the control group. No difference was found between the allele frequencies in leucocytes and tumour tissue DNA of the same patients. 相似文献
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Documentation of amentoflavone O-glucosides as the predominant flavonoid glycosides in both genera of the Psilotaceae clearly distinguishes this family from all other families of vascular plants. Psilotum and Tmesipteris also possess apigenin C- and O-glycosides as common flavonoid types. Apigenin 7-O-rhamnoglucoside occurs in both genera and the previously undocumented apigenin 7-O-rhamnoglucoside-4′-O-glucoside, although identified only in Tmesipteris, may also be present in Psilotum. The existence of flavone C-glycosides in both genera may provide a phytochemical relationship between the Psilotaceae and some ferns. The phylogenetic significance of these results is discussed. 相似文献