共查询到18条相似文献,搜索用时 82 毫秒
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大型鲸类死亡个体,往往因腐烂程度较高或外部形态损坏,很难鉴定物种。2018年11月和2019年1月在江苏南通和浙江宁波各发现一头死亡须鲸。本文仔细辩别了两头须鲸的形态学特征,又应用分子生物学技术,分别得到903 bp和972 bp mtDNA控制区序列,以及467 bp和438 bp Cyt b序列。经GeneBank 序列比对,南通样本与长须鲸相似度最高,达99%~100%;宁波样本与大村鲸相似度最高,达97%~99%。通过MEGA 7.0软件的最大似然法(ML)构建的系统发育树与Blast结果一致。综上,南通死亡须鲸鉴定为长须鲸,宁波死亡须鲸鉴定为大村鲸。同时,由于这两个物种在中国的分布信息比较缺乏,本研究证实了长须鲸在江苏省南通市及大村鲸在浙江省宁波市象山县的新分布。 相似文献
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用mtDNA序列鉴定一头小布氏鲸标本 总被引:8,自引:2,他引:8
测定了采自浙江省瑞安市的一头须鲸类标本的线粒体DNA(mitochondrial DNA,mtDNA)细胞色素b(cytochrome b,cyt b)基因369bp和控制区(control region)933bp的序列,通过与已发表的须鲸类同源序列比对,发现与西太平洋和日本水域的布氏鲸的cyt b基因和控制区分别有6.78%-7.05%和13.30%-14.40%的序列差异,而与来自所罗门群岛的布氏鲸之间cyt b基因的序列完全相同,控制区的序列也仅相差一个碱基(0.28%)。提示与邻近的西太平洋和日本海的普通布氏鲸在遗传上有显著区别,而可能与所罗门群岛的布氏鲸为同一种,即小布氏鲸(Balaenoptera edeni)。同时表明,应用分子生物学手段为进行鲸肉及其制品的种类鉴定是可行和有效的。 相似文献
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测定了采自上海海域的一头死亡须鲸骨骼样本的线粒体DNA(mtDNA)细胞色素b基因(Cyt b)序列330 bp(登录号MK295815)、细胞色素C氧化酶Ⅰ基因(COⅠ)序列206 bp(登录号MK317953)和控制区(control region)序列231 bp(登录号MK317954)。通过GenBank中的BLAST分析,结果表明,样本的上述三部分序列与大村鲸(Balaenoptera omurai)对应序列的相似性均达到100%,基于最大似然法(ML)法构建的系统发育树与BLAST结果一致,故将标本鉴定为大村鲸,为上海海域首次记录。 相似文献
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中国水域瓶鼻海豚的mtDNA控制区序列变异性分析 总被引:8,自引:0,他引:8
测定了30头中国水域瓶鼻海豚(Tursiops sp.)mtDNA控制区5′端424bp的序列,结合已发表的中国水域其它瓶鼻海豚的mtDNA控制区序列,共发现54个变异位点,定义了37种单元型。中国水域瓶鼻海豚的两个形态型之间没有共享单元型,且具有8个鉴别位点。基于最大似然法和邻接法的系统发生分析均把单元型聚类为分别代表两个形态型的支系。形态型之间的核苷酸歧异度为5.58%,超过了其它海豚类种间的序列歧异水平,支持把这两个形态型划分为两个独立的种,即T.truncatus和T.aduncus的观点。虽然两种瓶鼻海豚的分布区在台湾海峡一带出现重叠,但相互之间缺乏基因流动,提示两者可能已出现了显著的生殖隔离。 相似文献
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黄山短尾猴mtDNA控制区序列变异及种群的遗传多样性 总被引:1,自引:0,他引:1
短尾猴属灵长目(Primates)猴科(Cercopithecidae)猕猴属(Macaca),是我国特有的国家二级保护动物。为了更有效地保护其野生种群,本文研究了黄山短尾猴种群内的遗传多样性,并对黄山短尾猴与四川短尾猴种群间的遗传差异进行了分析。共测定了黄山短尾猴7个群体中的30个样本的mtDNA控制区5′端493bp的序列,只发现了7个变异位点,定义了3种单倍型,单倍型序列之间缺乏变异,种群中的核苷酸多样性很低(0.006);3种单倍型相应地将黄山种群分为了3个亚群,不同亚群之间呈现出一定的片断化分布,从分子水平上初步揭示了短尾猴黄山种群的遗传多样性。与四川短尾猴的相应序列比较,黄山短尾猴控制区序列存在很大差异,共有59个变异位点,而且存在大片段的碱基插入/缺失,有78%的遗传变异发生在两个种群之间,两个种群间的核苷酸歧异度已达8.21%。进一步分析表明,黄山短尾猴与四川短尾猴之间存在着极显著的遗传分化(FST=0.399,P<0.001),基于最大似然法和邻接法构建的系统发生树均将两者聚为不同的类群,支持将它们归入各自的管理单元。 相似文献
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《四川动物》2013,(6)
为更有效地保护藏酋猴Macaca thibetana野生种群,本文测定了来自峨眉山藏酋猴8个亚群体的47个样品mtDNA控制区5'端505 bp的序列,发现了27个变异位点(5.74%),定义了4种单倍型,其单倍型多样性(h)为0.236±0.079、核苷酸多样性(π)为0.00902±0.00354,单倍型之间的序列差异平均为0.623%,平均核苷酸差异(K)为4.274,单倍型序列之间变异较大,种群中的核苷酸多样性较高;将峨眉山的藏酋猴看成一个种群与同为四川地区的马边群体及安徽的黄山群体的相应序列进行比较,结果显示峨眉山藏酋猴种群mtDNA控制区序列与马边群体间的差异性较小,而与黄山群体间的差异性较大。分子方差分析(AMOVA)表明,90.04%的遗传变异发生在种群之间,仅有9.96%的变异发生在种群内。进一步分析表明,藏酋猴各地理种群间均不同程度地存在着一定的遗传分化(Fst=0.9004,P<0.05),种群间基因交流较贫乏(Nm<1)。基于最大似然法和邻接法构建的系统发生树均支持四川地区的藏酋猴种群和安徽黄山种群分别聚为不同的类群,支持将它们归入各自的管理单元;而本研究中的四川地区藏酋猴在系统发生树上也分为2个亚支,但这2个亚支并未与地理分布成完全的对应关系,应归为一个管理单元加以保护。 相似文献
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中国大陆梅花鹿mtDNA控制区序列变异及种群遗传结构分析 总被引:17,自引:0,他引:17
测定了37只中国大陆梅花鹿(Cervus nippon)不同种群mtDNA控制区5′端351 bp的序列,共发现23个变异位点,定义了5种单元型。分子变异分析表明,中国大陆梅花鹿出现了显著的种群分化(Φm=0.45,Fst=0.60,P<0.001),支持把分布于东北、华南和四川的梅花鹿种群归入各自独立的管理单元。中国大陆、日本南部和日本北部之间无共享单元型,且有25个鉴别位点。最小跨度网络图(Minimum spannlng network,MSN)和基于最大似然法和邻接法的系统发生分析均把单元型聚类为对应于中国大陆、日本南部和日本北部的三个单系,其中中国大陆和日本南部梅花鹿有相对较近的亲缘关系,支持日本梅花鹿的祖先通过至少两个大陆桥从亚洲迁移到日本的观点。 相似文献
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Archival bottom‐mounted audio recorders were deployed in nine different areas of the western Mediterranean Sea, Strait of Gibraltar, and adjacent North Atlantic waters during 2006–2009 to study fin whale (Balaenoptera physalus) seasonal presence and population structure. Analysis of 29,822 recording hours revealed typical long, patterned sequences of 20 Hz notes (here called “song”), back‐beats, 135–140 Hz notes, and downsweeps. Acoustic parameters (internote interval, note duration, frequency range, center and peak frequencies) were statistically compared among songs and song notes recorded in all areas. Fin whale singers producing songs attributable to the northeastern North Atlantic subpopulation were detected crossing the Strait of Gibraltar and wintering in the southwestern Mediterranean Sea (Alboran basin), while songs attributed to the Mediterranean were detected in the northwest Mediterranean basin. These results suggest that the northeastern North Atlantic fin whale distribution extends into the southwest Mediterranean basin, and spatial and temporal overlap may exist between this subpopulation and the Mediterranean subpopulation. This new interpretation of the fin whale population structure in the western Mediterranean Sea has important ecological and conservation implications. The conventionally accepted distribution ranges of northeastern North Atlantic and Mediterranean fin whale subpopulations should be reconsidered in light of the results from this study. 相似文献
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Frederick I. Archer Shannon Rankin Kathleen M. Stafford Manuel Castellote Julien Delarue 《Marine Mammal Science》2020,36(1):224-245
In order to help develop hypotheses of connectivity among North Pacific fin whales, we examine recordings from 10 regions collected in the spring and fall. We develop a Random Forest model to classify fin whale note types that avoids manual note classification errors. We also present a method that objectively quantifies the note and pattern composition of recordings. We find that fin whale recordings near Hawaii have distinctive patterns, similar to those found in other regions in the central North Pacific, suggesting potential migration pathways. Our results are consistent with previous studies that suggest there may be two different populations utilizing the Chukchi Sea and central Aleutians in the fall and mix to some degree in the southern Bering Sea. Conversely, we found little difference between spring and fall recordings in the eastern Gulf of Alaska, suggesting some residency of whales in this region. This is likely due to fine scale similarities of calls among the inshore regions of British Columbia, while offshore areas are being utilized by whales traveling from various distant areas. This study shows how our novel approach to characterize recordings is an objective and informative way to standardize spatial and temporal comparisons of fin whale recordings. 相似文献
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线粒体(mitochondrion)是真核生物细胞中的一种非常重要的细胞器,含有独立于细胞核染色体外的遗传物质,通过氧化磷酸化产生ATP,是细胞的能量工厂,与细胞分化、信号转导、代谢稳态等过程密切联系。线粒体功能的紊乱与癌症、神经退行性疾病、糖尿病等许多疾病的发生、发展及治疗息息相关。线粒体在细胞命运中扮演的关键角色,使对线粒体这一特殊细胞器的探索成为生命科学研究热点之一。人线粒体DNA(mitochondrial DNA, mtDNA)是一相对保守且仅16 kb的环状双链DNA分子,只含37个基因,但这些基因都是维持线粒体功能稳定必不可少的部分。随着对线粒体功能认识的不断深入,研究人员发现mtDNA突变,会导致活性氧自由基过量产生,从而引起细胞衰老,甚至引发诸多疾病,例如遗传性视神经病变、线粒体脑肌病伴高乳酸血症和卒中样发作综合征等。但是,目前针对这些线粒体基因疾病尚无非常有效的治疗手段。为了进一步了解这一关键细胞器,研究人员开发了一些有效的方法来突破线粒体的复杂屏障。本文将重点介绍并讨论近几年靶向mtDNA的研究进展,主要从药物修饰、材料递送、基因编辑等方面进行了总结,希望能为推动线粒体的研究提供一些新的思路。 相似文献
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Mitochondrial DNA sequences of cytochrome b (1140-bp), 12S (375-bp) and 16S (475-bp) ribosomal RNA gene fragments were used to investigate the phylogenetic relationships of a group of African rodents referred as the arvicanthines (Family Muridae, Subfamily Murinae). A total of 49 specimens including all seven genera and 15 of the 24 arvicanthine species currently recognized as well as outgroups from the subfamily Acomyinae, Arvicolinae, Gerbillinae, Murinae and Otomyinae were examined. Our molecular data support the monophyly of the African arvicanthine genera and their partition into three distinct lineages: one composed of Arvicanthis, Mylomys and Pelomys, one composed of Desmomys and Rhabdomys, and one represented by Lemniscomys. The Indian arvicanthine Golunda is external to this clade and is part of a larger clade, together with the African arvicanthines and other African Murinae such as Aethomys, Dasymys, Grammomys, and Hybomys, for which we propose the use of the tribal name Arvicanthini. The basal relationships within this set of species are poorly resolved, suggesting the possibility of a rapid radiation. Calibration based on the fossil record suggests that this radiative event would have taken place at about 8.0 Mya (Million years ago). The identification of the Otomyinae as the sister-taxon to Arvicanthini implies that the former are true murines and should therefore be given only tribal rank within the Murinae. 相似文献
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Sequences from nuclear mitochondrial pseudogenes (numts) that originated by transfer of genetic information from mitochondria to the nucleus offer a unique opportunity to compare different regimes of molecular evolution. Analyzing a 1621-nt-long numt of the rRNA specifying mitochondrial DNA residing on human chromosome 3 and its corresponding mitochondrial gene in 18 anthropoid primates, we were able to retrace about 40 MY of primate rDNA evolutionary history. The results illustrate strengths and weaknesses of mtDNA data sets in reconstructing and dating the phylogenetic history of primates. We were able to show the following. In contrast to numt-DNA, (1) the nucleotide composition of mtDNA changed dramatically in the different primate lineages. This is assumed to lead to significant misinterpretations of the mitochondrial evolutionary history. (2) Due to the nucleotide compositional plasticity of primate mtDNA, the phylogenetic reconstruction combining mitochondrial and nuclear sequences is unlikely to yield reliable information for either tree topologies or branch lengths. This is because a major part of the underlying sequence evolution model — the nucleotide composition — is undergoing dramatic change in different mitochondrial lineages. We propose that this problem is also expressed in the occasional unexpected long branches leading to the “common ancestor” of orthologous numt sequences of different primate taxa. (3) The heterogeneous and lineage-specific evolution of mitochondrial sequences in primates renders molecular dating based on primate mtDNA problematic, whereas the numt sequences provide a much more reliable base for dating.[Reviewing Editor: Dr. Rafael Zardoya] 相似文献
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Ason C.-Y. Chiang Eleanor McCartney Patrick H. O&#x;Farrell Hansong Ma 《Current biology : CB》2019,29(24):4330-4336.e3