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引用本文:潘宝平,吴琪,张素萍,宋林生,卜文俊.文蛤属(Meretrix)16S rRNA基因及ITS1序列的系统学分析.海洋与湖沼,2006,37(4):342-347.
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文蛤属(Meretrix)16S rRNA基因及ITS1序列的系统学分析
潘宝平1,2, 吴琪1, 张素萍3, 宋林生3, 卜文俊2
1.天津师范大学化学与生命科学学院 天津300074;2.南开大学生命科学学院 天津300071;3.中国科学院海洋研究所 青岛266071
摘要:
利用线粒体16SrRNA基因片段及核糖体DNA转录间隔区ITS1序列分析的方法,以近缘属的青蛤(Cyclina sinensis)为外群,对文蛤属的文蛤(M.meretrix)、丽文蛤(M.lusoria)、帘文蛤(M.lyrata)和斧文蛤(M.lamarckii)4种贝类进行了系统学研究。经ClustalX多重比对及DNAsp软件分析后,用PAUP4.0分析软件,计算出种间序列的碱基转换/颠换频率,利用邻接法NJ构建系统发育树。结果表明,帘文蛤与该属其他三种的分歧时间较早,两类序列与其他种类间的相对遗传距离分别在0.25866—0.28218和0.15644—0.20104之间。文蛤与丽文蛤间的16SrDNA及ITS1序列间的遗传距离仅为0.04805和0.04201,拓扑结构图显示关系很近,并且二者的分布区大面积重叠,其序列间的转换/颠换频率接近种内单元型(haplotype)间的序列变化,鉴于它们的贝壳形态有一定差别,应归为同一个种内的不同地理亚种比较恰当。
关键词:  文蛤属  文蛤  丽文蛤  16SrRNA基因  ITS1  分子系统学
DOI:
分类号:
基金项目:天津市高等学校科技发展项目资助,020801号;国家基础科学人才培养基金资助,国科金发计字108号
附件
MOLECULAR PHYLOGENY OF MERETRIX (MOLLUSCA, BIVALVIA) BASED ON 16S rRNA GENES AND ITS1 SEQUENCES
PAN Bao-Ping1,2, WU Qi1, ZHANG Su-Ping3, SONG Lin-Sheng3, BU Wen-Jun2
1.School of Chemistry and Life Science, Tianjin Normal University, Tianjin, 300074;2.School of Life Science, Nankai University, Tianjin, 300071;3.Institute of Oceanology, Chinese Academy of Sciences, Qingdao, 266071
Abstract:
Members of the Genus Meretrix are commercially important marine fishery seashells in China. Some of species have already become regional economic main stay in coastal areas of China. However, the taxonomy of Meretrix is still in argument over several discrepancies among scientists in the world. This paper deals with the mitochondria partial 16S rRNA genes and ITS1 (Internal Transcribed Spacer1, between 18S ribosomal RNA gene and 5.8S ribosomal RNA gene) sequences from 4 Meretrix species, including M. meretrix, M. lusoria, M. lyrata and M. lamarckii common in Chinese coastal zones. At the target sequences with universal primers, we investigated and amplified 16S rRNA and ITS1 of the four species and obtained fragments of 16S rRNA between 590 bp and 648 bp and ITS1 between 781 bp and 825 bp, as well as the alignment with software Clustal-X and the sequences variations with DNA sp4. 171 mutation sites in 16S rRNA fragment with polymorph ism at 0.17, and 251 nucleotide mutation sites in ITS1 sequence with polymorphism at 0.20 were determined. Setting Cyclina sinensis as the outgroup in phylogeny, with PAUP 4.1 Beta, we calculated the rate of base pair transition / transversion and constructed the system tree with neighbor-joining (NJ) method for the four species. The results show that the genetic distance of M. lyrata to other three were between 0.258–0.282 and 0.156–0.201, suggesting a significant differentiation of M. lyrata from other species, but closer to M. lamarckii. In addition, M. meretrix is closer to M. lusoria, as the distances in-between were 0.048 and 0.042 in 16S rRNA and ITS1 respectively, and the areas of distribution were largely superimposed for each other. By ignoring inserted and missing sites, the two species’ transition / transversion can be bracketed as inter-species haplotype. Minor morphological difference between the two could be due to geographical reasons and may described as two subspecies, which agree with the taxonomy for genus Meretrix proposed by Prashad (1932) and Fischer-Piette (1941).
Key words:  Meretrix, M. meretrix, M. lusoria, 16S rRNA gene, ITS1, Molecular Phylogenetics
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