Phylogenetic relationships among four species of Mullidae (Perciformes) inferred from DNA sequences of mitochondrial cytochrome b and 16S rRNA genes

DNA sequence comparisons of two mitochondrial DNA genes were used to infer phylogenetic relationships among four species of mullids. Approximately 238 bp of the mitochondrial 16S ribosomal RNA (rRNA) and 261 bp of the cytochrome b (cytb) genes were sequenced from representatives of three mullid genera (Mullus, Upeneus, Pseudopeneus), present in the Mediterranean Sea. Trees were constructed using three methods: maximum likelihood (ML), neighbor joining (NJ) and parsimony (MP). The results of the analyses of these data together with published data of the same mtDNA segments of two other perciform species (Sparus aurata, Perca fluviatilis), support the previous taxonomic classification of the three genera examined, as well as the classification of the two red mullet species in the same genus.     

用12S rRNA基因序列研究斑腿蝗科二属六种的进化关系

采用DNA测序技术测定了中国斑腿蝗科昆虫6种和斑翅蝗科的红胫小车蝗线粒体12S rRNA基因长约345 bp片段的序列。在获得的345 bp的序列中,A+T约占71.8%,其中135个核苷酸位点存在变异 (约占39.1%)。PAUP4.0b数据分析软件构建该6种蝗虫的MP和NJ分子系统树显示,稻蝗属和蔗蝗属各为独立的一支。在稻蝗属一支中,中华稻蝗与山稻蝗关系很近,而与小稻蝗关系较远,这与形态学结果相吻合;在蔗蝗属一支中,异歧蔗蝗与斑角蔗蝗亲缘关系较近,而与等歧蔗蝗关系较远,这与形态学研究结果并不吻合,有待进一步的研究。     

从12S rRNA基因序列推测鹭科13种鸟类的系统发生关系

对鹭科12个种的线粒体12S rRNA基因全长约975bp的序列进行了测定,并从GenBank获得黄顶夜鹭12S rRNA基因全序列。比对后的序列长993bp,含363变异位点,288个多态位点,187个简约信息位点。使用邻接法和最大简约法重建的分子系统树将13种鹭聚为2支：第一支包括白鹭、中白鹭、大白鹭、池鹭、牛背鹭、苍鹭、草鹭、夜鹭、黄顶夜鹭,第二支由黄苇渴Gan、黑苇Gan、栗苇Gan、大麻Gan组成。结果提示将鹭科分为鹭亚科和Gan亚科的传统观点是合理的,不支持Payne将鹭科分为日鹭亚科(Ardeinae)、夜鹭亚科(Nycticracinae)、Gan亚科(Botaurinae)和虎鹭亚科(Tigrisomatinae)的观点。进一步的分析表明：白鹭在系统演化中要早于大白鹭和中白鹭分支出来,大白鹭和中白鹭与苍鹭、草鹭和牛背鹭间的亲缘关系较近,而与白鹭较远,支持Sibley(1990)将大白鹭和中白鹭作为独立的大白鹭属(Casmerodius)和中白鹭属(Mesophoyx)的建议;黑Gan、栗苇Gan与黄苇Gan在系统发生中构成一单系群,提示将黑Gan置于苇Gan属(Ixobrychus)是合适的[动物学报49(2)：205—210,2003]。     

Molecular identification and phylogenetic relationships of seven Indian Sciaenids (Pisces: Perciformes,Sciaenidae) based on 16S rRNA and cytochrome c oxidase subunit I mitochondrial genes

The partial sequences of 16S rRNA and cytochrome c oxidase subunit I (COI) mitochondrial genes were analyzed for species identification and phylogenetic relationships among the commercially important Indian sciaenids (Otolithes cuvieri, Otolithes ruber, Johnius dussumieri, Johnius elongatus, Johnieops vogleri, Otolithoides biauritus and Protonibea diacanthus). Sequence analysis of both genes revealed that the seven species fell into three distinct groups, which were genetically distant from each other and exhibited identical phylogenetic resolution. Partial sequences of both the genes provided sufficient phylogenetic information to distinguish the seven sciaenids indicating the usefulness of mtDNA-based approach in species identification.     

Molecular phylogeny of gobioid fishes (Perciformes: Gobioidei) based on mitochondrial 12S rRNA sequences

The molecular phylogeny of the gobioid fishes, comprising 33 genera and 43 valid species, was examined by use of complete mitochondrial 12S rRNA and tRNA(VAL)genes. Both parsimony and neighbor-joining analyses revealed comparable results and are generally congruent with those of morphological studies. The Odontobutis, which was always placed at the base of the phylogenetic trees, can be treated as a sister group of all other nonrhyacichthyid gobioids. Within eleotrid fishes, the monophyly of the Eleotrinae is strongly supported by molecular data. The Butinae is closer to fishes with five branchiostegal rays and should be treated as a sister group of the latter. The group with five branchiostegal rays, except for sicydiines, can be divided into two groups according to their epural counts. Fish with one epural, the Gobiinae of Pezold plus Microdesmidae, form a monophyletic group which is sister to those with two epurals, the Oxudercinae and Gobionellinae of Pezold. However, Sicydiinae, which have one epural, are closer to the Oxudercinae and Gobionellinae rather than to the Gobiinae. Since progressive reduction in epural number has been observed along this lineage, the sicydiines should be treated as a derived group within the groups with two epurals.     

基于Cytb和COⅠ基因部分序列的15种麻蝇之间的系统发育关系(双翅目：麻蝇科)

本研究通过测序Cytb基因和COⅠ基因的部分序列来推定15种麻蝇之间的系统发育关系。在世界麻蝇名录中,本研究的15种麻蝇能够代表麻蝇属Sarcophaga的6个亚属。连接序列（972 bp）被用于系统发育分析;分析方法包括了了最大简约法、最大似然法以及贝叶斯法。我们的结果提示了亚麻蝇亚属Parasarcophaga、别麻蝇亚属Boettcherisca以及红麻蝇亚属Liopygia的单系性,同时也表明蛇麻蝇亚属Liosarcophaga和德麻蝇亚属Pandelleisca并不是单源的。不过,目前的研究并不能分辨野德麻蝇S. (Pandelleisca) similis和峨眉叉麻蝇S. (Robineauella) coei的系统发育位置。此外,最大简约分析和似然功能分析在scopariiformis-iwuensis进化枝和polystylata-hui进化枝的关系上产生了不一致的系统发育推断。因此,后续研究不仅需要其他的分子标记,也需要更多的分类取样。     

Phylogenetic analysis of six species of pacific abalone (Haliotidae) based on DNA sequences of 16s rRNA and cytochrome c oxidase subunit I mitochondrial genes

Six species of abalones (Haliotidae) are found on the Korean coasts. Identification and characterization of these abalones are usually based on morphologic characters. In this research we compared the partial sequences of the mitochondrial 16S ribosomal RNA and cytochrome c oxidase subunit I genes to identify species using molecular data and to determine their phylogenetic relationships. Sequence alignments and phylogenetic analysis revealed that the 6 species fell into 2 distinct groups which were genetically distant from each other and exhibited little internal phylogenetic resolution. One group included Haliotis discus hannai, H. discus discus, H. madaka, and H. gigantea, while the other group contained H. diversicolor supertexta and H. diversicolor diversicolor. The 16S rRNA sequences were relatively more conserved than to the COI sequences, but both gene sequences provided sufficient phylogenetic information to distinguish among the 6 species of Pacific abalone, and thus could be valuable molecular characters for species identification.     

Mammalian mitochondrial DNA evolution: A comparison of the cytochrome b and cytochrome c oxidase II genes

The evolution of two mitochondrial genes, cytochrome b and cytochrome c oxidase subunit II, was examined in several eutherian mammal orders, with special emphasis on the orders Artiodactyla and Rodentia. When analyzed using both maximum parsimony, with either equal or unequal character weighting, and neighbor joining, neither gene performed with a high degree of consistency in terms of the phylogenetic hypotheses supported. The phylogenetic inconsistencies observed for both these genes may be the result of several factors including differences in the rate of nucleotide substitution among particular lineages (especially between orders), base composition bias, transition/transversion bias, differences in codon usage, and different constraints and levels of homoplasy associated with first, second, and third codon positions. We discuss the implications of these findings for the molecular systematics of mammals, especially as they relate to recent hypotheses concerning the polyphyly of the order Rodentia, relationships among the Artiodactyla, and various interordinal relationships.Correspondence to: R.L. Honeycutt     

Molecular phylogeny of Pamphagidae (Acridoidea,Orthoptera) from China based on mitochondrial cytochrome oxidase II sequences

Abstract Phylogenetic relationships of Pamphagidae were examined using cytochrome oxidase subunit II (COII) mtDNA sequences (684 bp). Twenty‐seven species of Acridoidea from 20 genera were sequenced to obtain mtDNA data, along with four species from the GenBank nucleotide database. The purpose of this study was analyzing the phylogenetic relationships among subfamilies within Pamphagidae and interpreting the phylogenetic position of this family within the Acridoidea superfamily. Phylogenetic trees were reconstructed using neighbor‐joining (NJ), maximum parsimony (MP) and Bayesian inference (BI) methods. The 684 bp analyzed fragment included 126 parsimony informative sites. Sequences diverged 1.0%–11.1% between genera within subfamilies, and 8.8%–12.3% between subfamilies. Amino acid sequence diverged 0–6.1% between genera within subfamilies, and 0.4%–7.5% between subfamilies. Our phylogenetic trees revealed the monophyly of Pamphagidae and three distinct major groups within this family. Moreover, several well supported and stable clades were found in Pamphagidae. The global clustering results were similar to that obtained through classical morphological classification: Prionotropisinae, Thrinchinae and Pamphaginae were monophyletic groups. However, the current genus Filchnerella (Prionotropisinae) was not a monophyletic group and the genus Asiotmethis (Prionotropisinae) was a sister group of the genus Thrinchus (Thrinchinae). Further molecular and morphological studies are required to clarify the phylogenetic relationships of the genera Filchnerella and Asiotmethis.     

Novel primer sets for species‐specific amplification of the mitochondrial 12S rRNA genes in four Japanese woodpeckers (Picidae,Piciformes)

In birds, feathers and faeces can be used as a source of DNA for genetic analyses. If the materials are derived from an absentee bird(s), however, the species must first be identified. Here, we developed four pairs of primers for amplification of mitochondrial 12S ribosomal RNA fragments in the black woodpecker Dryocopus martius, a vulnerable species in Japan, and three other sympatric woodpeckers including Dendrocopos leucotos, D. major and Picus awokera. Because each primer pair gave a PCR product in only one of the examined species, these primer sets will be useful in identifying the species of woodpeckers.     

基于12S,16S和28S rRNA基因序列的中国小毛瓢虫属系统发育分析

【目的】小毛瓢虫属Scymnus Kugelann昆虫主要捕食蚜虫、蚧虫等害虫,是一类经济上重要的天敌昆虫。目前针对小毛瓢虫属的系统发育研究尚属空白,亚属之间的系统演化关系尚不明确,为了建立合理的分类系统,亟需对小毛瓢虫属的亲缘关系进行研究和探讨。【方法】以华南农业大学馆藏的小毛瓢虫属5亚属共44种为研究对象,采用PCR技术对12S, 16S和28S rRNA基因的部分序列进行扩增;运用MEGA 7.0分析了小毛瓢虫属内12S, 16S和28S rRNA基因的碱基组成,基于K2P模型计算了小毛瓢虫属44种的种间遗传距离;采用最大似然法(maximum-likelihood, ML)和贝叶斯推断法(Bayesian-inference, BI)构建该属的系统发育树。【结果】扩增获得小毛瓢虫属44种的12S rRNA基因序列平均长度为356 bp, 16S rRNA基因序列平均长度为351 bp, 28S rRNA基因序列平均长度为315 bp;序列分析表明,12S rRNA基因的A, T, G和C平均含量分别为38.8%, 43.5%, 11.9%和5.8%, 16S rRNA基因的A, T, G和C平均含量分别为37.6%, 40.3%, 14.4%和7.7%, 28S rRNA基因的A, T, G和C平均含量分别为26.7%, 18.3%, 31.4%和23.5%;基于联合序列分析的种间遗传距离为0.004～0.276,平均遗传距离为0.115。系统发育分析结果表明,小毛瓢虫属为单系起源,而小毛瓢虫亚属Scymnus(Scymnus) Kugelann、毛瓢虫亚属Scymnus(Neopullus) Sasaji、小瓢虫亚属Scymnus(Pullus) Mulsant和拟小瓢虫亚属Scymnus(Parapullus) Yang均为并系起源。【结论】基于12S, 16S和28S rRNA基因序列的小毛瓢虫属系统发育分析显示传统的形态学分类体系与基于分子数据分析的结果部分不一致,这表明应该对该属内各亚属的鉴别特征进行全面检视,筛选并确立各亚属的形态指标,同时也表明该属内的亚属分类单元需重新厘定。     

Adding mitochondrial sequence data (16S rRNA and cytochrome c oxidase subunit I) to the phylogeny of centipedes (Myriapoda: Chilopoda): an analysis of morphology and four molecular loci

Relationships within Chilopoda (centipedes) are assessed based on 222 morphological characters, complete 18S rRNA sequences for 70 chilopod terminals, the D3 region of 28S rRNA for 65 terminals, 16S rRNA sequences for 54 terminals and cytochrome c oxidase subunit I sequences for 45 terminals. Morphological and molecular data for seven orders of Diplopoda are used to root cladograms for Chilopoda. Analyses use direct character optimization for 15 gap and substitution models. The Pleurostigmophora and Epimorpha s.l. hypotheses are largely stable to parameter variation for the combined data; the latter clade is formalized as the new taxon Phylactometria. The combined data include parameter sets that support either the monophyly of Epimorpha s.str. (=Scolopendromorpha + Geophilomorpha) or Craterostigmus + Geophilomorpha; the former derives its support from morphology and the nuclear ribosomal genes. Monophyly of Lithobiomorpha and the sister group relationship between Lithobiidae and Henicopidae are stable for morphological and combined data, and are also resolved for the molecular data for 14 of 15 parameter sets. The fundamental split in Scolopendromorpha is between Cryptopidae and Scolopendridae sensu Attems. Blind scolopendromorphs unite as a clade in most molecular and combined analyses, including those that minimize incongruence between data partitions. Geophilomorpha divides into Placodesmata and Adesmata under nine of 15 explored parameter sets.     

Phylogenetic relationships of Hynobius naevius (Amphibia: Caudata) as revealed by mitochondrial 12S and 16S rRNA genes

Using mitochondrial 12S and 16S rRNA sequences, we investigated phylogenetic relationships among populations of the endemic Japanese salamander Hynobius naevius. Monophyly of this species was recovered only in the maximum parsimony tree and was unresolved in maximum likelihood and Bayesian trees. Instead the following four haplotype clades consistently emerged clearly: Clade 1 from northwestern Kyushu, Clade 2 from Chugoku and northeastern Kyushu, Clade 3 from western Shikoku and Kyushu, and Clade 4 from Chubu-Kinki and central-eastern Shikoku. Of these, Clades 1 and 2, and Clades 3 and 4, respectively, correspond to Groups A and B previously recognized from the analyses of allozyme data in this species, but monophyly of these groups was not strongly supported. Unlike the previous results, the western and eastern samples from Shikoku did not form a clade, and were grouped with Kyushu-B in Clade 3 and Chubu-Kinki in Clade 4, respectively. The reason for this conflict between mtDNA and allozyme results is unknown, but might be related to retention of ancestral mtDNA polymorphism in Shikoku populations. Nearly simultaneous divergence of as many as four lineages in wide-ranging H. naevius is inferred for the late Miocene-Pliocene history of this taxon.     

Phylogeny of Snub-Nosed Monkeys Inferred from Mitochondrial DNA,Cytochrome B,and 12S rRNA Sequences

Snub-nosed monkeys (Rhinopithecus spp.) are confined to isolated mountainous regions in China and North Vietnam. Their systematic classification and phylogenetic relationship has been controversial. The structures of mitochondrial DNA cytochrome b and 12S rRNA show that the 4 species of Rhinopithecus are quite different from other colobines. It is reasonable to regard them as an independent genus, as determined by external features, morphometric characters and behavior. However, whether or not there should be a subdivision between the Vietnamese and Chinese species at the subgeneric level remains to be clarified; more evidence from a large range of Asian colobine species is needed. The Guizhou species, Rhinopithecus brelichi, is a valid species, which is more closely related to Pygathrix than the other species ( R. roxellana, R. bieti and R. avunculus) are. Results also indicate that 3 species—Rhinopithecus roxellana, R. bieti and R. avunculus—might have diverged from R. brelichi, but the phylogenetic relationship of R. avunculus is not clear.     

Speciation of two sympatric coastal fish species, Girella punctata and Girella leonina (Perciformes, Kyphosidae)

Girella punctata and Girella leonina are sympatric sister species showing extensive distributional overlap in shallow rocky reefs in the Pacific Ocean south of the Japanese Islands. Differences between the two species in external morphological characters, such as number of pored lateral line scales, colour of opercular flap and shape of caudal fin, are congruent with genetic divergence. Nucleotide identity between the two species in the 3.3 kbp region of partial mitochondrial DNA containing the D-loop region, in 12S and 16S ribosomal RNA (rRNA) and transfer RNA genes is 95%. To estimate divergence time, Bayesian analysis was conducted using a dataset comprising concatenated nucleotide sequences from the two rRNA genes of three girellid and nine other fish species. Using the Elopomorpha – Clupeocephala split (265 million years ago (mya)) as a calibration point, divergence between G. punctata and G. leonina is estimated as having occurred 6.0±1.4 mya. Speciation is suggested to have been caused by geographical isolation associated with formation of the Japanese Islands, which resulted in disjunction of Girella habitat.     

Phylogenetic relationships of Moxostoma and Scartomyzon (Catostomidae) based on mitochondrial cytochrome b sequence data

A recent phylogenetic study based on morphological, biochemical and early life history characters resurrected the genus Scartomyzon (jumprock suckers, c . eight−10 species) from Moxostoma (redhorse suckers, c . 10–11 species) and advanced the understanding of relationships among species in these two genera, and the genealogical affinities of these genera with other evolutionary lineages within the tribe Moxostomatini in the subfamily Catostominae. To further examine phylogenetic relationships among moxostomatin suckers, the complete mitochondrial (mt) cytochrome b gene was sequenced from all species within this tribe and representative outgroup taxa from the Catostomini and other catostomid subfamilies. Phylogenetic analysis of gene sequences yielded two monophyletic clades within Catostominae: Catostomus + Deltistes + Xyrauchen + Erimyzon + Minytrema and Moxostoma + Scartomyzon + Hypentelium + Thoburnia . Within the Moxostomatini, Thoburnia was either unresolved or polyphyletic; Thoburnia atripinnis was sister to a monophyletic Hypentelium . In turn, this clade was sister to a monophyletic clade containing Scartomyzon and Moxostoma . Scartomyzon was never resolved as monophyletic, but was always recovered as a polyphyletic group embedded within Moxostoma , rendering the latter genus paraphyletic if ' Scartomyzon ' continues to be recognized. Relationships among lineages within the Moxostoma and' Scartomyzon 'clade were resolved as a polytomy. To better reflect phylogenetic relationships resolved in this analysis, the following changes to the classification of the tribe Moxostomatini are proposed: subsumption of' Scartomyzon 'into Moxostoma ; restriction of the tribe Moxostomatini to Moxostoma ; resurrect the tribe Erimyzonini, containing Erimyzon and Minytrema , classified as incertae sedis within Catostominae; retain the tribe Thoburniini.     

Phylogenetic relationships within the Mysidae (Crustacea, Peracarida, Mysida) based on nuclear 18S ribosomal RNA sequences

Species of the order Mysida (Crustacea, Peracarida) are shrimp-like animals that occur in vast numbers in coastal regions of the world. The order Mysida comprises 1,053 species and 165 genera. The present study covers 25 species of the well-defined Mysidae, the most speciose family within the order Mysida. 18S rRNA sequence analysis confirms that the subfamily Siriellinae is monophyletic. On the other hand the subfamily Gastrosaccinae is paraphyletic and the subfamily Mysinae, represented in this study by the tribes Mysini and Leptomysini, consistently resolves into three independent clades, and hence is clearly not monophyletic. The tribe Mysini is not monophyletic either, and forms two clades of which one appears to be closely related to the Leptomysini. Our results are concordant with a number of morphological differences urging a taxonomic revision of the Mysidae.     

Higher-level systematics of rodents (Mammalia,Rodentia): Evidence from the mitochondrial 12S rRNA gene

Phylogenetic relationships among major rodent superfamilies traditionally have been difficult to establish because of the apparent high level of convergence and parallelism seen among morphological characters and/or rapid differentiation of rodent groups in the Paleocene/Eocene. Nucleotide sequence data from the mitochondrial 12S rRNA gene were used to clarify phylogenetic relationships among the major groups of rodents as defined by Brandt (1855) and Tullberg (1899). Based on the approximately 800 bp analyzed for the 12S rRNA gene in 59 mammalian species, including 25 of the 32 extant rodent families, the major rodent groups that could be defined as monophyletic clades were the Hystricognathi, the Muroidea, and the Geomyoidea. In addition, support for superfamilial sister-group relationships was found for Aplodontoidea with Sciuroidea and Dipodoidea with Muroidea.     

Molecular phylogeny of the family Tephritidae (Insecta: Diptera): New insight from combined analysis of the mitochondrial 12S, 16S,and COII genes

The phylogeny of the family Tephritidae (Diptera: Tephritidae) was reconstructed from mitochondrial 12S, 16S, and COII gene fragments using 87 species, including 79 tephritid and 8 outgroup species. Minimum evolution and Bayesian trees suggested the following phylogenetic relationships: (1) A sister group relationship between Ortalotrypeta and Tachinisca, and their basal phylogenetic position within Tephritidae; (2) a sister group relationship between the tribe Acanthonevrini and Phytalmiini; (3) monophyly of Plioreocepta, Taomyia and an undescribed new genus, and their sister group relationship with the subfamily Tephritinae; (4) a possible sister group relationship of Cephalophysa and Adramini; and (5) reconfirmation of monophyly for Trypetini, Carpomyini, Tephritinae, and Dacinae. The combination of 12S, 16S, and COII data enabled resolution of phylogenetic relationships among the higher taxa of Tephritidae.     

Phylogenetic relationships of the Japanese minnows,Pseudorasbora (Cyprinidae), as inferred from mitochondrial 16S rRNA gene sequences

The phylogenetic relationships among threePseudorasbora fishes (Cyprinidae, Sarcocheiichthyinae) occurring in Japan (P. parva, P. pumila pumila andP. pumila subsp. sensu Nakamura [1963]) were inferred from nucleotide sequences of the mitochondrial 16S rRNA gene. The sequences. of 1240 bp, were determined and compared for 22 specimens from 2–8 populations for each taxon, with a singlePungtungia herzi specimen as an outgroup. A total of 171 sites (13.8%) were variable among the specimens, but only 0–2 sites within each population. The phylogenetic relationships estimated by neighbor-joining, maximum-parsimony and maximum-likelihood methods confirmed a sister relationship between the twoP. pumila subspecies, with a high level of confidence. However, their genetic distinction from each other (4.1±0.4SD % sequence difference on average) was at a level similar to that between them andP. parva (5.9±0.5%). The geographic distribution of the twoP. pumila subspecies, which are separated by the Fossa Magna region, suggests that the genetic divergence of the two subspecies originated from a vicariant process separating the freshwater ichthyofaunas of eastern and western Honshu.Pseudorasbora parva populations were divided into two genetic groups (1.8±0.2% sequence difference), one group comprising continental and part of the Japanese populations, and the other the remaining Japanese populations. This suggests that at least two genetically divergent lineages had been originally distributed in Japan, but a strong possibility remains that the present situation has resulted from artificial transplantation.