变灰青霉线粒体基因组特征及系统发育分析

本研究对一株分离自细虫草上的变灰青霉SFY00C3菌株线粒体基因组进行测定,分析其组成特征,并探究其与青霉属真菌的系统发育关系。结果表明,SFY00C3的线粒体基因组是一条长度为28 301 bp的环状DNA分子,共编码42个基因(15个蛋白编码基因、2个rRNA基因和25个tRNA基因),其碱基组成有显著的A-T偏好性,25个tRNA基因均可形成典型三叶草结构,并存在32处G-U错配。通过青霉属物种间共线性分析发现其线粒体基因组发生了基因重排;共有的14个蛋白编码基因的Ka/Ks值均小于1,表明受到了纯化选择压力的影响;系统发育分析表明：SFY00C3在青霉属中是一个独立的分支,应该是6种青霉祖先的姊妹。本研究丰富了变灰青霉的线粒体基因组序列信息,为青霉属的系统发育、资源保护及遗传多样性研究提供基础数据。     

虾虎鱼类线粒体全基因组序列结构特征分析及系统发育关系探讨

虾虎鱼类体态变异大、体型小、种类多, 形态鉴定及谱系分类较为困难。为深入开展虾虎鱼类的鉴定、分类及遗传进化等研究, 文章对已获得的26种虾虎鱼线粒体全基因组进行分析。结果发现, 虾虎鱼类线粒体基因组的基因组成及排列模式与大多数脊椎动物线粒体基因组特征基本一致; 由于不同物种的控制区存在不同数量的重复序列而导致基因组序列长度存在明显的差异; 26种虾虎鱼线粒体全基因组序列及不同基因中A+T的含量均超过50%, 并存在碱基G偏倚现象。基于37个编码基因序列, 利用Kimura双参数法计算遗传距离, 发现矛尾刺虾虎鱼与斑尾刺虾虎鱼、斑纹舌虾虎鱼与钝吻舌虾虎鱼分别为同种异名。通过对26种虾虎鱼线粒体基因组控制区序列的比较, 识别了终止结合序列区、中央保守区及保守序列区。利用26种虾虎鱼线粒体基因组的36个编码基因序列构建系统发育树, 发现部分聚类结果不同于传统的形态学分类方式, 虾虎鱼科中的5个亚科出现了明显的分化, 近盲虾虎鱼亚科、背眼虾虎鱼亚科、瓢虾虎鱼亚科亲缘关系较近而聚成一大支, 然后与拟虾虎鱼亚科种类形成姐妹类群, 虾虎鱼亚科与其它的4个亚科亲缘关系较远, 单独成为一个类群。根据分子钟估算结果推测虾虎鱼科物种可能起源于始新世晚期至渐新世时段, 在中新世进一步分化为具有现代表征的虾虎鱼种类。     

枣食芽象甲线粒体基因组全序列测定与系统发育分析

【目的】从线粒体基因组水平上探讨枣食芽象甲Scythropus yasumatsui与近缘种的系统发育关系。【方法】利用Illumina MiSeq测序平台对枣食芽象甲线粒体基因组进行测序,对基因组序列进行拼装、注释和特征分析;利用贝叶斯法和最大似然法构建基于象甲科13个物种的线粒体基因组13个蛋白质编码基因核苷酸序列的系统发育树。【结果】结果表明,枣食芽象甲线粒体基因组全长为16 472 bp (GenBank登录号: MF807224),包含13个蛋白质编码基因、22个tRNA基因、2个rRNA基因和2个非编码控制区,37个基因的排列顺序与祖先昆虫的线粒体基因排列顺序一致。13个蛋白质编码基因的起始密码子为ATN,其中除了cob和nad1基因的完全终止密码子为TAG外,其余11个基因的完全终止密码子为TA(A)。22个tRNA基因中除了trnS1缺少DHU臂,反密码子由GCT变为TCT外,其余均能形成典型的三叶草结构。基于13个蛋白质编码基因序列构建的系统发育树结果显示,象甲科8个亚科系统发育关系为：(((隐喙象亚科(Cryptorhynchinae)+(象虫亚科(Curculioninae)+魔喙象亚科(Molytinae)))+长小蠹亚科(Platypodinae))+(粗喙象亚科(Entiminae)+Cyclominae亚科))+隐颏象亚科(Dryophthorinae)+小蠹亚科(Scolytinae))。【结论】在13种象甲科昆虫物种中,同属于粗喙象亚科的枣食芽象甲与南美果树象甲Naupactus xanthographus在系统发育树中聚为同一分支,表明基于线粒体基因组全序列的分子系统发育结果与传统的形态分类结果是一致的。     

The complete mitochondrial genome of the Keeled box turtle Pyxidea mouhotii and phylogenetic analysis of major turtle groups

The complete mitochondrial genome （16,837 bp） from the Keeled box turtle （Pyxidea mouhotii） was determined. The genome content, gene order, and base composition conformed to the consensus vertebrate type mtDNA. However, a remarkable feature was found in this molecule： a large number of （ATTATATC） n direct tandem repeats followed by （TA） n microsatellite at the 3＇ end of the control region （D-loop）, which might be useful as molecular markers for studying population genetics and helpful for species identification and conservation. Besides, to review phylogenetic relationships among major turtle lineages, maximum-likelihood （ML） and Bayesian （BI） analyses were conducted based on concatenated sequences of 13 protein-coding genes from 16 taxa. The resultant ML and BI analyses showed homological topologies, which only differed on the exact placement of Platysternon. Nevertheless, the results strongly supported that 1） Pyxidea mouhotii and Cuora aurocapitata formed a monophyletic clade, whereas Cyclemys atripons was not closer to the Pyxidea-Cuora than to Chinemys reevesii, suggesting that Cyclemys and the Cuora group （containing Pyxidea） may have originated from two ancestors; 2） the Geoemydidae with Testudinidae was a sister group rather than with the Emydidae.     

林氏按蚊线粒体全基因组序列的测定及基于线粒体基因组的按蚊属系统发育分析(英文)

【目的】对林氏按蚊Anopheles lindesayi完整的线粒体基因组进行测序及分析,依据已知的线粒体基因组构建并讨论按蚊属蚊虫的分子系统发育关系。【方法】对林氏按蚊线粒体基因组进行测序、注释,并对其基本特征和基本组成进行分析。基于串联的13个蛋白质编码基因的核苷酸序列和氨基酸序列,用ML法和贝叶斯法构建林氏按蚊和按蚊属其他32种蚊虫的系统发育树,据此探讨按蚊属蚊虫的系统发育关系和系统分类。【结果】林氏按蚊线粒体基因组全长为15 366 bp,包含13个蛋白质编码基因,22个tRNA基因,2个rRNA基因和一段控制区。林氏按蚊线粒体基因组呈现明显的AT偏斜和GC偏斜,AT偏斜为正,GC偏斜为负。除了COX1使用TCG和ND5使用GTG作为起始密码子以外,其他蛋白质编码基因的起始密码子均遵循ATN原则;终止密码子为TAA或者T。除了tRNA^Ser(AGN)以外,其他的tRNA基因均呈现典型的三叶草二级结构。控制区AT含量最高,为94.54%。滑窗分析显示蛋白质编码基因是用于构建亚属或属水平系统发育关系的最佳分子标记。系统发育树强烈支持塞蚊亚属Cellia、按蚊亚属Anopheles、徕蚊亚属Nyssorhynchus和柯特蚊亚属Kerteszia均为单系群。小五斑按蚊An. atroparvus和四斑按蚊An. quadrimaculatus A这两个种聚到一起,从传统的形态分类上讲,它们和林氏按蚊均属于按蚊亚属按蚊系蚊虫。但本研究构建的4个系统发育树均显示,(小五斑按蚊An. atroparvus+四斑按蚊An. quadrimaculatus A)和林氏按蚊被属于迈蚊系的中华按蚊分开,这为两个系的分类提供了新的论点。【结论】本研究获得了林氏按蚊的完整的线粒体基因组,探析了按蚊属的线粒体基因组特征和系统发育关系,为进一步研究蚊科线粒体基因组和系统发育关系提供了依据。     

Complete mtDNA sequence of the North American freshwater mussel,Lampsilis ornata (Unionidae): an examination of the evolution and phylogenetic utility of mitochondrial genome organization in Bivalvia (Mollusca)

Molluscs in general, and bivalves in particular, exhibit an extraordinary degree of mitochondrial gene order variation when compared with other metazoans. Two factors inhibiting our understanding the evolution of gene rearrangement in bivalves are inadequate taxonomic sampling and failure to examine gene order in a phylogenetic framework. Here, we report the first complete nucleotide sequence (16,060 bp) of the mitochondrial (mt) genome of a North American freshwater bivalve, Lampsilis ornata (Mollusca: Paleoheterodonta: Unionidae). Gene order and mt genome content is examined in a comparative phylogenetic framework for Lampsilis and five other bivalves, representing five families. Mitochondrial genome content is shown to vary by gene duplication and loss among taxa and between male and female mitotypes within a species. Although mt gene arrangement is highly variable among bivalves, when optimized on an independently derived phylogenetic hypothesis, it allows for the reconstruction of ancestral gene order states and indicates the potential phylogenetic utility of the data. However, the interpretation of reconstructed ancestral gene order states must take in to account both the accuracy of the phylogenetic estimation and the probability of character state change across the topology, such as the presence/absence of atp8 in bivalve lineages. We discuss what role, if any, doubly uniparental inheritance (DUI) and recombination between sexual mitotypes may play in influencing gene rearrangement of the mt genome in some bivalve lineages.     

啮总目昆虫的线粒体基因组多样性及系统发育研究进展

啮总目包括啮虫目（皮虱和书虱）和虱目（羽虱和吸虱）,是农业和医学等领域具有重要经济意义和研究价值的类群,目前已鉴定和描述的物种超过10 000个。啮总目昆虫线粒体基因组的变异性在昆虫各类群中最为剧烈,这些变异包括基因组的结构、基因排序、基因含量和链上分布等诸多方面。本文全面分析和总结了啮总目昆虫裂化线粒体基因组的进化属性,并结合两侧对称动物线粒体基因组的裂化特征重构了线粒体基因组环裂化的过程。引入“线粒体基因组核型”的概念来描述动物线粒体基因组丰富的变异程度。动物线粒体的染色体有减小的趋势,而线粒体基因组的裂化正是体现这种趋势的一种重要策略。同时,总结和探讨了目前具有争议的啮总目主要类群间的系统发育关系。本综述为啮总目昆虫线粒体基因组学、啮总目系统发生关系以及两侧对称动物线粒体基因组进化模式的研究提供一个新的视角。     

Complete mitochondrial genome sequence and phylogenetic position of the Amu Darya sturgeon,Pseudoscaphirhynchus kaufmanni (Acipenseriformes: Acipenseridae)

In this study, we successfully assembled the complete mitochondrial genome of the Amu Darya sturgeon Pseudoscaphirhynchus kaufmanni. Based on this mitochondrial genome and previously published mitochondrial genomes of members of the Acipenseridae family, we assessed the phylogenetic position of P. kaufmanni using maximum likelihood and Bayesian inference for phylogeny reconstruction. The resultant phylogenetic trees were well-resolved, with congruence between different phylogenetic methods. This robust phylogenetic analysis elucidated the relationship among the four acipenserid genera and strongly supported the division of the family into three main clades. Evaluation of molecular phylogeny using maximum likelihood and Bayesian analysis led to the following conclusions: (a) the most basal position within the Acipenseridae remains in the clade containing Acipenser oxyrinchus and Acipenser sturio; (b) the genus Scaphirhynchus belongs to the Atlantic clade and is a sister group of the remaining species of the clade; and (c) the close relationship between P. kaufmanni and Acipenser stellatus is well supported.     

High‐altitude adaptation in vertebrates as revealed by mitochondrial genome analyses

The high‐altitude environment may drive vertebrate evolution in a certain way, and vertebrates living in different altitude environments might have different energy requirements. We hypothesized that the high‐altitude environment might impose different influences on vertebrate mitochondrial genomes (mtDNA). We used selection pressure analyses and PIC (phylogenetic independent contrasts) analysis to detect the evolutionary rate of vertebrate mtDNA protein‐coding genes (PCGs) from different altitudes. The results showed that the ratio of nonsynonymous/synonymous substitutions (dN/dS) in the mtDNA PCGs was significantly higher in high‐altitude vertebrates than in low‐altitude vertebrates. The seven rapidly evolving genes were shared by the high‐altitude vertebrates, and only one positive selection gene (ND5 gene) was detected in the high‐altitude vertebrates. Our results suggest the mtDNA evolutionary rate in high‐altitude vertebrates was higher than in low‐altitude vertebrates as their evolution requires more energy in a high‐altitude environment. Our study demonstrates the high‐altitude environment (low atmospheric O₂ levels) drives vertebrate evolution in mtDNA PCGs.     

绿眼赛茧蜂线粒体基因组全序列测定和分析

【目的】测定绿眼赛茧蜂Zele chlorophthalmus线粒体基因组全序列,分析其基因组结构及茧蜂科(Braconidae)部分类群的系统发育关系。【方法】利用Illumina MiSeq二代测序技术对绿眼赛茧蜂的线粒体基因组进行测序,对基因组序列进行拼装、注释,分析其结构特点和碱基组成;基于22种茧蜂科昆虫的COX1蛋白编码基因序列,应用最大似然法(ML)和邻接法(NJ)构建系统发育树,分析绿眼赛茧蜂与茧蜂科其他昆虫的系统发育关系。【结果】绿眼赛茧蜂线粒体基因组全长16 661 bp(GenBank登录号: MG822749),包含13个蛋白质编码基因、22个tRNA基因和2个rRNA基因,共37个基因,以及1个控制区。线粒体基因组有明显的核苷酸组成的偏倚,AT偏正,GC偏负,其A+T含量为82.83%。基因排列顺序与推测的昆虫祖先的序列不完全一致,tRNA基因7处发生重排。13个蛋白质编码基因均以ATN为起始密码子,以TAA为终止密码子。在22个tRNA基因二级结构中,除tRNA^His(H)缺失TΨC环和tRNA^Cys(C)仅剩二氢尿嘧啶(DHU)臂和反密码子臂外,其余tRNA基因均能形成典型的三叶草结构。基于COX1蛋白编码序列的系统发育分析结果显示,与绿眼赛茧蜂亲缘关系最近的是同属于赛茧蜂属的雪跗赛茧蜂Z. niveitarsis。【结论】本研究首次获得绿眼赛茧蜂线粒体基因组全序列。结果表明绿眼赛茧蜂隶属于优茧蜂亚科(Euphorinae)赛茧蜂属,并支持赛茧蜂属的单系性。     

The complete mitochondrial genome sequence of the black-capped capuchin (Cebus apella)

The phylogenetic relationships of primates have been extensively investigated, but key issues remain unresolved. Complete mitochondrial genome (mitogenome) data have many advantages in phylogenetic analyses, but such data are available for only 46 primate species. In this work, we determined the complete mitogenome sequence of the black-capped capuchin (Cebus apella). The genome was 16,538 bp in size and consisted of 13 protein-coding genes, 22 tRNAs, two rRNAs and a control region. The genome organization, nucleotide composition and codon usage did not differ significantly from those of other primates. The control region contained several distinct repeat motifs, including a putative termination-associated sequence (TAS) and several conserved sequence blocks (CSB-F, E, D, C, B and 1). Among the protein-coding genes, the COII gene had lower nonsynonymous and synonymous substitutions rates while the ATP8 and ND4 genes had higher rates. A phylogenetic analysis using Maximum likelihood and Bayesian methods and the complete mitogenome data for platyrrhine species confirmed the basal position of the Callicebinae and the sister relationship between Atelinae and Cebidae, as well as the sister relationship between Aotinae (Aotus) and Cebinae (Cebus/Saimiri) in Cebidae. These conclusions agreed with the most recent molecular phylogenetic investigations on primates. This work provides a framework for the use of complete mitogenome information in phylogenetic analyses of the Platyrrhini and primates in general.     

The complete mitochondrial genomes of two vent squat lobsters,Munidopsis lauensis and M. verrilli: Novel gene arrangements and phylogenetic implications

Hydrothermal vents are considered as one of the most extremely harsh environments on the Earth. In this study, the complete mitogenomes of hydrothermal vent squat lobsters, Munidopsis lauensis and M. verrilli, were determined through Illumina sequencing and compared with other available mitogenomes of anomurans. The mitogenomes of M. lauensis (17,483 bp) and M. verrilli (17,636 bp) are the largest among all Anomura mitogenomes, while the A+T contents of M. lauensis (62.40%) and M. verrilli (63.99%) are the lowest. The mitogenomes of M. lauensis and M. verrilli display novel gene arrangements, which might be the result of three tandem duplication–random loss (tdrl) events from the ancestral pancrustacean pattern. The mitochondrial gene orders of M. lauensis and M. verrilli shared the most similarities with S. crosnieri. The phylogenetic analyses based on both gene order data and nucleotide sequences (PCGs and rRNAs) revealed that the two species were closely related to Shinkaia crosnieri. Positive selection analysis revealed that eighteen residues in seven genes (atp8, Cytb, nad3, nad4, nad4l, nad5, and nad6) of the hydrothermal vent anomurans were positively selected sites.     

Genetic diversity in mitochondrial 12S rDNA of western Palearctic water frogs (Anura, Ranidae) and implications for their systematics

The nucleotide sequence of a part of the mitochondrial 12S rRNA gene of eight western Palearctic water frog species was analysed. The results are consistent with the species status of Rana bedriagae, Rana bergeri, Rana epeirotica, Rana lessonae, Rana perezi, Rana ridibunda, Rana saharica and Rana shqiperica . The obtained DNA data suggest that lake frogs from Greece and Yugoslavia on the one hand and lake frogs from Georgia, Uzbekistan and Turkmenistan on the other hand represent two distinct species. However, it is not yet clear whether lake frogs from Georgia, Uzbekistan and Turkmenistan belong to R. ridibunda or represent a new species. The very high similarity between the analysed 12S rDNA segments of German R. ridibunda and R. lessonae confirm the finding that mtDNA of R. lessonae was transmitted into the mitochondrial gene pool of R. ridibunda probably as a result of backcrosses with the hybridogenetic hybrid R. kl. esculenta . The results of parsimony analyses speak in favour of very close phylogenetic relations between R. perezi and R. saharica ; with a high probability these species represent an adelphotaxon. Furthermore, the clades ( R. lessonae + R. shqiperica + R. bergeri ) and ( R. ridibunda + R. bedriagae ) are considered to be sister groups. According to the mt 12S rDNA data R. epeirotica seems to be more closely related to the supraspecific taxon ( R. ridibunda + R. bedriagae ) than to ( R. lessonae + R. shqiperica + R. bergeri ). Thus, it can be excluded that R. shqiperica and R. epeirotica represent sister species.     

The mitochondrial genome of the moss Physcomitrella patens sheds new light on mitochondrial evolution in land plants

The phylogenetic positions of bryophytes and charophytes, together with their genome features, are important for understanding early land plant evolution. Here we report the complete nucleotide sequence (105,340 bp) of the circular-mapping mitochondrial DNA of the moss Physcomitrella patens. Available evidence suggests that the multipartite structure of the mitochondrial genome in flowering plants does not occur in Physcomitrella. It contains genes for 3 rRNAs (rnl, rns, and rrn5), 24 tRNAs, and 42 conserved mitochondrial proteins (14 ribosomal proteins, 4 ccm proteins, 9 nicotinamide adenine dinucleotide dehydrogenase subunits, 5 ATPase subunits, 2 succinate dehydrogenase subunits, apocytochrome b, 3 cytochrome oxidase subunits, and 4 other proteins). We estimate that 5 tRNA genes are missing that might be encoded by the nuclear genome. The overall mitochondrial genome structure is similar in Physcomitrella, Chara vulgaris, Chaetosphaeridium globosum, and Marchantia polymorpha, with easily identifiable inversions and translocations. Significant synteny with angiosperm and chlorophyte mitochondrial genomes was not detected. Phylogenetic analysis of 18 conserved proteins suggests that the moss-liverwort clade is sister to angiosperms, which is consistent with a previous analysis of chloroplast genes but is not consistent with some analyses using mitochondrial sequences. In Physcomitrella, 27 introns are present within 16 genes. Nine of its intron positions are shared with angiosperms and 4 with Marchantia, which in turn shares only one intron position with angiosperms. The phylogenetic analysis as well as the syntenic structure suggest that the mitochondrial genomes of Physcomitrella and Marchantia retain prototype features among land plant mitochondrial genomes.     

眼镜王蛇线粒体基因组全序列分析

参照近缘物种线粒体基因序列共设计和合成了8对引物, 结合Ex Taq-PCR、TA克隆和步移测序技术, 文章首次获得眼镜王蛇线粒体基因组全序列(GenBank登录号: EU_921899)。该基因组全长17 267 bp, 共编码13个蛋白、2个rRNA、23个tRNA-- 其中tRNA-Ile基因发生了复制, 属于一种新的蛇类物种线粒体基因排列模式, 另外还含有2个非编码的富含AT的控制区。除了8个tRNA基因和1个蛋白基因由L链编码外, 其余均由H链编码, 其中H链编码基因的A和T含量接近, 而L链上A的含量则明显高于T。基于21种蛇合并的“12S＋16S”rRNA基因序列的系统发育分析表明, 眼镜王蛇属与眼镜蛇属亲缘关系较近, 两者与环蛇属共同构成一个单系群。作为国内外眼镜王蛇线粒体基因组全序列的首次报道, 上述结果对于蛇类物种分子系统发育和进化研究具有重要意义。     

A comparison of the Caulobacter NA1000 and K31 genomes reveals extensive genome rearrangements and differences in metabolic potential

The genus Caulobacter is found in a variety of habitats and is known for its ability to thrive in low-nutrient conditions. K31 is a novel Caulobacter isolate that has the ability to tolerate copper and chlorophenols, and can grow at 4°C with a doubling time of 40 h. K31 contains a 5.5 Mb chromosome that codes for more than 5500 proteins and two large plasmids (234 and 178 kb) that code for 438 additional proteins. A comparison of the K31 and the Caulobacter crescentus NA1000 genomes revealed extensive rearrangements of gene order, suggesting that the genomes had been randomly scrambled. However, a careful analysis revealed that the distance from the origin of replication was conserved for the majority of the genes and that many of the rearrangements involved inversions that included the origin of replication. On a finer scale, numerous small indels were observed. K31 proteins involved in essential functions shared 80–95% amino acid sequence identity with their C. crescentus homologues, while other homologue pairs tended to have lower levels of identity. In addition, the K31 chromosome contains more than 1600 genes with no homologue in NA1000.     

Characterization of the complete mitochondrial genome of Phodopus roborovskii (Rodentia: Cricetidae) and systematic implications for Cricetinae phylogenetics

Phodopus roborovskii (subfamily Cricetinae) is widely distributed in the northern arid regions of China. This study reports its complete mitochondrial genome (mitogenome) for the first time. The complete sequence was 16,273 bp long, including 13 protein-coding genes, 2 ribosomal RNAs, 22 transfer RNAs, and 1 major noncoding region. The base composition and codon usage were described. The putative origin of replication for the light strand (O_L) of P. roborovskii was approximately 45 bp long and was highly conserved in the stem-loop and adjacent sequences, but the starting sequence of replication varied between genera among Rodentia. We analyzed the three domains of the D-loop region, and the results indicated that the central domain had higher G + C content and lower A + T content than two peripheral domains. Phylogenetic analyses indicated high resolution in four main divergent clades using mitogenomes data within Cricetidae. Within Cricetinae clade, P. roborovskii was at basal position which was in line with previous researches, and it shared a common ancestor with other extant hamsters. This work validated previous molecular and karyotype researches using mitogenomes data, and provided a set of useful data on phylogeny and molecular evolution in Cricetidae species.     

Complete mitochondrial genome of the atlas moth, Attacus atlas (Lepidoptera: Saturniidae) and the phylogenetic relationship of Saturniidae species

Mitochondrial genome (mitogenome) can provide information for genomic structure as well as for phylogenetic analysis and evolutionary biology. In this study, we present the complete mitogenome of the atlas moth, Attacus atlas (Lepidoptera: Saturniidae), a well-known silk-producing and ornamental insect with the largest wing surface area of all moths. The mitogenome of A. atlas is a circular molecule of 15,282 bp long, and its nucleotide composition shows heavily biased towards As and Ts, accounting for 79.30%. This genome comprises 13 protein-coding genes (PCGs), two ribosomal RNA genes (rRNAs), 22 transfer RNA genes (tRNAs), and an A + T-rich region. It is of note that this genome exhibits a slightly positive AT skew, which is different from the other known Saturniidae species. All PCGs are initiated by ATN codons, except for COI with CGA instead. Only six PCGs use a common stop codon of TAA or TAG, whereas the remaining seven use an incomplete termination codon T or TA. All tRNAs have the typical clover-leaf structure, with an exception for tRNA^Ser(AGN). The A. atlas A + T-rich region contains non-repetitive sequences, but harbors several features common to the Bombycoidea insects. The phylogenetic relationships based on Maximum Likelihood method provide a well-supported outline of Saturniidae, which is in accordance with the traditional morphological classification and recent molecular works.