Preliminary phylogenetic analysis of plastid-encoded genes from an anomalously pigmented dinoflagellate Gymnodinium mikimotoi (Gymnodiniales, Dinophyta)

We cloned and sequenced three plastid-encoded genes, psbA (encoding D1 protein), psaA (encoding P700 chlorophyll a apoprotein) and the small-subunit ribo-somal RNA (pl-SSU rRNA) from an anomalously pigmented dinoflagellate, Gymnodinium mikimotoi Miyake et Kominami ex Oda, with a plastid containing 19′-hexanoyloxyfucoxanthin, 19′-butanoyloxyfucoxanthin and fucoxanthin instead of peridinin as the major carot-enoids. Molecular phylogenetic trees based on the deduced amino acid sequences of D1 and P700 chlorophyll a apoprotein and nucleotide sequence of pl-SSU rRNA were then constructed separately. In the D1 tree, G. mikimotoi and typically pigmented dinofl age Nates harboring a peridinin type plastid were monophyletic and G. mikimotoi was positioned most basally within the dinoflagellate lineage. The dinoflagellate lineage was the sister group of heterokonts and the dinoflagellates/heterokonts lineage was clustered with the rhodophytes/cryptophyte lineage. In the P700 chlorophyll a apoprotein phylogenetic tree, G. mikimotoi was clustered with a rhodo-phyte, a cryptophyte and a heterokont. In the pl-SSU rRNA tree, G. mikimotoi and haptophytes constituted a monophyletic group associated with rhodophytes and heterokonts. These results, derived from the three phylogenetic analyses, support the hypothesis that the plastid of G. mikimotoi belongs to the rhodoplast lineage. Although we have previously demonstrated that D1 from peridinin type dinofl age Nates lacks a ‘C-terminus extension’ (which should be removed by proteolytic cleavage from the D1 precursor), the D1 from G. mikimotoi revealed a C-terminus extension that is different from those of other photosynthetic organisms with respect to the length of the amino acid residues.     

New Aspects on Lanosterol 14α-Demethylase and Cytochrome P450 Evolution: Lanosterol/Cycloartenol Diversification and Lateral Transfer

Sterol 14-demethylase (CYP51) is a member of the cytochrome P450 superfamily, widely found in animals, fungi, and plants but present in few prokaryotic groups. CYP51 is currently believed to be the ancestral cytochrome P450 that has been transferred from prokaryotes to eukaryotic kingdoms. We propose an alternate view of CYP51 evolution that has an impact on understanding the evolution of the entire CYP superfamily. Two hundred forty-nine bacterial and four archaeal CYP sequences have been aligned and a bacterial CYP tree designed, showing a separation of two branches. Prokaryotic CYP51s cluster to the minor branch, together with other eukaryote-like CYPs. Mycobacterial and methylococcal CYP51s cluster together (100% bootstrap probability), while Streptomyces CYP51 remains on a distant branch. A CYP51 phylogenetic tree has been constructed from 44 sequences resulting in a ((plant, bacteria),(animal, fungi)) topology (100% bootstrap probability). This is in accordance with the lanosterol/cycloartenol diversification of sterol biosynthesis. The lanosterol branch (nonphotosynthetic lineage) follows the previously proposed topology of animal and fungal orthologues (100% bootstrap probability), while plant and D. discoideum CYP51s belong to the cycloartenol branch (photosynthetic lineage), all in accordance with biochemical data. Bacterial CYP51s cluster within the cycloartenol branch (69% bootstrap probability), which is indicative of a lateral gene transfer of a plant CYP51 to the methylococcal/mycobacterial progenitor, suggesting further that bacterial CYP51s are not the oldest CYP genes. Lateral gene transfer is likely far more important than hitherto thought in the development of the diversified CYP superfamily. Consequently, bacterial CYPs may represent a mixture of genes with prokaryotic and eukaryotic origin.     

Pichia nongkratonensis sp. nov., a new species of ascomycetous yeast isolated from insect frass collected in Thailand

A yeast strain isolated from insect frass collected in Thailand was found to represent a new species of the genus Pichia. It is described as Pichia nongkratonensis sp. nov. In the phylogenetic tree based on the D1/D2 domain sequences of 26S rDNA, this yeast constitutes a cluster with Pichia dryadoides with high bootstrap confidence level; however, it differs from the latter species by 5.6% base substitutions. Pichia nongkaratonensis resembles P. dryadoides also in the phenotypic characteristics but is distinguished from this species by the assimilation of several carbon and nitrogen compounds.     

Genetic diversity in <Emphasis Type="Italic">Rhizopus oryzae</Emphasis> strains as revealed by the sequence of lactate dehydrogenase genes

Twenty-seven strains of Rhizopus oryzae accumulating predominantly lactic acid were shown to possess two ldh genes, ldhA and ldhB, encoding NAD-dependent lactate dehydrogenases. Variation in nucleotide sequence was identified for each gene from different strains, and similar phylogenetic trees were obtained based on the nucleotide sequences of both genes. The other 21 strains of R. oryzae accumulating predominantly fumaric and malic acids contained a single ORF of ldhB. Compared to the strains accumulating predominantly lactic acid, a lower degree of sequence divergence was found in ldhB, resulting in a separate cluster in the phylogenetic tree. The high similarity (>90%) spanning the ORF and adjacent regions demonstrates that ldhA and ldhB are derived from the same ancestor gene. The strains accumulating predominantly fumaric and malic acids lack functional ldhA, which plays a role in lactic acid synthesis and may form a lineage separated from the strains accumulating predominantly lactic acid in the genus Rhizopus.     

Rapid Adaptive Evolution of the Tumor Suppressor Gene Pten in an Insect Lineage

The Pten gene was initially identified in humans as a tumor suppressor. It has since been shown to play important roles in the control of cell size, cell motility, apoptosis, and organ size, and it has also been implicated in aging. Pten is highly conserved among organisms as diverse as nematodes, insects, and vertebrates. In contrast, a phylogenetic analysis by maximum likelihood of a 133-amino acid region showed an average nonsynonymous-to-synonymous rate ratio of 10.4 for Pten in the lineage leading to parasitoid wasps of the Nasonia genus, indicating very strong positive selection. A previous study identified Pten as a potential QTL candidate gene for differences in male wing size in Nasonia. Most of the amino acid replacements that occurred in the Nasonia lineage cluster in a small region of the protein surface, suggesting that they might be involved in an interaction between Pten and another protein. The phenotypic changes due to Pten are not yet known, although it is not associated with known differences in male wing size. Introgression of Pten from one species to another does affect longevity, but a causal relationship is not established. [Reviewing Editor: Dr. Willie J. Swanson]     

Evolution of aromatic biosynthesis and fine-tuned phylogenetic positioning of Azomonas,Azotobacter and rRNA group I pseudomonads

The evolutionary history of biochemical pathways can be determined in microbial groupings for which phylogenetic trees have been established. This has been demonstrated best in Superfamily B, an assemblage of rRNA homology groups containing lineages that lead to genera such as Escherichia and other enteric microbes, Pseudomonas (Group I), Xanthomonas, Oceanospirillum, and Acinetobacter. The rRNA homology group that defines Group I pseudomonads also includes Azomonas and Azotobacter, but particular dendrogram points of evolutionary divergence for these genera within Superfamily B have not been established. Phylogenetic relationships at such intergeneric levels can be deduced by analysis of aromaticpathway enzyme arrangement and regulation in selected groupings where dynamic evolutionary changes have occurred. A case in point is illustrated by Axomonas insignis, Azotobacter paspali, and Azotobacter vinelandii — a grouping that appears to be homogeneous with respect to the evolutionary state of the aromatic pathway. The conclusion that this phylogenetic cluster diverges from an ancestor common to pseudomonad subgroup Ia (rather than to subgroup Ib) is based upon the absence of chorismate mutase-F and arogenate dehydratase, enzymes making up a twostep pathway of phenylalanine biosynthesis that is absent in subgroup Ia, but present in subgroup Ib. Of further interest, Azomonas insignis and Azotobacter sp. were found to comprise a distinctive and recently evolved sublineage, differing from subgroup Ia species in their loss of a regulatory isozyme of 3-deoxy-d-arabino-heptulosonate 7-phosphate synthase (ADHP synthase-trp) that is subject to feedback inhibition by l-tryptophan. DAHP synthase-trp is an ancient character state of Superfamily B that has been retained during the evolutionary history of most members of this Superfamily.Abbreviation DAHP 3-Deoxy-d-arabino-heptulosonate 7-phosphate     

Extensive length variation in the cpDNA trnT-trnF region of hemiparasitic Pedicularis and its phylogenetic implications

The cpDNA trnT-trnF region, a molecular marker widely used in the phylogenetic reconstruction at lower taxonomic levels, is relatively conserved in size and structure. In this region single length variation over 100 bp is much less common than small deletion for congeneric species of angiosperms. Here we examined evolutionary patterns of the trnT-trnF region in 43 species of Pedicularis, a species-rich genus with adaptive radiation. Four independent large deletions, varying from 203 to 297 bp in length, were detected from nine species of the genus, which might result from slipped-strand mispairing. These deletions occurred in different locations of the cpDNA region and in different clades of the phylogenetic tree, indicating that the deletion of large cpDNA fragments may be very frequent in the hemiparasitic lineage of the family Orobanchaceae. Parsimony analyses showed that section Cyathophora of Pedicularis, endemic to the Sino-Himalayan region, was a strongly supported monophyletic group. This section could have a recent origin followed by rapid radiation, considering that it is characterized by a large deletion in the trnT-trnF region and a relatively low interspecific sequence divergence.     

牛源多杀性巴氏杆菌的分离与初步鉴定

【目的】本研究旨在对引起犊牛呼吸道综合征的多杀性巴氏杆菌进行分离鉴定,分析其亲缘关系和毒力基因的分布情况。【方法】收集2017年8月至2018年4月疑似患有犊牛呼吸道综合征的病牛鼻拭子进行细菌分离培养,对菌落形态和染色疑似巴氏杆菌的菌株进行16S rRNA测序和血清型鉴定,选择巴氏杆菌7类23种毒力基因,筛查临床分离株的毒力基因的分布。【结果】从8个省份的237份病料中分离出31株多杀性巴氏杆菌,分离率为13.1%。16S rRNA测序分析表明31株A型多杀性巴氏杆菌属于同一亚群,其序列同源性与中国分离株HB01以及国外分离株USDA-ARS-USMARC-60712、USDA-ARS-USMARC-60214、ATCC 43137以及36950亲缘关系较近。对分离出的31株A型多杀性巴氏杆菌的7类共23种毒力基因鉴定,结果显示31株多杀性巴氏杆菌所携带的毒力因子大多分布在17–19个,且集中度较高。【结论】A型多杀性巴氏杆菌为犊牛呼吸道综合症的主要流行血清型,通过对多杀性巴氏杆菌的临床分离株进化树和毒力基因分析,内蒙古、黑龙江、新疆、山西以及河北的7株分离株进化来源于同一分支,且均缺失毒力基因tadD和hgbA及携带毒力基因hsf-1,提示着其亲缘关系可能与其携带的特定毒力基因存在一定相关性。该研究为犊牛呼吸道综合征的病原学调查和多杀性巴氏杆菌流行病学调查提供了参考数据。     

The “Phoca standard”: An external molecular reference for calibrating recent evolutionary divergences

Comparison of the complete mitochondrial DNA (mtDNA) of the high-Arctic ringed seal (Phoca hispida) and the sub-Arctic harbour (P. vitulina) and grey (Halichoerus grypus) seals shows that they are genetically equidistant from one another. We relate the evolutionary divergence of the three species to expanding glaciation in the Arctic Basin and establish, in conjunction with mtDNA data, a standard reference for calibration of recent divergence events among mammalian taxa. In the present study, we apply the “Phoca standard” to the dating of divergences within the hominid phylogenetic tree. After determining the relative rates of substitution over all mitochondrial protein-coding genes in the different evolutionary lineages, we estimate that humans and chimpanzees diverged from each other 6.1 Mya (95% confidence limits: 5.2–6.9 Mya). The corresponding lower-limit divergence between common chimpanzee,Pan troglodytes, and pygmy chimpanzee,P. paniscus, occurred 3 (2.4–3.6) Mya, and the primary split within theP. troglodytes complex 1.6 (1.3–2.0) Mya. The analyses suggest that the split betweenGorilla andPan/Homo occurred 8.4 (7.3–9.4) Mya. They also suggest thatPongo (orangutan) and the lineage leading to gorillas, chimpanzees, and humans diverged 18.1 (16.5–19.6) Mya. The present analysis is independent of the hominid paleontological record and inferential morphological interpretations and thus is a novel approach to the lower-limit dating of recent divergences. Correspondence to: U. Arnason     

Phylogenetic Relationships Among Mycoplasmas Based on the Whole Genomic Information

With the rapid increase in available bacterial whole-genome information, comparison of bacteria at the whole-genome level has proven to be highly useful in microbial phylogenetic research. Here we constructed a phylogenetic tree based on 15 whole genomes of Mycoplasma and the related bacteria. First, 143 orthologous gene families that are shared by all of the 15 bacteria were selected and 143 multiple alignments were generated. Next, a concatenated multiple alignment inferred from the 143 multiple alignments was generated. A total of 43,370 amino acid sites were considered in the neighbor-joining analysis. The phylogenetic tree based on the whole-genomic information indicated that the 15 bacteria were divided into four major groups with 100% bootstrap support, i.e., the M. hyopneumoniae (Mhy) group, the M. mycoides (Mmy) group, the M. pneumoniae (Mpn) group, and the Bacillus-Phytoplasma (BP) group. In the phylogenetic tree, the Mhy group was more closely related to the Mpn group than the Mmy group. The relationships among the Mhy, Mmy, Mpn, and BP groups were supported with 100% in bootstrap analysis. The phylogenetic tree based on the whole-genome comparison is different from the 16S rRNA tree. Thirty-nine of the 143 phylogenetic trees had the same type of the topology based on the whole-genome comparison. However, we could not identify a gene family contributing or solely belonging to the topology of the 39 proteins. In this study, we showed that some proteins, such as RpoA, RpoB, RpoC, and RpoD, are not suitable for evolutionary studies on relationships among major groups of mycoplasmas. We also showed that glycolysis-related genes of Ureaplasma have a higher substitution rate than the other bacteria. The phylogenetic approaches at the whole-genome level are very important and will be essential for microbial evolutionary studies. Electronic supplementary material The online version of this article (doi: ) contains supplementary material, which is available to authorized users. Reviewing Editor: Dr. John Oakeshott     

Genetic Diversity in Pseudomonads Associated with Cereal Cultures Infected with Basal Bacteriosis

The genetic properties of 45 pseudomonad strains isolated from cereal cultures exhibiting symptoms of basal bacteriosis have been investigated. Considerable genetic diversity has been demonstrated using DNA fingerprints obtained by amplification with REP, ERIC, and BOX primers. Restriction analysis of the 16S–23S internal transcribed spacer (ITS1) allowed the strains to be subdivided into two major groups. In a phylogenetic tree, the ITS1s of these groups fell into two clusters, which also included the ITS1 of Pseudomonas syringae (“Syringae” cluster) and the ITS1 of P. fluorescens, P. tolaasii, P. reactans, P. gingeri, and P. agarici (“Fluorescens” cluster) from the GenBank database. Comparison of the ITS1 divergence levels within the “Fluorescens” cluster suggests expediency of treating P. tolaasii, P. reactans, various P. fluorescens groups, and, possibly, P. gingeri and P. agarici as subspecies of one genospecies. The intragenomic heterogeneity of ITS1s was observed in some of the pseudomonad strains studied. The results of amplification with specific primers and subsequent sequencing of the amplificate suggest the possibility of the presence of a functionally active syrB gene involved in syringomycin biosynthesis in the strains studied.__________Translated from Mikrobiologiya, Vol. 74, No. 4, 2005, pp. 537–544.Original Russian Text Copyright © 2005 by Bobrova, Milyutina, Troitskii.     

Trichosporon siamense sp. nov. isolated from insect frass in Thailand

A strain of yeast isolated from insect frass collected in Thailand was found to represent a hitherto undescribed species of a basidiomycetous anamorphic genus Trichosporon. It is described as Trichosporon siamense. In the phylogenetic tree based on the D1/D2 region sequences of 26S rDNA, this yeast constitutes a cluster with several Q-9 having species of Trichosporon including T. otae and T. brassicae but is clearly differentiated from these species by 1.8% or more base substitutions. In the internal transcribed spacer region (ITS1 and ITS2), this species differs from T. scarabaeorum, the nearest species, by 6.5% base substitution.     

Amino acid sequence of myoglobin from the chitonLiolophura japonica and a phylogenetic tree for molluscan globins

Myoglobin was isolated from the radular muscle of the chitonLiolophura japonica, a primitive archigastropodic mollusc.Liolophura contains three monomeric myoglobins (I, II, and III), and the complete amino acid sequence of myoglobin I has been determined. It is composed of 145 amino acid residues, and the molecular mass was calculated to be 16,070 D. The E7 distal histidine, which is replaced by valine or glutamine in several molluscan globins, is conserved inLiolophura myoglobin. The autoxidation rate at physiological conditions indicated thatLiolophura oxymyoglobin is fairly stable when compared with other molluscan myoglobins. The amino acid sequence ofLiolophura myoglobin shows low homology (11–21%) with molluscan dimeric myoglobins and hemoglobins, but shows higher homology (26–29%) with monomeric myoglobins from the gastropodic molluscsAplysia, Dolabella, andBursatella. A phylogenetic tree was constructed from 19 molluscan globin sequences. The tree separated them into two distinct clusters, a cluster for muscle myoglobins and a cluster for erythrocyte or gill hemoglobins. The myoglobin cluster is divided further into two subclusters, corresponding to monomeric and dimeric myoglobins, respectively.Liolophura myoglobin was placed on the branch of monomeric myoglobin lineage, showing that it diverged earlier from other monomeric myoglobins. The hemoglobin cluster is also divided into two subclusters. One cluster contains homodimeric, heterodimeric, tetrameric, and didomain chains of erythrocyte hemoglobins of the blood clamsAnadara, Scapharca, andBarbatia. Of special interest is the other subcluster. It consists of three hemoglobin chains derived from the bacterial symbiont-harboring clamsCalyptogena andLucina, in which hemoglobins are supposed to play an important role in maintaining the symbiosis with sulfide bacteria.     

Analysis of the Cluster of Ribosomal Protein Genes in the Plastid Genome of a Unicellular Red Alga Cyanidioschyzon merolae: Translocation of the str Cluster as an Early Event in the Rhodophyte-Chromophyte Lineage of Plastid Evolution

The nucleotide sequence of a cluster of ribosomal protein genes in the plastid genome of a unicellular red alga, Cyanidioschyzon merolae, which has been supposed to be the most primitive alga, was determined. The phylogenetic tree inferred from the amino acid sequence of ribosomal proteins of two rhodophytes, a chromophyte, a glaucophyte, two chlorophytes (land plants), a cyanobacterium, and three eubacteria suggested a close relationship between the cyanobacterium Synechocystis PCC6803 and the plastids of various species in the kingdom Plantae, which is consistent with the hypothesis of the endosymbiotic origin of plastids. In this tree, the two species of rhodophytes were grouped with the chromophyte, and the glaucophyte was grouped with the chlorophytes. Analysis of the organization of the genes encoding the ribosomal proteins suggested that the translocation of the str cluster occurred early in the lineage of rhodophytes and chromophytes after these groups had been separated from chlorophytes and glaucophytes. Received: 2 June 1997 / Accepted: 15 July 1997     

Molecular phylogeny and divergence time of the water penny genus Eubrianax (Coleoptera: Psephenidae) in Japan

The phylogenetic relationships among the Japanese members of the genus Eubrianax (Coleoptera: Psephenidae) were examined using the mitochondrial cytochrome oxidase subunit I (COI) gene and nuclear 28S rRNA gene sequences. Based on the molecular phylogeny as well as morphological features, the species status of Eubrianax brunneicornis Nakane, 1952 was proposed. The phylogenetic analyses recovered monophyly of the previously proposed pellucidus species group with four Japanese species, whereas a single Japanese species of the granicollis group was included in the lineage of the ramicornis group with five Japanese species. The divergence times of the species were estimated by dating the phylogenetic tree against the fossil record and a molecular clock based on the COI gene. The divergence of the Japanese species was inferred to have occurred during the Pliocene epoch.     

Grouping of phenol hydroxylase and catechol 2,3-dioxygenase genes among phenol- and p-cresol-degrading Pseudomonas species and biotypes

Phenol- and p-cresol-degrading pseudomonads isolated from phenol-polluted water were analysed by the sequences of a large subunit of multicomponent phenol hydroxylase (LmPH) and catechol 2,3-dioxygenase (C23O), as well as according to the structure of the plasmid-borne pheBA operon encoding catechol 1,2-dioxygenase and single component phenol hydoxylase. Comparison of the carA gene sequences (encodes the small subunit of carbamoylphosphate synthase) between the strains showed species- and biotype-specific phylogenetic grouping. LmPHs and C23Os clustered similarly in P. fluorescens biotype B, whereas in P. mendocina strains strong genetic heterogeneity became evident. P. fluorescens strains from biotypes C and F were shown to possess the pheBA operon, which was also detected in the majority of P. putida biotype B strains which use the ortho pathway for phenol degradation. Six strains forming a separate LmPH cluster were described as the first pseudomonads possessing the Mop type LmPHs. Two strains of this cluster possessed the genes for both single and multicomponent PHs, and two had genetic rearrangements in the pheBA operon leading to the deletion of the pheA gene. Our data suggest that few central routes for the degradation of phenolic compounds may emerge in bacteria as a result of the combination of genetically diverse catabolic genes.     

The phylogeny and biogeography of Gentiana L. sect. Ciminalis (Adans.) Dumort.: A historical interpretation of distribution ranges in the European high mountains

Gentiana sect. Ciminalis consists of seven mostly ecologically or geographically vicariant and closely related species which are distributed throughout the South and Central European high mountains. The analysis of a RAPD data set and trn L-intron and ITS sequences resulted in slightly different phylogenetic hypotheses. In the preferred hypothesis the group consists of two completely resolved main lineages: 1) G. clusii and G. alpina. 2) G. dinarica, G. acaulis, G. ligustica, G. angustifolia and G. occidentalis. The most important conclusions we have drawn from this phylogenetic hypothesis and from the observed patterns of molecular variation are: 1) The calcifuge ecology of G. acaulis and G. alpina evolved independently from calcicole ancestors. 2) Among the calcicole taxa speciation proceeded from East to West in a simple vicariant pattern. 3) The application of a provisional molecular clock indicates that speciation events in sect. Ciminalis probably occurred in the Quaternary. 4) Differences in infraspecific genetic variation among the widespread species suggest that G. alpina probably experienced more recent dispersal or gene flow than G. clusii and G. acaulis. 5) The large number of mutations in the lineage leading to G. angustifolia, compared to the few mutations in the lineage leading to G. dinarica, may be a result of their different population histories. While the extant range of G. angustifolia was strongly affected by Quaternary climatic fluctuations, that of G. dinarica has had a more stable climatic history. 6) The low number of mutations and the basal position in one clade of the preferred cladogram leads to the conclusion that G. dinarica is the species most similar to the last common ancestor of sect. Ciminalis.     

Population structure,colonization processes and barriers for dispersal in Polish common hamsters (Cricetus cricetus)

The phylogeographic relationships of common hamster (Cricetus cricetus) populations in Poland were determined by the analysis of three partial mtDNA sequences: control region, cytochrome b and 16S rRNA. A phylogenetic tree as well as parsimony network, consistently separate Polish common hamsters into two groups: E1 being so far specific for the area of Poland, and P3 which clusters inside a Pannonian lineage, previously described from the Carpathian Basin. Polish hamsters do not share any haplotypes with the ‘North’– lineage from Germany and Western Europe, although Poland most likely represents the main migration corridor from the eastern distribution centre to the western boundary of the species range. Fossil and DNA data indicate a very recent appearance of the E1 lineage in the Polish Uplands, probably at the very end of the last glaciation. On the other hand, the Pannonian group entered southern Poland as early as the second stadial of the last glaciation (Middle Vistulian 53.35 ka). The hamster lineages in Poland seem to show different population structures and demographic histories.     

Identifying evolutionarily significant units for conservation of the endangered Malus sieversii using genome‐wide RADseq data

Malus sieversii, a wild progenitor of the domesticated apple, is an endangered species and is assigned second conservation priority by the China Plant Red Data Book. It is urgent to carry out in situ conservation of this species, but previous studies have not identified evolutionarily significant units (ESUs) for conservation management. In this study, we investigated the genetic diversity and relationships of six M. sieversii populations from China using integrated analysis of microsatellite (nSSR) data, genome‐wide SNPs and previous results in order to propose a reasonable conservation management. The results showed that levels of genetic diversity were inconsistently reflected by our nSSR and previous studies, suggesting that indices of genetic diversity are not effective to identify priority conservation areas for M. sieversii. Based on the selection criteria of ESUs for endangered species conservation, ESUs should reflect lineage divergence, geographical separation and different adaptive variation. Our phylogenetic tree based on genome‐wide SNPs yielded a clear relationship of divergent lineages among M. sieversii populations, leading to new different from those of previous studies. Three independent lineages, including the pairs of populations Huocheng‐Yining, Gongliu‐Xinyuan and Tuoli‐Emin, were identified. The geographic distances between populations among the different phylogenetic lineages were much greater than those within the same phylogenetic lineage. A cluster analysis on environmental variables showed that the three independent lineages inhabit different environmental conditions, suggesting that they may have adapted to different environments. Based on the results, we propose that three independent ESUs should be recognized as conservation units for M. sieversii in China.     

Comparative genomics of chondrichthyan Hoxa clusters

Background  

The chondrichthyan or cartilaginous fish (chimeras, sharks, skates and rays) occupy an important phylogenetic position as the sister group to all other jawed vertebrates and as an early lineage to diverge from the vertebrate lineage following two whole genome duplication events in vertebrate evolution. There have been few comparative genomic analyses incorporating data from chondrichthyan fish and none comparing genomic information from within the group. We have sequenced the complete Hoxa cluster of the Little Skate (Leucoraja erinacea) and compared to the published Hoxa cluster of the Horn Shark (Heterodontus francisci) and to available data from the Elephant Shark (Callorhinchus milii) genome project.