Two mitogenomes in Gruiformes (<Emphasis Type="Italic">Amaurornis akool</Emphasis>/<Emphasis Type="Italic">A. phoenicurus</Emphasis>) and the phylogenetic placement of Rallidae

Rallidae, with 34 genera including 142 species, is the largest family in the Gruiformes, the phylogenetic placement of this family was still in debate. The complete mitochondrial genomes (mitogenomes), with many advantageous characters, have become popular markers in phylogenetic analyses. We sequenced the mitogenomes of brown crake (Amaurornis akool) and white-breasted waterhen (Amaurornis phoenicurus), analyzed the genomic characters of mitogenomes in Rallidae, and explored the phylogenetic relationships between Rallidae and other four families in Gruiformes based on mitogenome sequences of 32 species with Bayesian method. The mitogenome of A. akool/A. phoenicurus was 16,950/17,213 bp in length, and contained 37 genes typical to avian mitogenomes and one control region, respectively. The genomic characters of mitogenomes in Rallidae were similar. The phylogenetic results indicated that, among five families, Rallidae had closest relationship with Heliornithidae, which formed a sister taxa to Gruidae, while Rhynochetidae located in the basal lineage. Within Rallidae, Rallina was ancestral clade. Gallirallus & Rallus and Aramides were closely related, Gallicrex & Amaurornis and Fulica & Gallinula had close relationships, and these two taxa formed a sister clade to Porphyrio & Coturnicops. Our phylogenetic analyses provided solid evidence for the phylogenetic placement of Rallidae and the evolutionary relationships among different genus within this family. In addition, the mitogenome data presented here provide useful information for further molecular systematic investigations on Gruiformes as well as conservation biology research of these species.     

Retrotransposon distribution and copy number variation in gymnosperm genomes

Retrotransposable elements (REs) and related sequences form a large proportion of conifer genomes. During genome evolution, some RE sequences are degraded or eliminated, but some are evolutionarily stable, and can be identified even in distantly related species. Use of genome sequence information from loblolly pine (Pinus taeda) enables investigation of divergent non-coding RE sequences in other pine and conifer species, including Scots pine (Pinus sylvestris). Non-specific inter-retrotransposon amplified polymorphism technique (IRAP) as well as the amplification polymorphism of 12 RE families were investigated in 80 gymnosperm species. The obtained results were compared with phylogenetic relationships among gymnosperms. Investigation of distantly related gymnosperm species reveals persistent RE sequences, such as IFG and Pineywoods, distributed among a wide range of plant lineages. RE sequence divergence was observed, reflecting periods of inactivity and degradation during speciation of pine lineages, as demonstrated by the delineation of the main pine subgenera. Intraspecific variation of 10 RE copy numbers (CN) between Scots pine individuals ranged from 8.9 to 26.6% of the overall mean estimates. CN analyses were performed in 16 additional gymnosperm species. The analysed pine species contained a similar complement of RE families; however, CN and genome occupation proportions differ. A decrease in RE CN estimates can reflect sequence divergence, associated with independent transposition events. Transposition of some REs can be induced by stress conditions; therefore, even distantly related species inhabiting extreme environments could have similar patterns or distribution of these elements.     

Genome characteristics of the proteorhodopsin-containing marine flavobacterium <Emphasis Type="Italic">Polaribacter dokdonensis</Emphasis> DSW-5

Bacteria in the genus Polaribacter, belonging to the family Flavobacteriaceae, are typically isolated from marine environments. Polaribacter dokdonensis DSW-5, the type strain of the species, is a Gram-negative bacterium isolated from the East Sea of Korea. Whole genome shotgun sequencing was performed with the HiSeq 2000 platform and paired-end reads were generated at 188-fold coverage. The sequencing reads were assembled into two contigs with a total length of 3.08 Mb. The genome sequences of DSW-5 contain 2,776 proteincoding sequences and 41 RNA genes. Comparison of average nucleotide identities among six available Polaribacteria genomes including DSW-5 suggested that the DSW-5 genome is most similar to that of Polaribacter sp. MED152, which is a proteorhodopsin-containing marine bacterium. A phylogenomic analysis of the six Polaribacter strains and 245 Flavobacteriaceae bacteria confirmed a close relationship of the genus Polaribacter with Tenacibaculum and Kordia. DSW-5’s genome has a gene encoding proteorhodopsin and genes encoding 85 enzymes belonging to carbohydrate-active enzyme families and involved in polysaccharide degradation, which may play important roles in energy metabolism of the bacterium in the marine ecosystem. With genes for 238 CAZymes and 203 peptidases, DSW-5 has a relatively high number of degrading enzymes for its genome size suggesting its characteristics as a free-living marine heterotroph.     

ERIC sequences: a novel family of repetitive elements in the genomes of Escherichia coli, Salmonella typhimurium and other enterobacteria

We describe a family of highly conserved, Enterobacterial Repetitive Intergenic Consensus (ERIC) sequences, 14 of which have been identified in Escherichia coli and Salmonella typhimurium and a further three in other enterobacterial species (Yersinia pseudotuberculosis, Klebsiella pneumoniae and Vibrio cholerae). ERIC sequences are 126 bp long and appear to be restricted to transcribed regions of the genome, either in intergenic regions of polycistronic operons or in untranslated regions upstream or downstream of open reading frames. ERIC sequences are highly conserved at the nucleotide sequence level but their chromosomal locations differ between species. Several features of ERIC sequences resemble those of REP sequences (Stern et al., 1984) although the nucleotide sequence is entirely different. The question of whether ERICs have a specific function, or represent a form of 'selfish' DNA, is discussed.     

Phylogenetic relationships in the genus <Emphasis Type="Italic">Primula</Emphasis> L. (Primulaceae) inferred from the ITS region sequences of nuclear rDNA

The nucleotide sequences of the nuclear rDNA ITS regions were determined for 34 species of the genus Primula L. and one species of the genus Cortusa L., family Primulaceae Vent., and used to infer the phylogenetic relationships among these species. In this analysis species of the Russian flora and the flora of adjacent territories were studied for the first time. The results clarified the taxomic structure of the genus Primula and confirmed the entity of some of its sections; but not the subgenera sensu J.Richards. Our data do not support an independent status of the genus Cortusa, placing it as one of the terminal lineages of the section Cortusoides Balf. f. in the genus Primula.     

First reported chloroplast genome sequence of <Emphasis Type="Italic">Punica granatum</Emphasis> (cultivar Helow) from Jabal Al-Akhdar,Oman: phylogenetic comparative assortment with <Emphasis Type="Italic">Lagerstroemia</Emphasis>

Pomegranate (Punica granatum L.) is one of the oldest known edible fruits. It has grown in popularity and is a profitable fruit crop due to its attractive features including a bright red appearance and its biological activities. Scientific exploration of the genetics and evolution of these beneficial traits has been hampered by limited genomic information. In this study, we sequenced the complete chloroplast (cp) genome of the native P. granatum (cultivar Helow) cultivated in the mountains of Jabal Al-Akhdar, Oman. The results revealed a P. granatum cp genome length of 158,630 bp, characterized by a relatively conserved structure containing 2 inverted repeat regions of 25,466 bp, an 18,686 bp small single copy regions, and an 89,015 bp large single copy region. The 86 protein-coding genes included 37 transfer RNA genes and 8 ribosomal RNA genes. Comparison of the P. granatum whole cp genome with seven Lagerstroemia species revealed an overall high degree of sequence similarity with divergence among intergenic spacers. The location, distribution, and divergence of repeat sequences and shared genes of the Punica and Lagerstroemia species were highly similar. Analyses of nucleotide substitution, insertion/deletions, and highly variable regions in these cp genomes identified potential plastid markers for taxonomic and phylogenetic studies in Myrtales. A phylogenetic study of the cp genomes and 76 shared coding regions generated similar cladograms. The complete cp genome of P. granatum will aid in taxonomical studies of the family Lythraceae.     

Genes encoding hevein-like antimicrobial peptides WAMPs in the species of the genus <Emphasis Type="Italic">Aegilops</Emphasis> L.

Earlier, in the wheat Triticum kiharae Dorof. et Migusch., a new family of genes coding for the hevein-like antimicrobial peptides WAMPs, involved in the protection of wheat plants against pathogens, was discovered. In the present study, we examined the wamp homologs in plants belonging to ten di-, tetra-, and hexaploid species of the genus Aegilops L., among which there are donors of polyploid wheat genomes, as well as of the resistance genes to the most important wheat pathogens. Using PCR amplification with genomic DNA as a template and primers specific to the sequences of the wheat wamp genes, for the first time, nucleotide sequences of the protein-coding regions of wamp homologs were determined in the species of the genus Aegilops L. The wamp homologs were found in all species studied. It was demonstrated that the WAMP peptide precursors encoded by them differed in single nucleotide substitutions, as well as deletions/insertions of amino acid sequences. The most conserved region of the precursor is the mature peptide region, where, in addition to the variable position 34, deletions of amino acid sequences were found in a number of peptides. To elucidate the role of deletions in the antimicrobial activity of WAMPs, a recombinant WAMP-3 peptide with a deletion in the N-terminal region was produced by expression in E. coli cells, and it was shown that antimicrobial activity of the peptide was preserved. It was demonstrated that all the discovered wamp genes were expressed in seedlings of the studied Aegilops species. The results shed new light on the structural diversity of genes encoding the hevein-like antimicrobial peptides WAMPs.     

Retrotransposons in <Emphasis Type="Italic">Betula nana</Emphasis>, and interspecific relationships in the Betuloideae,based on inter-retrotransposon amplified polymorphism (IRAP) markers

The Betulaceae family comprises two subfamilies, Betuloideae and Corylaceae. The subfamily Betuloideae contains two genera, Alnus Mill. and Betula L. Twenty putative long terminal repeat (LTR) retrotransposons were mined from 171 scaffolds containing 5,208,995 bp of dwarf birch (Betula nana) genome sequences. Five retrotransposons were finally selected after filtering the retrotransposon canonical features and nucleotide similarities between left and right LTR sequences. Of the five retroelements, three elements were found to be Ty1/Copia retrotransposons; identity of the other two elements could not be ascertained due to sequence undetermined ‘N’ bases in the sequence database. Inter-retrotranposon amplified polymorphism (IRAP) analysis, based on the LTR sequences of the mined LTR-retrotransposons, produced 179 discernible IRAP bands among the Alnus and Betula genera. Sequence analysis revealed no size homoplasy among the homologous IRAP bands. Phylogenetic and principle coordinate analysis, based on the band sharing among the taxa, showed the species in two different genera were clearly separated. The subgenera in each genus of Alnus and Betula were also distinguishable from the IRAP profiles. In the genus Betula, the species in subgenus Betula showed mixed clustering between species. This is incongruent with the phylogeographical distribution of the species.     

Contribution to the phylogeny and a new species of <Emphasis Type="Italic">Coccodiella</Emphasis> (Phyllachorales)

Coccodiella is a genus of plant-parasitic species in the family Phyllachoraceae (Phyllachorales, Ascomycota), i.e., tropical tar spot fungi. Members of the genus Coccodiella are tropical in distribution and are host-specific, growing on plant species belonging to nine host plant families. Most of the known species occur on various genera and species of the Melastomataceae in tropical America. In this study, we describe the new species C. calatheae from Panama, growing on Calathea crotalifera (Marantaceae). We obtained ITS, nrLSU, and nrSSU sequence data from this new species and from other freshly collected specimens of five species of Coccodiella on members of Melastomataceae from Ecuador and Panama. Phylogenetic analyses allowed us to confirm the placement of Coccodiella within Phyllachoraceae, as well as the monophyly of the genus. The phylogeny of representative species within the family Phyllachoraceae, including Coccodiella spp., graminicolous species of Phyllachora and taxa with erumpent to superficial stroma from several host families, suggests that the genus Phyllachora might be polyphyletic. Furthermore, tar spot fungi with superficial or erumpent perithecia seem to be restricted to the family Phyllachoraceae, independently of the host plant. We also discuss the biodiversity and host-plant patterns of species of Coccodiella worldwide.     

Enterobacterial repetitive intergenic consensus (ERIC) sequences in Escherichia coli: Evolution and implications for ERIC-PCR

Enterobacterial repetitive intergenic consensus (ERIC) sequences are 127-bp imperfect palindromes that occur in multiple copies in the genomes of enteric bacteria and vibrios. Here we investigate the distribution of these elements in the complete genome sequences of nine Escherichia coli (including Shigella species) strains. There is a significant tendency for copies to be adjacent to more highly expressed genes. There is considerable variation among strains with respect to the presence of an element in any particular intergenic region, but some copies appear to have been conserved since before the divergence of E. coli and Salmonella enterica. In comparisons of orthologous copies between these species, ERIC sequences are surprisingly conserved, implying that they have acquired some function, perhaps related to mRNA stability. The relationships among copies within E. coli are consistent with a master copy mode of generation. Insertion of new copies seems to occur at, and involve duplication of, the dinucleotide TA. Two classes of inserts of about 70 bp each occur at different specific sites within ERIC sequences; these inserts evolve independently of the ERIC sequences. The small number of ERIC sequences in E. coli genomes indicates that a widely used bacterial fingerprinting method using primers based on ERIC sequences (ERIC-PCR) does not rely on the presence of ERIC sequences.     

Comparative genomic analysis of the <Emphasis Type="Italic">Lipase3</Emphasis> gene family in five plant species reveals distinct evolutionary origins

Lipases are physiologically important and ubiquitous enzymes that share a conserved domain and are classified into eight different families based on their amino acid sequences and fundamental biological properties. The Lipase3 family of lipases was reported to possess a canonical fold typical of α/β hydrolases and a typical catalytic triad, suggesting a distinct evolutionary origin for this family. Genes in the Lipase3 family do not have the same functions, but maintain the conserved Lipase3 domain. There have been extensive studies of Lipase3 structures and functions, but little is known about their evolutionary histories. In this study, all lipases within five plant species were identified, and their phylogenetic relationships and genetic properties were analyzed and used to group them into distinct evolutionary families. Each identified lipase family contained at least one dicot and monocot Lipase3 protein, indicating that the gene family was established before the split of dicots and monocots. Similar intron/exon numbers and predicted protein sequence lengths were found within individual groups. Twenty-four tandem Lipase3 gene duplications were identified, implying that the distinctive function of Lipase3 genes appears to be a consequence of translocation and neofunctionalization after gene duplication. The functional genes EDS1, PAD4, and SAG101 that are reportedly involved in pathogen response were all located in the same group. The nucleotide diversity (Dxy) and the ratio of nonsynonymous to synonymous nucleotide substitutions rates (Ka/Ks) of the three genes were significantly greater than the average across the genomes. We further observed evidence for selection maintaining diversity on three genes in the Toll-Interleukin-1 receptor type of nucleotide binding/leucine-rich repeat immune receptor (TIR-NBS LRR) immunity-response signaling pathway, indicating that they could be vulnerable to pathogen effectors.     

LTR retrotransposons in the <Emphasis Type="Italic">Aspergillus fumigatus</Emphasis> and <Emphasis Type="Italic">A. nidulans</Emphasis> genomes

Fungi of the genus Aspergillus can infect all tissues and organs, causing invasive mycosis (aspergillosis). This disease can be fatal, especially in immunocompromised patients. Microbiological monitoring of these infectious agents is obligatory in modern medical facilities. Mobile elements can be used as markers to identify the Aspergillus species and strains found indoors as well as to diagnose aspergillosis. Genomic sequences of two Aspergillus species, A. fumigatus and A. nidulans, were analyzed in silico in order to detect LTR retrotransposons. These species were found to considerably differ in the composition of retrotransposon families. One of the families, present in both Aspergillus species, was phylogenetically quite different from all known fungal retrotransposons. The majority of its elements were damaged copies. Nevertheless, allegedly undamaged LTR retrotransposon copies were described that contained intact ORFs and might be active.     

Origin and evolution of Mytilus mussel satellite DNAs.

A phylogenetic reconstruction based on the amplification of 3 satellite DNAs (stDNAs) was carried out in 1 crustacean species and 15 bivalve species of the subclass Pteriomorphia (10, subfamily Mytilinae; 1, subfamily Litophaginae; 1, subfamily Modiolinae, all belonging to family Mytilidae; 1, family Arcidae; and 2, family Pectinidae). The sequences obtained showed motifs with high similarity to those of A and B boxes of tRNA promoter regions. Dot-blot hybridizations revealed that the 3 stDNAs are present mainly in high copy numbers for each species of the genus Mytilus, whereas for the other species they appear in low copy numbers. Maximum-parsimony trees evidenced a tendency to group Mytilus clones together, and species containing these sequences as a single copy were distributed among the different mytilids. Finally, the possible origin and evolution of these stDNAs is discussed.     

Distribution of <Emphasis Type="Italic">Divo</Emphasis> in <Emphasis Type="Italic">Coffea</Emphasis> genomes,a poorly described family of angiosperm LTR-Retrotransposons

Coffea arabica (the Arabica coffee) is an allotetraploid species originating from a recent hybridization between two diploid species: C. canephora and C. eugenioides. Transposable elements can drive structural and functional variation during the process of hybridization and allopolyploid formation in plants. To learn more about the evolution of the C. arabica genome, we characterized and studied a new Copia LTR-Retrotransposon (LTR-RT) family in diploid and allotetraploid Coffea genomes called Divo. It is a complete and relatively compact LTR-RT element (~5 kb), carrying typical Gag and Pol Copia type domains. Reverse Trancriptase (RT) domain-based phylogeny demonstrated that Divo is a new and well-supported family in the Bianca lineage, but strictly restricted to dicotyledonous species. In C. canephora, Divo is expressed and showed a genomic distribution along gene rich and gene poor regions. The copy number, the molecular estimation of insertion time and the analysis at orthologous locations of insertions in diploid and allotetraploid coffee genomes suggest that Divo underwent a different and recent transposition activity in C. arabica and C. canephora when compared to C. eugenioides. The analysis of this novel LTR-RT family represents an important step toward uncovering the genome structure and evolution of C. arabica allotetraploid genome.     

The complete chloroplast genome sequence of <Emphasis Type="Italic">Dodonaea viscosa</Emphasis>: comparative and phylogenetic analyses

The plant chloroplast (cp) genome is a highly conserved structure which is beneficial for evolution and systematic research. Currently, numerous complete cp genome sequences have been reported due to high throughput sequencing technology. However, there is no complete chloroplast genome of genus Dodonaea that has been reported before. To better understand the molecular basis of Dodonaea viscosa chloroplast, we used Illumina sequencing technology to sequence its complete genome. The whole length of the cp genome is 159,375 base pairs (bp), with a pair of inverted repeats (IRs) of 27,099 bp separated by a large single copy (LSC) 87,204 bp, and small single copy (SSC) 17,972 bp. The annotation analysis revealed a total of 115 unique genes of which 81 were protein coding, 30 tRNA, and four ribosomal RNA genes. Comparative genome analysis with other closely related Sapindaceae members showed conserved gene order in the inverted and single copy regions. Phylogenetic analysis clustered D. viscosa with other species of Sapindaceae with strong bootstrap support. Finally, a total of 249 SSRs were detected. Moreover, a comparison of the synonymous (Ks) and nonsynonymous (Ka) substitution rates in D. viscosa showed very low values. The availability of cp genome reported here provides a valuable genetic resource for comprehensive further studies in genetic variation, taxonomy and phylogenetic evolution of Sapindaceae family. In addition, SSR markers detected will be used in further phylogeographic and population structure studies of the species in this genus.     

Genetic and phenotypic characterizations of <Emphasis Type="Italic">Xenorhabdus</Emphasis> species (Enterobacteriales: Enterobacteriaceae) isolated from steinernematid nematodes (Rhabditida: Steinernematidae) in Japan

The bacterial species of the genus Xenorhabdus in the family Enterobacteriaceae have a mutualistic association with steinernematid entomopathogenic nematodes (EPNs), which have been used as biological control agents against soil insect pests. In this study we present the genetic and phenotypic characterizations of the Xenorhabdus species isolated from steinernematid nematodes in Japan. The 18 Japanese Xenorhabdus isolates were classified into five bacterial species based on 16S ribosomal RNA (16S rRNA) gene sequences: Xenorhabdus bovienii, Xenorhabdus hominickii, Xenorhabdus indica, Xenorhabdus ishibashii, and Xenorhabdus japonica. There was no genetic variation between the 16S RNA sequences among the three X. ishibashii isolates, 0–0.1% variation among the five X. hominickii isolates, and 0–0.5% among the eight X. bovienii isolates. Phenotypic characterization demonstrated that representative isolates of the five bacterial species shared common characteristics of the genus Xenorhabdus, and only X. hominickii isolates produced indole. Symbiotic association and co-speciation of Xenorhabdus bacteria with Steinernema nematodes from Japan are discussed.     

Phylogeny and Molecular Evolution of miR820 and miR396 microRNA Families in <Emphasis Type="Italic">Oryza</Emphasis> AA Genomes

The phylogeny and evolution of the microRNA families, miR820 and miR396, was analysed across the AA genomes of the Oryza species, the close relatives of domesticated rice. A highly dynamic evolution of the miR820 family was revealed. The number of copies of MIR820 genes, their chromosomal location and the mature microRNA sequence varied greatly with a total of 16 novel miR820 variants being identified. The phylogeny of pre-MIR820 sequences revealed that MIR820 genes of recently evolved Oryza AA genomes may have derived from sequence divergence of one or a few ancestral genes found in wild Australian perennial rice populations, Taxon B (jpn2)-MIR820 genes. Genomic scale duplication played an important role in the evolution of some of the miR396 family genes in AA genome Oryza species. miR396 family contained a MIR396 gene cluster (MIR396a and MIR396c) which was conserved across the cereal genomes. Nucleotide diversity analysis at these two MIR396 loci revealed that domesticated rice has retained less than 10% of the total diversity present in wild species. In contrast, the nucleotide sequence of four MIR396 loci remained almost conserved across domesticated and wild rices, indicating that they were under extreme functional constraint and may be involved in regulating some fundamental processes which are important both for wild and domesticated rices. Expression analysis demonstrated that miR820 variants were expressed in O. glaberrima O. barthi and O. longistaminata genome. These findings pose new challenges to explain the possible role of miR820 variants identified.     

Molecular phylogeny of the marine <Emphasis Type="Italic">Prasiola</Emphasis> and <Emphasis Type="Italic">Rosenvingiella</Emphasis> species (Chlorophyta: Prasiolales) from southeastern Kamchatka

Molecular phylogenetic tools are often useful in distinguishing cryptic species with similar morphologies, but they can also be helpful in identifying morphotypes of a species, which displays completely different shapes. We performed molecular-phylogenetic analysis of supra-tidal green algae in the Kamchatka peninsula that belong to the order Prasiolales (Trebouxiophyceae, Chlorophyta). Based on rbcL sequences results, two new species were recorded for the first time in Kamchatka. Approximately 1.4% of the field-collected Rosenvingiella constricta had a unique uniseriate hood-like blade shape, although their rbcL sequences were 100% identical with typical multiseriate filamentous plants. Kamchatka’s population of R. constricta showed 99.4–99.6% identity in rbcL sequences with the populations from Canada and New Zealand. Another similar-looking Rosenvingiella species collected from the same locality had 93.5% identity of the rbcL gene sequence with R. constricta. Morphological and geographical analyses also suggested that this species might be a new species of the genus Rosenvingiella. Prasiola delicata was recorded for the first time in Kamchatka. The Kamchatka population of P. delicata showed 100% identity in rbcL gene sequence with the population from Vancouver, but differed from the Canadian population morphologically.