Vertebrate evolution reflected in the evolution of nuclear ribosomal internal transcribed spacer 2

In eukaryotes, mature rRNA sequences are produced from single large (45S) precursor (pre-rRNA) as the result of successive removal of spacers through a series of rapid and intricate actions of endo- and exonucleases. The excision of internal transcribed spacer (ITS2), a eukaryotic-specific insertion, remains the most elusive processing step. ITS2 is the element mandatory for all eukaryotic pre-rRNAs that contain at least three processing cleavage sites for precise 5.8S and 28S formation. Conserved core sequences (cis-elements) binding to trans-factors provide for precise rRNA processing, whereas rapidly diverging regions between the core sequences preserve internal complementarity, which guarantees the spatial integrity of ITS2. Characteristic differences in the formation of such insertions during evolution should reflect the relationships between taxa. The phylogeny of the reptiles and the relationships between taxa proposed by scientists are controversial. To delineate the structural and functional features preserved among reptilian ITS2s, we cloned and sequenced 58 ITS2s belonging to four reptile orders: Squamata, Crocodilians, Aves, and Testudines. We studied the subsequent alignment and folding of variable regions. The sizes and packing of the loop–stems between conserved consensus segments in reptiles vary considerably between taxa. Our phylogenetic trees constructed on the basis of the reptile ITS2s primary structural alignments revealed a split between Iguania clade and all other taxa. True lizards (suborder Scleroglossa) and snakes (suborder Serpentes) show sister relationships, as well as the two other reptilian orders, Crocodilia + Aves and Testudines. In summary, our phylogenetic trees exhibit a mix of specific features deduced or, to the contrary, rejected earlier by other authors.     

赤潮棕囊藻(Phaeocystis globosa)rDNA ITS区序列变异与二级结构分析

测定了南海球形棕囊藻香港株P1、P2和湛江株ZhJ1的rDNAITS区序列(含5.8srDNA),结合Gen Bank的13条同源序列,比对长度为904bp,变异位点271个,简约信息位点221个,平均(A+T)(34.5%)<(G+C)(65.4%).藻株P1、P2和ZhJ1序列存在变异位点20个,序列间相似性为97.9%～98.5%.ITS序列在种间和种内的解析度高于18srDNA和28srDNA基因;构建的NJ树、MP树、贝叶斯推断系统树的结构是一致的,不同种类的棕囊藻单独聚类,不同地理来源的球形棕囊藻混杂分布但相同地理来源的藻株多聚类在一起.RNA二级结构显示,不同藻种间5.8srDNA区结构基本一致,表现出属的特异性;ITS1、2区结构表现较大的种间差异,表明ITS区RNA二级结构可为棕囊藻分类鉴定提供有用的分子结构信息.     

Evolutionary divergence of ribosomal internal transcribed spacer 2 in lizards

Internal transcribed spacers 1 and 2 (ITS1 and ITS2) are known to play an important role in rRNA maturation, yet the mechanism of their action is still not completely understood. Comparison of the ITS1 and ITS2 nucleotide sequences for various organisms reveals conserved regions, which are potentially involved in rRNA biogenesis, and yields new information about the evolutionary divergence of the corresponding region of the genome. The rDNA fragments containing ITS2 were amplified, cloned, and sequenced for three lizard species: Darevskia armeniaca, Lacerta strigata (Lacertidae), and Agama caucasia (Agamidae). The lizard ITS2 sequences were compared with their counterparts from other organisms and proved to contain not only universally conserved elements characteristic of the consensus secondary structure of vertebrate ITS2, but also lizard-specific regions. Comparison of the ITS2 size and the distribution of homologous regions for the two lizard families made it possible to assume that evolution of the modern species involved duplication of ITS2 in the genome of their common ancestor.     

Molecular characterization and phylogenetic utility of the rDNA external transcribed spacer region in <Emphasis Type="Italic">Stylosanthes</Emphasis> (Fabaceae)

Supplementary Material The nucleotide sequence of the ribosomal external transcribed spacer (ETS) region of Stylosanthes mexicana was determined and used to evaluate its potential for examination of intra- and inter-specific relationships in Stylosanthes, as compared to the use of the internal transcribed spacer (ITS) region. The entire ETS region comprises 1,145 bp and is composed of a region of non-repetitive sequences consisting of three subregions with organizational and nucleotide-sequence conservation, and a triplicated segment of about 100 bp. A primer designed in the second conserved subregion allowed us to amplify and sequence directly the 3' part (423-431 bp) of the ETS from 22 genotypes of 12 representative Stylosanthes species that were previously used in phylogenetic analysis of the genus. The study revealed that the right-hand part of Stylosanthes ETS contains approximately twice as much variable and informative characters than the ITS. Moreover, pairwise sequence-divergence values are twice as high, on average, when compared to the ITS. The ITS and ETS datasets are consistent in phylogenetic reconstruction of Stylosanthes, and combined parsimony analysis resulted in a strict consensus tree that is better resolved and generally better supported than trees obtained from separate analysis of the spacer regions.     

Phylogenetic relationships among Myrceugenia, Blepharocalyx, and Luma (Myrtaceae) based on paired-sites models and the secondary structures of ITS and ETS sequences

To establish relationships among the genera Blepharocalyx, Luma, and Myrceugenia, the phylogeny of tribe Myrteae was reconstructed based on secondary structures of the sequences of ITS (ITS1-5.8S-ITS2) and ETS regions from 93 taxa belonging to 29 genera. The DNA sequences were aligned according to their secondary structure and analysed with Bayesian inference (BI) using base substitution models for RNA, which can differentiate between the regions consisting of base pairs (helices) and unpaired bases (loops). The best-fit models were RNA7C for ITS and RNA7B for ETS, which differ in how they predict double substitutions and symmetry of the frequency of base pairs. The phylogenetic hypothesis was compared with results obtained using classical 4-state models, the results of maximum parsimony, and using sequence alignment without considering the secondary structure. Analyses show low support along the backbone of the consensus trees, those using substitution models of paired sites showing more highly supported derived clades than substitution models of independent sites. All tests were consistent and differed in the positioning of certain groups, but they also showed that Blepharocalyx, Luma, and Myrceugenia arise from three independent lineages that are not closely related. The substitution model for RNA shows that Luma is a monophyletic group and sister to the other genera of Myrteae, except for Myrtus communis. Myrceugenia appears as a monophyletic group, except for M. fernandeziana, which is related to Blepharocalyx, a genus that appears to be biphyletic.     

APPLICABILITY OF ITS DATA IN ROCCELLACEAE (ARTHONIALES,EUASCOMYCETES) PHYLOGENY

Abstract: The ability of the internal transcribed spacers (ITS regions) of ribosomal DNA to resolve phylogenetic relationships within the euascomycetous order Arthoniales, focusing on the family Roccellaceae was investigated. The effect of alignment on phylogenetic hypotheses was evaluated. A data matrix from the ITS regions was constructed from 33 specimens representing 14 genera, including the outgroup Arthothelium spectabile. Six different alignments were analysed cladistically using parsimony jackknifing. Most groups in the six trees were congruent and well supported under the different alignment settings. In a conservative analysis, where only unambiguously alignable regions were included, the resolution was low. These results indicate that the ITS regions contain phylogenetic structure, and all information, including the variable regions, should be utilised. A data matrix from the SSU rDNA sequences was constructed for the same taxa. The SSU rDNA tree was less resolved than the ITS trees. There were only minor conflicts between the two sources of data and an incongruence test confirmed that the ITS and SSU rDNA data matrices were not significantly incongruent. The six differently aligned data matrices generated from the ITS regions were each combined with the SSU rDNA data. Simultaneous analysis of the combined data sets is the best approach as it uses all available evidence. As with the ITS trees, most groups in the combined trees were congruent and well supported. The SSU rDNA provided resolution within one clade, otherwise the ITS sequences provided most of the signal in the combined analysis, both at the basal nodes and at the tips of the tree. Molecular data clearly indicates that the fruticose/crustose habits have evolved multiple times even in comparatively small groups as in the family Roccellaceae and that the characters such as fruticose-crustose may be overemphasized in morphological analyses.     

Phylogenetic analysis and predicted secondary structures of the rDNA internal transcribed spacers of the powdery mildew fungi (Erysiphaceae)

The nucleotide sequences of the internal transcribed spacer (ITS) regions of the ribosomal DNA including the 5.8S rRNA gene and the 5′ end of the 28S rRNA gene have been determined for 19 species in 10 genera of the powdery mildew fungi in order to analyze their phylogenetic relationship. These fungi were divided into two large groups based on the nucleotide length of the ITS regions, and this grouping was in line with that based on the morphological characters of the anamorphic stage rather than the teleomorphic stage. Although the variable ITS sequences were often ambiguously aligned, conserved sites were also found. Thus, a neighbor-joining tree was constructed using the nucleotide sequence data of the conserved sites of the ITS regions, the 5.8S rRNA gene, and the 5′ end of the 28S rRNA gene. The phylogenetic tree displayed the presence of four groups in the powdery mildews, which were distinguished by their morphology and/or host ranges. In the ITS2 region, the presence of a common secondary structure having four hairpin domains was suggested, in spite of the highly variable nucleotide sequences of this region. The predicted secondary structure was supported by the compensatory mutations as well as compensatory conserved sequences and high G+C content in the predicted stem regions. Contribution No. 142 from the Laboratory of Plant Pathology, Mie University.     

ITS-2 secondary structures and phylogeny of Anopheles culicifacies species

Background: Second internal transcribed spacer (ITS2) has proven to contain useful biological information at higher taxonomic levels. Objectives: This study was carried out to unravel the biological information in the ITS2 region of An. culicifacies and the internal relationships between the five species of Anopheles culicifacies. Methodology: In achieving these objectives, twenty two ITS2 sequences (~370bp) of An. culicifacies species were retrieved from GenBank and secondary structures were generated. For the refinement of the primary structures, i.e. nucleotide sequence of ITS2 sequences, generated secondary structures were used. The improved ITS2 primary structures sequences were then aligned and used for the construction of phylogenetic trees. Results and discussions: ITS2 secondary structures of culicifacies closely resembled near universal eukaryotes secondary structure and had three helices, and the structures of helix II and distal region of helix III of ITS2 of An. culicifacies were strikingly similar to those regions of other organisms strengthening possible involvement of these regions in rRNA biogenesis. Phylogenetic analysis of improved ITS2 sequences revealed two main clades one representing sibling B, C and E and A and D in the other. Conclusions: Near sequence identity of ITS2 regions of the members in a particular clade indicate that this region is undergoing parallel evolution to perform clade specific RNA biogenesis. The divergence of certain isolates of An. culicifacies from main clades in phylogenetic analyses suggests the possible existence of camouflaged sub-species within the complex of culicifacies. Using the fixed nucleotide differences, we estimate that these two clades have diverged nearly 3.3 million years ago, while the sibling species in clade 2 are under less evolutionary pressure, which may have evolved much later than the members in clade 1.     

Phylogenetic relationships among Phytophthora species inferred from sequence analysis of mitochondrially encoded cytochrome oxidase I and II genes

The phylogenetic relationships of 51 isolates representing 27 species of Phytophthora were assessed by sequence alignment of 568 bp of the mitochondrially encoded cytochrome oxidase II gene. A total of 1299 bp of the cytochrome oxidase I gene also were examined for a subset of 13 species. The cox II gene trees constructed by a heuristic search, based on maximum parsimony for a bootstrap 50% majority-rule consensus tree, revealed 18 species grouping into seven clades and nine species unaffiliated with a specific clade. The phylogenetic relationships among species observed on cox II gene trees did not exhibit consistent similarities in groupings for morphology, pathogenicity, host range or temperature optima. The topology of cox I gene trees, constructed by a heuristic search based on maximum parsimony for a bootstrap 50% majority-rule consensus tree for 13 species of Phytophthora, revealed 10 species grouping into three clades and three species unaffiliated with a specific clade. The groupings in general agreed with what was observed in the cox II tree. Species relationships observed for the cox II gene tree were in agreement with those based on ITS regions, with several notable exceptions. Some of these differences were noted in species in which the same isolates were used for both ITS and cox II analysis, suggesting either a differential rate of evolutionary divergence for these two regions or incorrect assumptions about alignment of ITS sequences. Analysis of combined data sets of ITS and cox II sequences generated a tree that did not differ substantially from analysis of ITS data alone, however, the results of a partition homogeneity test suggest that combining data sets may not be valid.     

Phylogenetics of Anthyllis (Leguminosae: Papilionoideae: Loteae): Partial incongruence between nuclear and plastid markers, a long branch problem and implications for morphological evolution

Phylogenetic relationships in the genus Anthyllis (Leguminosae: Papilionoideae: Loteae) were investigated using data from the nuclear ribosomal internal transcribed spacer regions (ITS) and three plastid regions (psbA-trnH intergenic spacer, petB-petD region and rps16 intron). Bayesian and maximum parsimony (MP) analysis of a concatenated plastid dataset recovered well-resolved trees that are topologically similar, with many clades supported by unique indels. MP and Bayesian analyses of the ITS sequence data recovered trees that have several well-supported topological differences, both among analyses, and to trees inferred from the plastid data. The most substantial of these concerns A. vulneraria and A. lemanniana, whose placement in the parsimony analysis of the ITS data appears to be due to a strong long-branch effect. Analysis of the secondary structure of the ITS1 spacer showed a strong bias towards transitions in A. vulneraria and A. lemanniana, many of which were also characteristic of certain outgroup taxa. This may contribute to the conflicting placement of this clade in the MP tree for the ITS data. Additional conflicts between the plastid and ITS trees were more taxonomically focused. These differences may reflect the occurrence of reticulate evolution between closely related species, including a possible hybrid origin for A. hystrix. The patterns of incongruence between the plastid and the ITS data seem to correlate with taxon ranks. All of our phylogenetic analyses supported the monophyly of Anthyllis (incl. Hymenocarpos). Although they are often taxonomically associated with Anthyllis, the genera Dorycnopsis and Tripodion are shown here to be more closely related to other genera of Loteae. We infer up to six major clades in Anthyllis that are morphologically well-characterized, and which could be recognized as sections. Four of these agree with various morphology-based classifications, while the other two are novel. We reconstruct the evolution of several morphological characteristics found only in Anthyllis or tribe Loteae. Some of these characters support major clades, while others show evidence of homoplasy within Anthyllis.     

The phylogeny of Schistidium (Bryophyta, Grimmiaceae) based on primary and secondary structure study of nuclear rDNA internal transcribed spacers

The phylogeny of Schistidium (Bryophyta, Grimmiaceae) was studied on the basis of nucleotide sequences of internal transcribed spacers ITS1-2 of nuclear DNA and trnT-trnD region of chloroplast DNA. The consistency of phylogenetic trees constructed from nuclear and chloroplast sequences was shown. A basal grade and two large clades were resolved on the phylogenetic trees. Morphological characteristics specific for these clades were described. ITS1 and ITS2 secondary structures of Schistidium species were modeled using thermodynamic criteria. Four different structures of the longest ITS1 hairpin were identified. Possible paths of Schistidium evolution were considered based on the four types of ITS1 secondary structure and phylogenetic trees.     

Secondary Structure Analyses of the Nuclear rRNA Internal Transcribed Spacers and Assessment of Its Phylogenetic Utility across the Brassicaceae (Mustards)

The internal transcribed spacers of the nuclear ribosomal RNA gene cluster, termed ITS1 and ITS2, are the most frequently used nuclear markers for phylogenetic analyses across many eukaryotic groups including most plant families. The reasons for the popularity of these markers include: 1.) Ease of amplification due to high copy number of the gene clusters, 2.) Available cost-effective methods and highly conserved primers, 3.) Rapidly evolving markers (i.e. variable between closely related species), and 4.) The assumption (and/or treatment) that these sequences are non-functional, neutrally evolving phylogenetic markers. Here, our analyses of ITS1 and ITS2 for 50 species suggest that both sequences are instead under selective constraints to preserve proper secondary structure, likely to maintain complete self-splicing functions, and thus are not neutrally-evolving phylogenetic markers. Our results indicate the majority of sequence sites are co-evolving with other positions to form proper secondary structure, which has implications for phylogenetic inference. We also found that the lowest energy state and total number of possible alternate secondary structures are highly significantly different between ITS regions and random sequences with an identical overall length and Guanine-Cytosine (GC) content. Lastly, we review recent evidence highlighting some additional problematic issues with using these regions as the sole markers for phylogenetic studies, and thus strongly recommend additional markers and cost-effective approaches for future studies to estimate phylogenetic relationships.     

应用ITS区序列对秋海棠属无翅组分类学问题的探讨

以侧膜组（Sect.Coeloecentrum)的Begonia cirrosa和单裂组（Sect.Reichenheimia)的B.henryi为外类群,对秋海棠属（Begonia L.)无翅组（Sect.Sphenanthera)9种2变种及秋海棠组（Sect.Begonia)4种进行了ITS区（包括5.8s rDNA)序列的测定。发现该属的ITS序列较一般类群要长一些,所测的序列长度变化范围为648－743bp。这些序列经Clustal X软件排序后序列总长为756个位点,gap做缺失处理时,变异位点和信息位点分别占26.41%和10.11%。运用PAUP4.0b8软件分析,获得6棵最大简约树,步长为286,一致性指数（CI）和维持性指数（RI）分别为0.8287和0.7841,利用6棵最简约树获取严格一致树,并作Bootstrap检测。结果表明：1.支持将原无翅组内子房3室的种类移入秋海棠组,而将子房4室的种保留,成立四室组（Sect.Sphenanthera);2.将B.tetragona作为B.acetosella的异名处理得到一定的支持;3.B.crassirostris的系统位置有待进一步的研究。     

Intragenomic variation in the ITS rDNA region obscures phylogenetic relationships and inflates estimates of operational taxonomic units in genus Laetiporus

Regions of rDNA are commonly used to infer phylogenetic relationships among fungal species and as DNA barcodes for identification. These regions occur in large tandem arrays, and concerted evolution is believed to reduce intragenomic variation among copies within these arrays, although some variation still might exist. Phylogenetic studies typically use consensus sequencing, which effectively conceals most intragenomic variation, but cloned sequences containing intragenomic variation are becoming prevalent in DNA databases. To understand effects of using cloned rDNA sequences in phylogenetic analyses we amplified and cloned the ITS region from pure cultures of six Laetiporus species and one Wolfiporia species (Basidiomycota, Polyporales). An average of 66 clones were selected randomly and sequenced from 21 cultures, producing a total of 1399 interpretable sequences. Significant variation (≥ 5% variation in sequence similarity) was observed among ITS copies within six cultures from three species clades (L. cincinnatus, L. sp. clade J, and Wolfiporia dilatohypha) and phylogenetic analyses with the cloned sequences produced different trees relative to analyses with consensus sequences. Cloned sequences from L. cincinnatus fell into more than one species clade and numerous cloned L. cincinnatus sequences fell into entirely new clades, which if analyzed on their own most likely would be recognized as "undescribed" or "novel" taxa. The use of a 95% cut off for defining operational taxonomic units (OTUs) produced seven Laetiporus OTUs with consensus ITS sequences and 20 OTUs with cloned ITS sequences. The use of cloned rDNA sequences might be problematic in fungal phylogenetic analyses, as well as in fungal bar-coding initiatives and efforts to detect fungal pathogens in environmental samples.     

The ITS region of groundwater amphipods: length,secondary structure and phylogenetic information content in Crangonyctoids and Niphargids

The phylogenetic analysis of groundwater amphipods is challenging due to the lack of suitable morphological characters. However, molecular phylogenies based on the 18S and 28S nuclear genes of two Crangonyctoidea species endemic to Iceland, Crymostygius thingvallensis and Crangonyx islandicus, support the taxonomy of these species on the basis of morphological characters. Molecular analyses suggest that the genus Crangonyx is paraphyletic, with the species that is found in Eurasia being highly divergent genetically from the species present in North America and Iceland. Studies of the phylogenetic relationships within the genus Niphargus also warrant further work. The nuclear ITS2 region has recently been proposed as a barcoding marker for plants and animals. In addition, ITS2 has been used to build phylogenies at high taxonomic levels by including its secondary structure. In this study, we want to evaluate the applicability of the ITS region for this group of species and describe its characteristics. The taxonomy of C. thingvallensis, as well as the paraphyly of the genus Crangonyx, is supported herein by phylogenies based on the ITS2 variation. The secondary structure and the length of the ITS2 sequences of the Crangonyctoidea and the Niphargidae species studied are highly variable and are characterized by duplications. The ITS2 sequence of Niphargus plateaui is the longest metazoan sequence deposited in the ITS2 database so far. Although saturation was observed in the nucleotide variation of this marker, the addition of the secondary structure information for the reconstruction of the phylogeny did not add support to the phylogenetic trees. The ITS1 region, which is known to be more variable than ITS2 and bears a large duplication within C. islandicus, was found to be less useful for phylogenetic reconstruction.     

Low evolutionary diversification in a widespread and abundant uncultured protist (MAST-4)

Recent culture-independent studies of marine planktonic protists have unveiled a large diversity at all phylogenetic scales and the existence of novel groups. MAST-4 represents one of these novel uncultured lineages, and it is composed of small (~2 μm) bacterivorous eukaryotes that are widely distributed in marine systems. MAST-4 accounts for a significant fraction of the marine heterotrophic flagellates at the global level, playing key roles in the marine ecological network. In this study, we investigated the diversity of MAST-4, aiming to assess its limits and structure. Using ribosomal DNA (rDNA) sequences obtained in this study (both pyrosequencing reads and clones with large rDNA operon coverage), complemented with GenBank sequences, we show that MAST-4 is composed of only five main clades, which are well supported by small subunit and large subunit phylogenies. The differences in the conserved regions of the internal transcribed spacers 1 and 2 (ITS1 and ITS2) secondary structures strongly suggest that these five clades are different biological species. Based on intraclade divergence, ITS secondary structures and comparisons of ITS1 and ITS2 trees, we did not find evidence of more than one species within clade A, whereas as many as three species might be present within other clades. Overall, the genetic divergence of MAST-4 was surprisingly low for an organism with a global population size estimated to be around 10(24), indicating a very low evolutionary diversification within the group.     

Molecular phylogenetics in 2D: ITS2 rRNA evolution and sequence-structure barcode from Veneridae to Bivalvia

In this study, we analyzed the nuclear ITS2 rRNA primary sequence and secondary structure in Veneridae and comparatively with 20 Bivalvia taxa to test the phylogenetic resolution of this marker and its suitability for molecular diagnosis at different taxonomic levels. Maximum likelihood and Bayesian trees based on primary sequences were congruent with (profile-) neighbor-joining trees based on a combined model of sequence-structure evolution. ITS2 showed higher resolution below the subfamily level, providing a phylogenetic signal comparable to (mitochondrial/nuclear) gene fragments 2-5 times longer. Structural elements of the ITS2 folding, such as specific mismatch pairing and compensatory base changes, provided further support for the monophyly of some groups and for their phylogenetic relationships. Veneridae ITS2 folding is structured in six domains (DI-VI) and shows five striking sequence-structure features. Two of them, the Basal and Apical STEMs, are common to Bivalvia, while the presence of both the Branched STEM and the Y/R stretches occurs in five superfamilies of the two Heterodonta orders Myoida and Veneroida, thus questioning their reciprocal monophyly. Our results validated the ITS2 as a suitable marker for venerids phylogenetics and taxonomy, and underlined the significance of including secondary structure information for both applications at several systematic levels within bivalves.     

根据DNA的序列资料探讨翅子树族的系统位置

采用DNA分子测序技术对梧桐科5个族30个代表种的rbcL基因及核糖体DNA的内转录间隔区ITS序列(包括ITS1、ITS2和5．8srRNA基因)进行了序列分析。使用PAUP4．0b10软件对序列进行统计和分支分析。用启发式搜索方法寻找最简约树。从严格一致性树来看,梧桐科的全部代表类群主要被分为4支,一支仅为Sterculieae所构成;一支包括Helictereae的全部代表种;一支由Byttnerieae代表种所构成;最后一支由Dombeyeae和单属族翅子树族Pterospermeae所构成。rbcL和ITS系统树的不同仅表现在族内个别代表类群的位置和族的分支方式上。分析结果表明,与Helictereae相比,翅子树属,Pterospermum与Dombeyeae有更近的亲缘关系。然而,在外部形态、内部解剖和胚胎学方面,二者之间又存在诸多差异．故支持将Pterospermum另立为Ptcrospermeae的观点。