我国赫坎按蚊复合体成员种的rDNA-ITS2区序列差异及系统发育分析

测定了我国赫坎按蚊复合体 9成员种的核糖体DNA第二内转录间隔区 (rDNA ITS2 )序列 ,根据序列差异分析各蚊种间的系统发育关系。结果显示 :( 1 )ITS2区序列最长的是中华按蚊 ( 4 6 8bp) ,最短的是克劳按蚊和赫坎按蚊 ( 4 36bp) ;GC含量为 4 4 9%～ 4 6 8% ;( 2 )发现该复合体 4成员种的ITS2区序列存在种内个体间差异 ,幅度为 0～ 3 8% ,明显小于种间差异 ;( 3)将各蚊种的ITS2区序列进行同源排序比较 ,发现其变异大多是简单重复单元的拷贝数不同 ;种间差异性最大的是克劳按蚊与嗜人按蚊( 32 3% ) ,最小的是贵阳按蚊与凉山按蚊 ( 9 0 % )平均差异率为 2 2 3% ;( 4 )根据ITS2区序列特征 ,用 3种方法构建的树状图拟合一致。以上结果表明赫坎按蚊复合体各成员种rDNA ITS2序列在种内非常保守 ,以种间序列差异分析为基础的分子鉴别技术是甄别蚊种分类地位混淆和错误的有效方法。     

Comparative sequence analysis of the internal transcribed spacer 1 of Ochrobactrum species

The internal 16S/23S rDNA (rrs/rrl) internal spacer region 1 (ITS1) of 54 Ochrobactrum strains and close relatives was analysed. Separation of ITS1 containing PCR products by gel-electrophoresis, DGGE, cloning and sequencing revealed ITS1 length and sequence heterogeneity. We found up to 5 different allelic ITS1 stretches within a single strain (Ochrobactrum intermedium LMG 3301T), and 2-3 different ITS1 alleles in O. tritici. Within ITS1, ITS1c, being part of the conserved double-stranded rrn processing stem dsPS1, produced the most reliable segment tree. The overall ITS1, ITS1c and rrs phylogenetic tree topologies were generally consistent, but there was evidence for horizontal rrn (segment) transfer in O. tritici LMG 2134 (formerly O. anthropi). Good correlations were found between ITS1, ITS1c and rrs sequence similarity and DNA-DNA hybridization values indicating that phylogenetic analysis of ITS1 and ITS1c both can be used to preliminarily deduce the phylogenetic affiliation if HGT was excluded. Strains sharing > 96.19% ITS1c (> 95.11% ITS1) similarity fell within a species, and < or = 68.42% ITS1c (< or = 70.33% ITS1) similarity outside a genus. Both ITS1 and ITS1c analysis resolved microdiversity more profoundly than rrs analysis and revealed clades (genomovars) within O. anthropi that were also produced in rep cluster analysis. There was no evidence for habitat-specific ITS1 genomovars within Ochrobactrum species. Diversity of Ochrobactrum was higher in soil than at the rhizoplane below and at the species level. Isolates from soil contained only 1 rrn type whereas isolates from human clinical, animal and rhizoplane specimens could contain more.     

Clustering of fungal community internal transcribed spacer sequence data obscures taxonomic diversity

Next‐generation DNA sequencing has enabled a rapid expansion in the size of molecular fungal ecology studies employing the nuclear internal transcribed spacer (ITS) region. Many sequence‐processing pipelines and protocols require sequence clustering to generate operational taxonomic units (OTUs) based on sequence similarity as a step to reduce total data quantity and complexity prior to taxonomic assignment. However, the consequences of ITS sequence clustering in regard to sample taxonomic coverage have not been carefully examined. Here we demonstrate that typically used clustering thresholds for fungal ITS sequences result in statistically significant losses in taxonomic coverage. Analyses using environmentally derived fungal sequences indicated an average of 3.1% of species went undetected (P < 0.05) if the sequences were denoised and clustered at a 97% threshold prior to taxonomic assignment. Additionally, an in silico analysis using a reference fungal ITS database suggested that approximately 25% of species went undetected if the sequences were clustered prior to taxonomic assignment. Finally, analysis of sequences derived from pure‐cultured fungal isolates of known identity indicated sequence denoising and clustering were not critical in improving identification accuracy.     

The internal transcribed spacer of nuclear ribosomal DNA in the gymnosperm Gnetum

We analyze the structure of the internal transcribed spacers ITS1 and ITS2 of the nuclear ribosomal DNA in the gymnosperm Gnetum, using a phylogenetic framework derived mainly from an intron in the nuclear low-copy LEAFY gene. Gnetum comprises 25-35 species in South America, Africa, and Asia, of which we sampled 16, each with two to six clones. Criteria used to assess ITS functionality were highly divergent nucleotide substitution, GC content, secondary structure, and incongruent phylogenetic placement of presumed paralogs. The length of ITS1 ranged from 225 to 986 bp and that of ITS2 from 259 to 305 bp, the largest ranges so far reported from seed plants. Gnetum ITS1 contains two informative sequence motifs, but different from other gymnosperms, there are only few and short (7-13 bp) tandem repeats. Gnetum ITS2 contains two structural motifs, modified in different clades by shortening of stems and loops. Conspecific sequences grouped together except for two recombinant pseudogenes that had ITS1 of one clade and ITS2 of another. Most of the pseudogenic ITS copies, paralogs, and putative chimeras occurred in a clade that according to a fossil-calibrated chloroplast-DNA clock has an age of a few million years. Based on morphology and chromosome numbers, the most plausible causes of the observed high levels of ITS polymorphism are hybridization, allopolyploidy, and introgression.     

Neurospora crassa ribosomal DNA: sequence of internal transcribed spacer and comparison with N. intermedia and N. sitophila

Using [32P]DNA probes from a clone containing 17S, 5.8S and 26S rRNA of Neurospora crassa, the remainder of the repeat unit (RU) for ribosomal DNA (rDNA) has been cloned. Combining restriction analysis of the cloned DNA and restriction digests of genomic DNA, the RU was found to be 8.7 kb. The nucleotide sequence was determined for the internal transcribed spacer (ITS) regions one and two, for 5.8S rRNA and for portions of 17S and 26S rRNAs immediately flanking the ITS regions, and compared to the corresponding region of Saccharomyces carlsbergensis. In addition, a comparative restriction analysis of two other Neurospora species was performed using twelve restriction endonucleases. Genomic DNA blots of rDNA from N. intermedia and N. sitophila revealed rDNA RUs of 8.4 kb. The majority of differences in restriction patterns were confined to sequences outside the mature rRNA regions. However, one SmaI recognition site was found in 26S rRNA of N. crassa and N. sitophila but not in N. intermedia.     

Molecular prospecting for cryptic species of nematodes: mitochondrial DNA versus internal transcribed spacer

DNA sequence divergence at internal transcribed spacer regions (ITS-1 and ITS-2) was compared with divergence at mitochondrial cox1 or nad4 loci in pairs of congeneric nematode species. Mitochondrial sequences accumulate substitutions much more quickly than internal transcribed spacer, the difference being most striking in the most closely related species pairs. Thus, mitochondrial DNA may be the best choice for applications in which one is using sequence data on small numbers of individuals to search for potential cryptic species. On the other hand, internal transcribed spacer remains an excellent tool for DNA diagnostics (quickly distinguishing between known species) owing to its lower level of intraspecific polymorphism.     

Nuclear ribosomal DNA internal transcribed spacer 1 (ITS1) in Picea (Pinaceae): sequence divergence and structure

The nrDNA ITS1 of Picea is 2747-3271 bp, the longest known of all plants. We obtained 24 cloned ITS1 sequences from six individuals of Picea glehnii, Picea mariana, Picea orientalis, and Picea rubens. Mean sequence divergence within these individuals (0.018+/-0.009) is more than half that between the species (0.031+/-0.011) and may be maintained against concerted evolution by separation of Picea 18S-26S rDNA repeats on multiple chromosomes. Picea ITS1 contains three subrepeats with a motif (5'-GGCCACCCTAGTC) that is conserved across Pinaceae. Two subrepeats are tandem, remote from the third, and more closely related and significantly more similar to one another than either is to the third subrepeat. This correlation between similarity and proximity may be the result of subrepeat duplication or concerted evolution within rDNA repeats. In inferred secondary structures, subrepeats generally form long hairpins, with a portion of the Pinaceae conserved motif in the terminal loop, and tandem subrepeats pair with one another over most of their length. Coalescence of ITS1 sequences occurs in P. orientalis but not in the other species.     

Identification of four scallop species using PCR and restriction analysis of the ribosomal DNA internal transcribed spacer region

Polymerase chain reaction (PCR) and restriction fragment length polymorphism (RFLP) analysis of the ribosomal DNA region spanning the 5.8S RNA gene and the 2 flanking internal transcribed spacers (ITSs) was performed to establish DNA-based molecular markers for the identification of the scallops Aequipecten opercularis, Chlamys distorta, Mimachlamys varia, and Pecten maximus. Chlamys distorta was distinguished simply by ITS size. Species-specific restriction patterns were found with the restriction enzyme AluI, and also with SmaI for A. opercularis and M. varia. When ITS sizes and the RFLPs obtained with SmaI were combined, the 4 scallops were also differentiated. Additional species-specific RFLPs were revealed after ITS-2 PCR amplification and subsequent digestion with Hsp92II. Using this marker, canned scallops were identified. Thus this work provides a simple, reliable, and rapid method for the identification of scallops that can be used when species-specific morphologic characteristics are removed or when specimens are small in size.     

Functional analysis of internal transcribed spacer 2 of Saccharomyces cerevisiae ribosomal DNA.

Using the previously described "tagged ribosome" (pORCS) system for in vivo mutational analysis of yeast rDNA, we show that small deletions in the 5'-terminal portion of ITS2 completely block maturation of 26 S rRNA at the level of the 29 SB precursor (5.8 S rRNA-ITS2-26 S rRNA). Various deletions in the 3'-terminal part, although severely reducing the efficiency of processing, still allow some mature 26 S rRNA to be formed. On the other hand, none of the ITS2 deletions affect the production of mature 17 S rRNA. Since all of the deletions severely disturb the recently proposed secondary structure of ITS2, these findings suggest an important role for higher order structure of ITS2 in processing. Analysis of the effect of complete or partial replacement of S. cerevisiae ITS2 with its counterpart sequences from Saccharomyces rosei or Hansenula wingei, points to helix V of the secondary structure model as an important element for correct and efficient processing. Direct mutational analysis shows that disruption of base-pairing in the middle of helix V does not detectably affect 26 S rRNA formation. In contrast, introduction of clustered point mutations at the apical end of helix V that both disrupt base-pairing and change the sequence of the loop, severely reduces processing. Since a mutant containing only point mutations in the sequence of the loop produces normal amounts of mature 26 S rRNA, we conclude that the precise (secondary and/or primary) structure at the lower end of helix V, but excluding the loop, is of crucial importance for efficient removal of ITS2.     

a molecular phylogeny of apiaceae subfamily Apioideae: evidence from nuclear ribosomal DNA internal transcribed spacer sequences

Phylogenetic relationships among 40 New World and Old World members of Apiaceae subfamily Apioideae, representing seven of the eight tribes and eight of the ten subtribes commonly recognized in the subfamily, were inferred from nucleotide sequence variation in the internal transcribed spacer (ITS) regions of 18-26S nuclear ribosomal DNA. Although the sequences are alignable, with only 11% of sites excluded from the analyses because of alignment ambiguity, divergence values in pairwise comparisons of unambiguous positions among all taxa were high and ranged from 0.5 to 33.2% of nucleotides in ITS 1 and from 0 to 33.2% of nucleotides in ITS 2. Average sequence divergence across both spacer regions was 18.4% of nucleotides. Phylogenies derived from ITS sequences estimated using neighbor-joining analysis of substitution rates, and maximum likelihood and parsimony methods give trees of essentially similar topology and indicate that: (1) there is little support for any existing system of classification of the subfamily that is based largely on morphological and anatomical features of the mericarp; (2) there is a major phylogenetic division within the subfamily, with one clade comprising the genus Smyrnium and those taxa belonging to Drude's tribes Dauceae, Scandiceae, and Laserpitieae and the other clade comprising all other examined taxa; and (3) the genera Arracacia, Coaxana, Coulterophytum, Enantiophylla, Myrrhidendron, Prionosciadium, and Rhodosciadium, all endemic to Mexico and Central America, comprise a clade but their relationships to other New World taxa are equivocal. A phylogeny derived from parsimony analysis of chloroplast DNA rpoC1 intron sequences is consistent with, but considerably less resolved than, relationships derived from these ITS regions. This study affirms that ITS sequences are useful for phylogenetic inference among closely related members of Apioideae but, owing to high rates of nucleotide substitution, are less useful in resolving relationships among the more ancestral nodes of the phylogeny.     

Analysis of ribosomal DNA internal transcribed spacer sequences of the Leishmania donovani complex

To understand phylogenetic relationships of species and strains within the Leishmania donovani complex, we have analyzed the ribosomal DNA internal transcribed spacer (ITS) sequences of 27 Leishmania infantum, 2 Leishmania chagasi, 18 L. donovani and 5 Leishmania archibaldi strains of different zymodemes and geographical origin. Eight ITS sequence types were found. All detected sequence variation within ITS1 and ITS2 was based on 12 polymorphic microsatellites. The L. infantum strains from the Mediterranean region, China and L. chagasi from the New World formed a phylogenetic group well separated from the second main group including all strains from East Africa and India. Within the latter group three distinct phylogenetic subgroups could be differentiated: (1) L. donovani (Sudan/Ethiopia, China) + L. archibaldi (Sudan), (2) L. donovani (Sudan/Ethiopia) + L. infantum (Sudan) + L. archibaldi (Sudan/Ethiopia), and (3) L. donovani (Kenya, India). These groups are not consistent with previous species definitions based on isoenzyme analyses, e.g. L. infantum is polyphyletic and L. archibaldi is not supported as a distinct species. Two groups of Indian strains could be differentiated, one of which has an identical sequence type to the strains from Kenya. Three main lineages of strains can thus be differentiated in East Africa: two quite distantly related groups of strains from Sudan/Ethiopia, and a third group including all strains from Kenya, which is more closely related to part of the Indian strains than to any of the Sudanese/Ethiopian groups. The ITS sequence analysis presented here supports the need for revision of the taxonomy of the L. donovani complex.     

rDNA internal transcribed spacer sequence analysis of Craterellus tubaeformis from North America and Europe

The basidiomycete Craterellus tubaeformis (Fries) Quélet is an important widespread ectomycorrhizal basidiomycete found in the Northern Hemisphere. In this study, 12 samples of C. tubaeformis from North America and Europe were analyzed using internal transcribed spacer (ITS) sequences to reveal the correlation between ITS genotypes and geographic locations and to provide molecular evidence for the identification of C. tubaeformis from different habitats in North America and Europe. The analyses identified abundant sequence variations within C. tubaeformis. The length of the ITS region varied from 571 to 640 bp. The proportion of variable sites was 17.6%, and the proportion of parsimony information sites was 16.7%. Phylogenetic analysis showed some correlations between the ITS genotypes and geographic locations of C. tubaeformis; however, some discrepancies between geographical location and affinity were also found. The results indicated that C. tubaeformis from different habitats in North America and Europe underwent genetic drifting and evolved into 2 different species. nrDNA ITS could be a good markers for distinguishing among C. tubaeformis from different habitats, but rational affinity should be determined by associating the available ITS data with other information sources.     

Molecular phylogeny of silk producing insects based on internal transcribed spacer DNA1

Silk moths are the best studied silk secreting insects and belong to the families Bombycidae and Saturniidae. The phylogenetic relationship between eleven silk producing insects was analyzed using the complete DNA sequence of the internal transcribed spacer DNA 1 locus. The PCR amplification and sequence analysis showed variation in length ranging from 138 bp (Antheraea polyphemus) to 911 bp (Hyalopora cecropia). Microsatellite sequences were found and was be used to distinguish Saturniidae and Bombycidae members. The nucleotide sequences were aligned manually and used for construction of phylogenetic trees based on Maximum parsimony and Maximum likelihood methods. The topology in both the approaches yielded a similar tree that supports the ancestral position of the Antheraea assama.     

Molecular systematics of dictyostelids: 5.8S ribosomal DNA and internal transcribed spacer region analyses

The variability and adaptability of the amoebae from the class Dictyosteliomycetes greatly complicate their systematics. The nucleotide sequences of the ribosomal internal transcribed spacers and the 5.8S ribosomal DNA gene have been determined for 28 isolates, and their utility to discriminate between different species and genera has been shown.     

Phylogenetic relationship of China Dendrobium species based on the sequence of the internal transcribed spacer of ribosomal DNA

The genetic relationship of 36 Dendrobium species in China was determined based on sequence analysis of the internal transcribed spacer (ITS) region of ribosomal DNA. Aligned sequences of the complete ITS region obtained from the 36 Dendrobium species and 2 outgroup species (Epigeneium amplum and Epigeneium nakaharaei) by using PCR amplification and direct DNA sequencing. The nrDNA ITS1 of Dendrobium was 225–234 bp and ITS2 was 239–248 bp. Phylogenetic tree was constructed, and seven main clusters were generated among the 36 Dendrobium species. From the results, D. moulmeinense was not grouped in the classification of Dendrobium and E. amplum and E. nakaharaei were shown to be divergent from Dendrobium species. The phylogenetic relationships revealed by ITS DNA analysis partially supported previously published morphological data.     

Analysis of the first and second internal transcribed spacer sequences of the ribosomal DNA in Biomphalaria tenagophila complex (Mollusca: Planorbidae)

The first and second internal transcribed spacer regions (ITS1 and ITS2) of the ribosomal DNA of Biomphalaria tenagophila complex (B. tenagophila, B. occidentalis, and B. t. guaibensis) were sequenced and compared. The alignment lengths of these regions were about 655 bp and 481 bp, respectively. Phylogenetic relationships among the Biomphalaria species were inferred by Maximum Parsimony and Neighbor-joining methods. The phylogenetic trees produced, in most of the cases, were in accordance with morphological systematics and other molecular data previously obtained by polymerase chain reaction and restriction fragment length polymorphism analysis. The present results provide support for the proposal that B. tenagophila represents a complex comprising B. tenagophila, B. occidentalis and B. t. guaibensis.     

A phylogenetic analysis of Primulaceae s.l. based on internal transcribed spacer (ITS) DNA sequence data

 Phylogenetic relationships in Primulaceae were investigated by analysis of nuclear rDNA ITS sequences. Thirty-four species of Primulaceae, two of Myrsinaceae and four outgroup taxa were analyzed. In accordance to the results of recently published papers on the phylogeny of Primulaceae we found the family to be paraphyletic and resolved the positions of some genera. Our results show (a) the rather basal position of Centunculus within Lysimachieae, the genus thus being rather distantly related to Anagallis, (b) the close relationship between Lysimachia sect. Lerouxia, Anagallis, Asterolinon, and Pelletiera, (c) the well-supported monophyly of a group consisting of the four genera Hottonia, Omphalogramma, Bryocarpum, and Soldanella, and (d) the affinity of Stimpsonia to the Myrsinaceae-Lysimachieae-Ardisiandra clade. The ITS sequence data do not provide sufficient information to resolve basal relationships within the Primulaceae s.l. There is evidence against the monophyly of the large genera Primula, Androsace, and Lysimachia. In contrast to the phylogenetic reconstructions based on plastid gene sequences, Cyclamen does not appear as a member of the Myrsinaceae-Lysimachieae clade, but its position remains unclear. Revised July 10, 2002; accepted November 21, 2002 Published online: March 20, 2003     

Design of a primer for ribosomal DNA internal transcribed spacer with enhanced specificity for ascomycetes.

A primer able to amplify the internal transcribed spacers (ITS) of the ribosomal DNA (rDNA), having enhanced specificity for ascomycetes, was identified by reviewing fungal ribosomal DNA sequences deposited in GenBank. The specificity of the primer, named ITS4A, was tested with DNA extracted from several species of ascomycetes, basidiomycetes, zygomycetes, mastigomycetes and mitosporic fungi (formerly deuteromycetes) and also from plants. The PCR annealing temperature most specific for ascomycetes was found to be 62 degrees C and 64 degrees C for the primer pairs ITS5 + ITS4A and ITS1F + ITS4A, respectively. At these annealing temperatures, all ascomycetous DNA samples were amplified efficiently with the ITS4A primer. The sensitivity limit was in the range 10(-14) g of DNA. This primer could also provide useful tools in suggesting the affinities of many mitosporic fungi with their perfect states.