Polymorphism in the internal transcribed spacer (ITS) region of the ribosomal DNA among different Fusarium species

Fusarium species causing wilt diseases in different plants were characterised by comparing nonpathogenic and different pathogenic species using rDNA RFLP analysis. The ITS (internal transcribed spacer) region of 12 isolates belonging to the section Elegans, Laseola, Mortiella, Discolor, Gibbosum, Lateritium and Sporotrichiella were amplified by universal ITS primers (ITS-1 and ITS-4) using polymerase chain reaction (PCR). Amplified products, which ranged from 522 to 565 bp were obtained from all 12 Fusarium isolates. The amplified products were digested with seven restriction enzymes, and restriction fragment length polymorphism (RFLP) patterns were analysed. A dendrogram derived from PCR-RFLP analysis of the rDNA region divided the Fusarium isolates into three major groups. Assessment of molecular variability based on rDNA RFLP clearly indicated that Fusarium species are heterogeneous and most of the forma speciales have close evolutionary relationships.     

Phylogenetic reconstruction of endophytic fungal isolates using internal transcribed spacer 2 (ITS2) region

Endophytic fungi are inhabitants of plants, living most part of their lifecycle asymptomatically which mainly confer protection and ecological advantages to the host plant. In this present study, 48 endophytic fungi were isolated from the leaves of three medicinal plants and characterized based on ITS2 sequence – secondary structure analysis. ITS2 secondary structures were elucidated with minimum free energy method (MFOLD version 3.1) and consensus structure of each genus was generated by 4SALE. ProfDistS was used to generate ITS2 sequence structure based phylogenetic tree respectively. Our elucidated isolates were belonging to Ascomycetes family, representing 5 orders and 6 genera. Colletotrichum/Glomerella spp., Diaporthae/Phomopsis spp., and Alternaria spp., were predominantly observed while Cochliobolus sp., Cladosporium sp., and Emericella sp., were represented by singletons. The constructed phylogenetic tree has well resolved monophyletic groups with >50% bootstrap value support. Secondary structures based fungal systematics improves not only the stability; it also increases the precision of phylogenetic inference. Above ITS2 based phylogenetic analysis was performed for our 48 isolates along with sequences of known ex-types taken from GenBank which confirms the efficiency of the proposed method. Further, we propose it as superlative marker for reconstructing phylogenetic relationships at different taxonomic levels due to their lesser length.     

Sequence diversity of the internal transcribed spacer (ITS) region of the rRNA operons among different serogroups of Legionella pneumophila isolates

The genus Legionella is represented by 48 species and Legionella pneumophila includes 15 serogroups. In this work, we have studied the intergenic 16S-23S spacer region (ITS) in L. pneumophila to determine the feasability of using amplification polymorphisms in this region, to establish intraspecies differences and to discriminate Legionella species. The amplification of this region, using 16S14F and 23S0R primers, and the analysis of amplicons by the analysis of fragments technique showed that all the L. pneumophila serogroups studied presented the same electrophoretic pattern. Moreover, the analysis of different Legionella species showed that the amplification polymorphisms obtained were species-specific. In order to study the sequence variability of this region, the existence in L. pneumophila of three ribosomal operons was determined by pulsed field gel eletrophoresis (PFGE). Two of the 16S-23S rRNA ITS presented a tRNA Ala and the third one a tRNA Ile. Nevertheless, the variability expected in this region of the operon was not found and the rest of the ITS contained only punctual mutations.     

Estimation of phylogenetic relationships among some Hypericum (Hypericaceae) species using internal transcribed spacer sequences

Abstract

Reactive oxygen species (ROS, partially reduced or activated derivatives of oxygen), are highly reactive and toxic and can lead to oxidative destruction of the cell. ROS production increases when plants are exposed to different kinds of stresses. The chief toxic effect of O₂ ^? and H₂O₂ resides in their ability to initiate cascade reactions that result in the production of the hydroxyl radical and other destructive species such as lipid peroxides. These dangerous cascades are prevented by efficient operation of the cell's antioxidant defenses. However, in addition to their role as toxic byproducts of aerobic metabolism, recently, a new role for ROS has been identified, i.e. the control and regulation of biological processes, such as growth, cell cycle, programmed cell death, hormone signaling, biotic and abiotic stress responses, and development. This review discusses the biochemical properties and sources and sites of ROS production, ROS-scavenging systems, and the role of ROS as signaling molecules.     

侧耳属主要种类ITS序列分析

对侧耳属16个种的38个菌株进行了ITS序列测定,统计分析种内和种间序列趋异度。结果表明,16个种的ITS序列种内趋异度很小,为0-0.007,其中Pleurotus djamor不同地理来源的3个菌株的趋异度为0.007。在16个种的种间ITS序列趋异度中,P.rattenburyi和P.djamor之间趋异度最大,为0.282;P.ostreatus和P.cornucopiae之间的趋异度最小,为0.003。利用ITS序列能够对侧耳属的大多种类进行有效鉴定。ITS序列差异2%-3%作为伞菌中种的鉴定临界值在侧耳属中并不合适。而对于P.ostreatus和P.cornucopiae的准确鉴定,仍需开发新的分类鉴定标记。以香菇为外群,用贝叶斯法构建的侧耳属系统发育树表明,系统发育树的部分节点十分可靠,后验概率值为0.96-1.0。     

Intrastrain internal transcribed spacer heterogeneity in Ganoderma species

Intrastrain internal transcribed spacer (ITS) heterogeneity is first reported from Ganoderma, a fungal genus within Basidiomycetes. ITS amplification products from 4 strains, representing 4 Ganoderma species, were cloned and sequenced. Two to five different ITS types were found within a single strain. The clone sequences were analyzed along with other sequences from Ganoderma retrieved from GenBank. The results show that sequence variation within strains varies considerably with species and the heterogeneity may occur in the 3 parts (ITS1, ITS2, and 5.8S) of the ITS region.     

Heterogeneity of the internal transcribed spacer 1 (ITS1) inTulipa (Liliaceae)

Heterogeneity of the internal transcribed spacer ITS1 of the rDNA within individuals ofTulipa gesneriana L.,T. kaufmanniana Regel, and their interspecific hybrids was analyzed by PCRRFLP, using the polymorphic restriction enzymesRsaI andHinfI, and by nucleotide sequence analysis. In most cases, the sum of the sizes of the restriction fragments was higher than the entire length of the undigested ITS fragment, indicating heterogeneity at the restriction sites within an individual. Differences in band intensities within the restriction patterns indicate the occurrence of variation in copy number of these different ITS1 variants within individuals. Automated sequencing without a visual inspection often failed to detect existing heterogeneity within sequences, resulting in a discrepancy between the sequencing and restriction analysis results. By visual interpretation of the sequences, the restriction patterns could mostly be predicted well. Fluorescence in situ hybridization (FISH) experiments in fourTulipa species revealed the occurrence of several rDNA spots. The number of rDNA loci varied from seven inT. gesneriana Christmas Marvel to ten inT. australis Link. This might explain the occurrence of heterogeneity in ITS sequences inTulipa, as homogenization of variants has to take place over different loci.     

苏铁nrDNA ITS区的序列多态性:不完全致同进化的证据

本研究对苏铁(Cycas revoluta) nrDNA ITS进行克隆测序, 并以cDNA ITS为参照, 比较分析获得的序列的碱基变异、GC含量、5.8S二级结构的稳定性和5.8S保守基序的有无以及系统发育关系。结果发现苏铁nrDNA ITS存在较高的基因组内多样性, 同时, 这些分化的nrDNA ITS拷贝中包含有假基因的存在, 而且假基因与功能拷贝之间已经形成了较大的遗传分化, 这暗示假基因起源有较长历史。苏铁核仁组织区不仅多达16个, 而且分布在13条染色体上, 这可能是其nrDNA ITS致同进化不完全的主要原因。     

Evolutionary divergence of the ribosomal internal transcribed spacer 2 (ITS2) in lizards

During the pre-rRNA cleavage pathway, the excision of ITS2, a eukaryotic specific insertion, remains the most elusive processing step, even in yeast. Comparison of the ITS2 sequences in different organisms permits to reveal conservative, presumably functionally important elements as well as obtain new information about ITS2 divergence in evolution. We have cloned and sequenced the ITS2 of three lizard species, Agama caucasia (Agamidae), Darevskia armeniaca and Lacerta strigata (Lacertidae) and detected in them a set of specific and conservative structural elements employing secondary structure consensus for vertebrate ITS2. Furthermore, we have performed an alignment and comparative analysis of the ITS2 sequences for the two lizards families. It enables us to propose that modern lizard species formation in evolution was accompanied by ITS2 duplication in the rDNA of their common progenitors.     

Rapid identification of wine yeast species based on RFLP analysis of the ribosomal internal transcribed spacer (ITS) region

In this study, we identified a total of 33 wine yeast species and strains using the restriction patterns generated from the region spanning the internal transcribed spacers (ITS 1 and 2) and the 5.8S rRNA gene. Polymerase chain reaction (PCR) products of this rDNA region showed a high length variation for the different species. The size of the PCR products and the restriction analyses with three restriction endonucleases (HinfI, CfoI, and HaeIII) yielded a specific restriction pattern for each species with the exception of the corresponding anamorph and teleomorph states, which presented identical patterns. This method was applied to analyze the diversity of wine yeast species during spontaneous wine fermentation. Received: 2 July 1997 / Accepted: 7 December 1997     

Development of peptide nucleic acid (PNA) microarray for identification of Panax species based on the nuclear ribosomal internal transcribed spacer (ITS) and 5.8S rDNA regions

This study describes the identification of Panax species using a peptide nucleic acid (PNA) microarray. P. ginseng, P. quienquefolius, and P. japonicus were distinguished from each other using 5 PNA probes designed based on three single nucleotide polymorphisms (SNPs) detected in internal transcribed spacer (ITS) and 5.8S rDNA regions. Signal intensity comparison between PNA and DNA microarrays revealed that the PNA microarray provides a significantly more stable and specific fluorescent signal intensity than the DNA microarray. Three Panax species identified by the PNA microarray were denoted as barcode numbers depending on their fluorescent signal patterns of each species using 5 PNA probes (PG-ITS-116, PG-ITS-414-1, PG-ITS-414-2, PG-ITS-425-1, and PG-ITS-425-2). P. ginseng, P. quinquefolius, and P. japonicus were denoted as ‘11010’, ‘00202’ and ‘00000’, respectively. The PNA microarray developed in this study will be useful for legitimizing the distribution of ginseng in domestic and foreign ginseng markets.     

Genetic similarity among Cercospora apii-group species and their detection in host plant tissue by PCR/RFLP analyses of the rDNA internal transcribed spacer (ITS)

The objective of this study was to determine the genetic relatedness among the Cercospora and Pseudocercospora species closely related to Cercospora apii by using a polymerase chain reaction/restriction fragment length polymorphism (PCR/RFLP) analysis of the internal transcribed spacer (ITS) region. A single PCR fragment (about 550 bp) was obtained from all Cercospora species categorized as the C. apii-group, Pseudocercospora purpurea, Pseudocercospora conyzae, and Pseudocercospora cavarae. Cercospora caricis yielded a 680 bp PCR fragment. The similarity in the PCR fragment size and RFLP profiles among the C. apii-group isolates, including Pseudocercospora purpurea, and Pseudocercospora conyzae strongly suggests that these species are conspecific. Synonymy with C. apii (lectotype) at a subspecific rank has been proposed. Amplified ITS regions of genomic DNA extracted from spinach leaves showing 12 and 233% leaf spot disease symptoms caused by Cercospora beticola yielded two PCR fragments (i.e., one from the fungus and one from the host plant) and were resolved by electrophoresis of the PCR product in 3% LMP agarose. Digestion of the total PCR product with HinfI restriction enzyme yielded RFLP profiles similar to those obtained from amplified DNA from the causative agent, C. beticola. The method described in this preliminary study offers rapid detection and diagnosis of fungal infections in plants for disease prediction and management and screening of plant materials for quarantine purposes.     

Origin and relationships of Saintpaulia (Gesneriaceae) based on ribosomal DNA internal transcribed spacer (ITS) sequences

Phylogenetic relationships of eight species of Saintpaulia H. Wendl., 19 species of Streptocarpus Lindl. (representing all major growth forms within the genus), and two outgroups (Haberlea rhodopensis Friv., Chirita spadiciformis W. T. Wang) were examined using comparative nucleotide sequences from the two internal transcribed spacers (ITS) of nuclear ribosomal DNA. The length of the ITS 1 region ranged from 228 to 249 base pairs (bp) and the ITS 2 region from 196 to 245 bp. Pairwise sequence divergence across both spacers for ingroup and outgroup species ranged from 0 to 29%. Streptocarpus is not monophyletic, and Saintpaulia is nested within Streptocarpus subgenus Streptocarpella. Streptocarpus subgenus Streptocarpus is monophyletic. The ITS sequence data demonstrate that the unifoliate Streptocarpus species form a clade, and are also characterized by a unique 47-bp deletion in ITS 2. The results strongly support the monophyly of (1) Saintpaulia, and (2) Saintpaulia plus the African members of the subgenus Streptocarpella of Streptocarpus. The data suggest the evolution of Saintpaulia from Streptocarpus subgenus Streptocarpella. The differences in flower and vegetative characters are probably due to ecological adaptation leading to a relatively rapid radiation of Saintpaulia.     

Delineation of the European Armillaria species based on the sequences of the internal transcribed spacer (ITS) of ribosomal DNA

Variation within the internal transcribed spacer (ITS) of the ribosomal RNA gene of 15 isolates representing seven European Armillaria species, was examined by sequencing of the PCR-amplified products. The analysis of an 744-bp region showed that the 5.8S gene appeared to be highly conserved in the 15 isolates and in other Basidiomycetes and Ascomycetes, whereas ITS1 and especially ITS2 spacers exhibited polymorphisms due to base substitutions, insertions or deletions of up to eight nucleotides. An initial dendrogram for the full sequence was drawn using cluster analysis (UPGMA), and a tree was constructed using the maximum parsimony method. Both methods indicated that the isolates could be divided into four major groups. One group, consisting of A. ectypa , was distinct from all the other species. Examination of the other groups indicated that A. tabescens and A. mellea were in a separated cluster, with a significant variation between the two isolates of the latter species. A. gallica and A. cepistipes constituted another closely related group distinguishable from A. ostoyae and A. borealis , these latter two species exhibiting the highest similarity. The results are consistent with, and discussed in regard to, the relationships estimated previously by pairing tests, morphological and physiological comparisons, as well as by restriction fragment length polymorphism of the rDNA.     

Analysis of sequences of ITS1 internal transcribed spacer and 5.8S ribosome gene of Malus species

The nucleotide sequence of the ITS1-5.8S ribosomal DNA spacer fragment was determined for 41 samples of the Malus species. The total length of compared sequences ranged from 389 to 392 bp. The nucleotide sequence of the 5.8S gene within the genus was highly conserved. The level of polymorphism of ITS1 region comprised 14%. Both species- and group-specific substitutions were identified. The analysis of M. orientalis and M. turkmenorum sequences revealed their full identity, which indicates the need to perform more research with a larger number of samples of both species from other collections to clarify the taxonomic status of the M. turkmenorum species. The previous findings on the synonymy of species M. baccata, M. mandshurica, M. pallasiana, and M. sachalinensis were also confirmed.     

Analysis of internal transcribed spacer (ITS) regions of rRNA genes in fungal communities in a southeastern U.S. salt marsh

The ascomycete community colonizing decaying Spartina alterniflora blades in a southeastern U.S. salt marsh was characterized by analysis of internal transcribed spacer (ITS) regions of fungal rRNA genes. ITS sequences were amplified with ascomycete-specific primers from DNA extracted from S. alterniflora blades at two stages of decay (early and late) and were identified based on sequence analysis of a companion ascomycete culture collection. The S. alterniflora ITS libraries were dominated by clones from three species of ascomycetes: Mycosphaerella sp. 2, Phaeosphaeria spartinicola, and Phaeosphaeria halima. ITS sequences from five other less abundant ascomycete species were also found in the clone libraries, only two of which could be identified based on the culture collection, Hydropisphaera erubescens and a new species nicknamed '4clt'. Ascospore expulsion assays indicated dominance by the same three species as the ITS analysis, although this non-molecular approach differed from the molecular method in relative ranking of the dominant species and in characterization of minor species. Analysis of ITS amplicons from three replicate plots by terminal restriction fragment length polymorphism (T-RFLP) analysis showed significant spatial homogeneity in ascomycete community composition for both early- and late-stage decay. ITS sequence analysis identified morphologically cryptic subgroups for two of the three dominant salt marsh ascomycetes.     

Intraspecific differentiation of Allium wallichii (Amaryllidaceae) inferred from chloroplast DNA and internal transcribed spacer fragments

In the present study, we used two chloroplast DNA (cpDNA) fragments (trnL-F and rps16) and the nuclear ribosomal internal transcribed spacer (ITS) sequence data to examine intraspecific differentiation and phylogeographical history of Allium wallichii. Based on wide scale sampling (28 populations and 174 individuals) across the entire distribution range of this species, 33 cpDNA haplotypes and 25 ITS ribotypes were detected in our investigation. These cpDNA haplotypes were divided into three major lineages, which was further supported by the ITS phylogenetic results. High haplotype/ribotype diversity and population differentiation, together with most of the haplotypes/ribotypes being exclusive to single populations, implied restricted gene flow among populations and significant geographical isolation. Nearly all populations with high haplotype/ribotype diversity were found in the Hengduan Mountain Region (HMR), whereas the populations of the Himalayas and Nanling Mountains showed a lower level, suggesting the HMR might serve as a potential divergence center for A. wallichii. The main lineages of A. wallichii diverged from each other between Mid–Late Pliocene and Early Quaternary based on two sets of molecular markers, indicating that the Quaternary climatic fluctuation could not have contributed greatly to the divergence of the main lineages of A. wallichii. Instead, the intricate topography and heterogeneous habitats resulting from the drastic uplift of the Qinghai–Tibet Plateau from the Late Pliocene could be responsible for the intraspecific differentiation of A. wallichii. The present study further highlights the importance of geographic isolation and habitat heterogeneity in shaping and maintaining high species diversity within the HMR.     

Sequence differences in the internal transcribed spacer ribosomal DNA among four species of hookworm (Ancylostomatoidea: Ancylostoma)

The two ribosomal DNA internal transcribed spacers (1 and 2) of the hookworms Ancylostoma caninum, A. tubaeforme, A. ceylanicum and A. duodenale were sequenced. The sequence lengths were similar among the four species, except that A. ceylanicum had slightly longer (by 5–7 bp) internal transcribed spacer 1 and 2 sequences. The predicted secondary structure of the internal transcribed spacer 2 precursor rRNA was similar for all species, despite interspecific differences in primary sequence ranging from 0.9% to 13.2%. Interspecific differences in internal transcribed spacer 1 sequence ranged from 0.9% to 7.5%. A cladistic analysis of the sequence data, using the human hookworm Necator americanus as the outgroup, provided little resolution of the phylogenetic relationships, except that A. ceylanicum occurred on a branch external to the other three species. Nonetheless, internal transcribed spacers 1 and 2 may provide useful phylogenetic information at higher taxonomic levels within the superfamily Ancylostomatoidea.     

The phylogenetic relationships among the possible donors of B-genome of common wheat based on internal transcribed spacer (ITS) sequences

The ITS regions of 5 species in Aegilops sect. Sitopsis, the possible donors of Bgenome of common wheat, were amplified by PCR, cloned and sequenced. The phylogenetic relationships among 5 species in Aegilops sect. Sitopsis were constructed based on ITS1 + ITS2 sequences. The results demonstrated that Ae. speltoides was a distinct species in Aegilops sect. Sitopsis. The average of the pairwise distances between Ae. speltoides and the other four species was three times as high as that among the latter four. Ae. speltoides was the earliest lineage of the section under question. Relationship between Ae. longissima and Ae. sharonensis was the closest in Aegilops sect. Sitopsis. Sequence of ITS regioncould be used as a molecular marker to identify origin of B-genome in polyploid wheats.     

Secondary structural modeling of the second internal transcribed spacer (ITS2) from Pfiesteria-like dinoflagellates (Dinophyceae)

Pfiesteria piscicida is a harmful bloom-forming alga that has received a great deal of attention due to its potential association with large fish kills and neurological problems in humans. Since the discovery of Pfiesteria, several other Pfiesteria-like dinoflagellates (PLDs) have also been identified. Genetic identification and phylogenetic relationships among the PLDs commonly utilize sequence data from the genes and spacers of the ribosomal DNA (rDNA) operon. Of these, the internal transcribed spacers (ITSs) have been previously shown to fold into secondary structures that are critical for proper ribosomal processing. In this study, we modeled the secondary structure of the second internal transcribed spacer (ITS2) from 16 PLDs (as well as an outgroup taxon) using phylogenetic comparative methods and minimum free energy. The secondary structural models predicted for these dinoflagellates consisted of four paired helices separated by five unpaired regions, consistent with those reported from many eukaryotes. All of the structures were highly stable (ΔG = ?66.1 to ?122.3 kcal·mol at 37 °C) and several structural characters were found to be conserved either across the PLDs or were specific to monophyletic subgroups, strengthening previously inferred phylogenetic relationships among taxa. Additionally, an 18 bp motif was identified in the PLDs whose position corresponds to a ribosomal processing site described from other eukaryotes. Potential applications of these ITS2 secondary structures include utility in strain and species identification, phylogenetic inference and serving as a tool for identifying and excluding rDNA pseudogenes when assessing biodiversity within the PLDs.