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。     

樟属植物ITS序列多态性分析

对樟科樟属(Cinnamomum Schaeffer) 17个代表样本的核糖体DNA内转录间隔区(nrDNA ITS)进行克隆测序。对获得的87条不同ITS序列的长度变异、GC含量、5.8S区二级结构的稳定性、遗传距离、进化模式以及系统发育关系进行了相关分析。研究结果显示, ITS序列在樟属植物内存在明显的多态性, 87条序列中的22条序列被鉴定为假基因序列, 其余65条序列为功能基因序列; 假基因序列采用中性进化模式, 变异明显大于功能序列。ITS序列在樟属植物中出现一致性进化不完全和假基因现象也可能发生在樟科其它类群中, 这可能是导致樟科植物ITS序列直接测序方式成功率低的重要原因。     

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.     

Characterization of angiosperm nrDNA polymorphism, paralogy, and pseudogenes

Many early reports of ITS region (ITS 1, 5.8S, and ITS 2) variation in flowering plants indicated that nrDNA arrays within individuals are homogeneous. However, both older and more recent studies have found intra-individual nrDNA polymorphism across a range of plant taxa including presumed non-hybrid diploids. In addition, polymorphic individuals often contain potentially non-functional nrDNA copies (pseudogenes). These findings suggest that complete concerted evolution should not be assumed when embarking on phylogenetic studies using nrDNA sequences. Here we (1). discuss paralogy in relation to species tree reconstruction and conclude that a priori determinations of orthology and paralogy of nrDNA sequences should not be made based on the functionality or lack of functionality of those sequences; (2). discuss why systematists might be particularly interested in identifying and including pseudogene sequences as a test of gene tree sampling; (3). examine the various definitions and characterizations of nrDNA pseudogenes as well as the relative merits and limitations of a subset of pseudogene detection methods and conclude that nucleotide substitution patterns are particularly appropriate for the identification of putative nrDNA pseudogenes; and (4). present and discuss the advantages of a tree-based approach to identifying pseudogenes based on comparisons of sequence substitution patterns from putatively conserved (e.g., 5.8S) and less constrained (e.g., ITS 1 and ITS 2) regions. Application of this approach, through a method employing bootstrap hypothesis testing, and the issues discussed in the paper are illustrated through reanalysis of two previously published matrices. Given the apparent robustness of the test developed and the ease of carrying out percentile bootstrap hypothesis tests, we urge researchers to employ this statistical tool. While our discussion and examples concern the literature on plant systematics, the issues addressed are relevant to studies of nrDNA and other multicopy genes in other taxa.     

四照花亚属的nrDNA ITS致同进化不完全

四照花亚属(Cornus subg.Syncarpea)隶属于山茱萸科山茱萸属(Cornus),我国该亚属共有5种8亚种。为探讨四照花亚属nrDNA ITS序列的致同进化不完全现象及假基因产生的可能原因,分析了该亚属4种(每种1~2个居群)共21个个体的nrDNA ITS序列。结果表明,这些类群的nrDNA ITS存在多态性,通过分析这些nrDNA ITS克隆序列的G+C含量、5.8S保守基序和二级结构最小自由能,推测其可能存在假基因。系统发育研究结果显示所有nrDNA ITS序列分成5个分支,同一个体的不同拷贝被分别置于两个甚至多个分支中,且不同分支显示了不同种间关系。四照花亚属物种个体内部存在nrDNA ITS不完全致同进化,可能归咎于不完全的世系分选(incomplete lineage sorting)、种间杂交或多倍化等进化事件,从而导致基因组内nrITS区序列出现多态性,同时也导致难以通过外部形态来划分亚属内种间界限。     

ITS sequence variation and concerted evolution in the natural hybrid species Malus toringoides

The internal transcribed spacer (ITS) region of nuclear ribosomal DNA (nrDNA) is one of the most used molecular characters in plant systematics. Our previous studies based on morphological analysis and ITS sequence variation suggested that Malus toringoides (Rehd.) Hughes is derived from hybridization between M. transitoria (Batal.) Schneid. and M. kansuensis (Batal.) Schneid. To further understand the variation pattern of ITS sequences in M. toringoides, and to elucidate the evolutionary processes that affect ITS sequence variation after hybridization, we sampled 99 accessions from multiple populations of the hybrid and parental species, and then obtained totally 254 ITS sequences by cloning and sequencing. Our ITS variation data demonstrates three outcomes of ITS repeats after hybrid speciation. ～ 27–41% of M. toringoides have only M. transitoria type ITS sequence, ～ 40–70% have M. transitoria type ITS sequence plus one or two chimeric ITS sequences generated by recombination between parental ITS sequences, and six accessions retain both parental type ITS sequences. The plausible evolutionary processes that created the observed ITS variations were inferred to be the joint actions of recombination, concerted evolution, pseudogenization and backcrossing. Our study provides further understandings of the variation model of ITS repeats after hybridization as well as the evolution of M. toringoides after its hybrid speciation.     

Non-concerted ITS evolution, early origin and phylogenetic utility of ITS pseudogenes in Pyrus

Molecular studies of 19 species of the genus Pyrus L. revealed different degrees of intra-individual polymorphism of the internal transcribed spacer (ITS 1, 5.8S rDNA and ITS 2) region due to the existence of putative non-functional copies (pseudogenes), putative recombinants and non-concerted evolution among functional copies. Different types of ITS pseudogenes displaying lower GC content and unstable secondary structure were preferentially amplified under normal PCR conditions. Functional ITS copies were successfully obtained in all investigated accessions under the modified PCR conditions. All pseudogenes were highly divergent from their corresponding functional copies and formed a monophyletic group in the phylogenetic tree based on all paralogs, indicating they were of relatively early origin. Functional ITS copies led to confused and poorly resolved phylogeny as a result of low sequence divergence, existence of unidentified ancient recombinants and a high degree of intra-individual functional ITS polymorphism, while certain types of pseudogenes and some relict pseudogenes offered more credible clues for the evolutionary history of Pyrus species.     

Analysis of nrDNA polymorphism in closely related diploid sexual, tetraploid sexual and polyploid agamospermous species

Nuclear sequences of ITS1-5.8S-ITS2 region of rDNA may be an important source of phylogenetically informative data provided that nrDNA is cloned and the character of sequence variation of clones is properly analyzed. nrDNA of selected Taraxacum sections was studied to show sequence variation differences among diploid sexual, tetraploid sexual and polyploid agamospermous species. We examined nucleotide characteristics, substitution pattern, secondary structure, and the phylogenetic utility of ITS1-5.8S-ITS2 from 301 clones of 32 species representing 11 sections. The most divergent sequences of ITS1&2 differed by 17.1% and in 5.8S only by 3.7%. The ITS1-5.8S-ITS2 characteristics, integrity and also stability of secondary structures confirmed that pseudogenes are not responsible for the above variation. The within-individual polymorphism of clones implies that the concerted evolution of ITS cistron of agamospermous polyploid Taraxacum is remarkably suppressed. Sequences of ITS clones proved to be a useful tool for mapping pathways of complex reticulation (polyploid hybridity) in agamospermous Taraxacum.     

Multiple origins and nrDNA internal transcribed spacer homeologue evolution in the Glycine tomentella (Leguminosae) allopolyploid complex

Despite the importance of polyploidy in the evolution of plants, patterns of molecular evolution and genomic interactions following polyploidy are not well understood. Nuclear ribosomal DNA is particularly complex with respect to these genomic interactions. The composition of nrDNA tandem arrays is influenced by intra- and interlocus concerted evolution and their expression is characterized by patterns such as nucleolar dominance. To understand these complex interactions it is important to study them in diverse natural polyploid systems. In this study we use direct sequencing to isolate and characterize nrDNA internal transcribed spacer (ITS) homeologues from multiple accessions of six different races in the Glycine tomentella allopolyploid complex. The results indicate that in most allopolyploid accessions both homeologous nrDNA repeats are present, but that there are significant biases in copy number toward one homeologue, possibly resulting from interlocus concerted evolution. The predominant homeologue often differs between races and between accessions within a race. A phylogenetic analysis of ITS sequences provides evidence for multiple origins in several of the polyploid races. This evidence for diverse patterns of nrDNA molecular evolution and multiple origins of polyploid races will provide a useful system for future studies of natural variation in patterns of nrDNA expression.     

ITS假基因对栎属系统学研究的影响及其对分子系统学研究的启示

核糖体rDNA ITS是被子植物系统发育研究中应用最广泛的分子标记之一。以前人们认为同一物种中的ITS序列因致同进化而使不同拷贝高度一致,在分子系统学研究中常以ITS1-5.8S-ITS2序列作为构建系统进化树的基础。近年来,在对一些被子植物的研究中发现这段序列在同一物种中具有多态性,有些拷贝中的5．8S区不具编码功能,人们把含有不具编码功能5．8S区的ITS1-5．8S-ITS2序列定义为ITS假基因序列,它对同源基因致同进化的假设形成了新的挑战。在诸多应用ITS序列重建系统进化关系的研究中,栎属系统学研究因ITS假基因的发现而倍受关注。本文以栎属为例回顾了ITS假基因的发现过程,分析了其对该属系统学研究的影响,为分子生物学在植物系统进化研究中的应用提供一些新的参考。     

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.     

ITS 假基因对栎属系统学研究的影响及其对分子系统学研究的启示*

核糖体rDNA ITS 是被子植物系统发育研究中应用最广泛的分子标记之一。以前人们认为同一物种
中的ITS 序列因致同进化而使不同拷贝高度一致, 在分子系统学研究中常以ITS1- 518S- ITS2 序列作为构建
系统进化树的基础。近年来, 在对一些被子植物的研究中发现这段序列在同一物种中具有多态性, 有些拷
贝中的518S 区不具编码功能, 人们把含有不具编码功能518S 区的ITS1-51 8S- ITS2 序列定义为ITS 假基因序
列, 它对同源基因致同进化的假设形成了新的挑战。在诸多应用ITS 序列重建系统进化关系的研究中, 栎
属系统学研究因ITS 假基因的发现而倍受关注。本文以栎属为例回顾了ITS 假基因的发现过程, 分析了其
对该属系统学研究的影响, 为分子生物学在植物系统进化研究中的应用提供一些新的参考。     

植物nrDNA ITS致同进化不完全现象及其进化意义

nrDNA是个多基因家族,在基因内往往有成千上万的拷贝,但通常只包含有一种序列,即所谓致同进化.因此,nrDNA ITS被广泛应用于植物系统与进化研究当中.近年来,部分研究发现,一些植物类群的基因组内nrDNA ITS也存在着较高的多样性,即致同进化不完全现象.该文就裸子植物和被子植物中nrDNA ITS存在致同进化不完全现象的原因和特点,nrDNA ITS假基因的识别,以及其进化意义等进行了综述.     

Marked Intragenomic Heterogeneity and Geographical Differentiation of nrDNA ITS in <Emphasis Type="BoldItalic">Larix</Emphasis><Emphasis Type="BoldItalic">potaninii</Emphasis> (Pinaceae)

Nuclear ribosomal DNA (nrDNA) of gymnosperms, especially Pinaceae, is characterized by slow concerted evolution and exhibits substantial ITS-region length variation (975–3663 bp), in sharp contrast to the narrow range (565–700 bp) in angiosperms. Here we examined intra- and intergenomic heterogeneity of the nrDNA internal transcribed spacer (ITS) region in four varieties of Larix potaninii, a species from the mountainous areas of western China. Two clones with more than a 100-bp deletion in ITS1 were detected in L. potaninii var. chinensis and L. potaninii var. australis, respectively. The deletion resulted in the loss of most part, including the motif sequence, of subrepeat 1 (SR1). Sequence divergence and phylogenetic analyses showed that some clones would be pseudogenes given their low GC content, high substitution rates, unique positions in the phylogenetic trees, or significant length variation. These clones might represent orphons or paralogues at minor loci resulting from large-scale gene or chromosome reorganization. Some recombinants characterized by chimeric structure and discordant phylogenetic positions in partitioned sequence analyses indicate that unequal crossing-over plays an important role in the process of nrDNA concerted evolution. In addition, some varieties of L. potaninii might have experienced an nrDNA founder effect parallel to their geographical isolation.     

Structural evolution of nrDNA ITS in Pinaceae and its phylogenetic implications

Nuclear ribosomal DNA (nrDNA) has been considered as an important tool for inferring phylogenetic relationships at many taxonomic levels. In comparison with its fast concerted evolution in angiosperms, nrDNA is symbolized by slow concerted evolution and substantial ITS region length variation in gymnosperms, particularly in Pinaceae. Here we studied structure characteristics, including subrepeat composition, size, GC content and secondary structure, of nrDNA ITS regions of all Pinaceae genera. The results showed that the ITS regions of all taxa studied contained subrepeat units, ranging from 2 to 9 in number, and these units could be divided into two types, longer subrepeat (LSR) without the motif (5'-GGCCACCCTAGTC) and shorter subrepeat (SSR) with the motif. Phylogenetic analyses indicate that the homology of some SSRs still can be recognized, providing important informations for the evolutionary history of nrDNA ITS and phylogeny of Pinaceae. In particular, the adjacent tandem SSRs are not more closely related to one another than they are to remote SSRs in some genera, which may imply that multiple structure variations such as recombination have occurred in the ITS1 region of these groups. This study also found that GC content in the ITS1 region is relevant to its sequence length and subrepeat number, and could provide some phylogenetic information, especially supporting the close relationships among Picea, Pinus, and Cathaya. Moreover, several characteristics of the secondary structure of Pinaceae ITS1 were found as follows: (1) the structure is dominated by several extended hairpins; (2) the configuration complexity is positively correlated with subrepeat number; (3) paired subrepeats often partially overlap at the conserved motif (5'-GGCCACCCTAGTC), and form a long stem, while other subrepeats fold onto itself, leaving part of the conserved motif exposed in hairpin loops.     

云南山茶(Camellia reticulata) nrDNA ITS序列多态性分析

对云南山茶 (Camellia reticulata) 8个品种的核核糖体DNA内转录间隔区(nrDNA ITS)进行克隆测序,将获得的ITS序列进行GC含量、 5.8S区二级结构的稳定性、替代模式、核苷酸多样性及系统发育关系的相关分析.实验结果显示,云南山茶8个品种的ITS序列存在丰富的基因组内多态性,同时包含中性进化的假基因,表明其ITS序列逃离了一致性进化.云南山茶ITS序列多态性的原因可能来自广泛的种间杂交,以及rDNA位点在基因组中有不确定的物理位置.ITS假基因为品种的物种形成研究提供了更全面的遗传证据,同时也提示了利用ITS假基因进行系统发育分析可能会对其真实的系统关系造成影响.     

The evolution pattern of rDNA ITS in Avena and phylogenetic relationship of the Avena species (Poaceae: Aveneae)

Ribosomal ITS sequences are commonly used for phylogenetic reconstruction because they are included in rDNA repeats, and these repeats often undergo rapid concerted evolution within and between arrays. Therefore, the rDNA ITS copies appear to be virtually identical and can sometimes be treated as a single gene. In this paper we examined ITS polymorphism within and among 13 diploid (A and C genomes), seven tetraploid (AB, AC and CC genomes) and four hexaploid (ACD genome) to infer the extent and direction of concerted evolution, and to reveal the phylogenetic and genome relationship among species of Avena. A total of 170 clones of the ITS1-5.8S-ITS2 fragment were sequenced to carry out haplotype and phylogenetic analysis. In addition, 111 Avena ITS sequences retrieved from GenBank were combined with 170 clones to construct a phylogeny and a network. We demonstrate the major divergence between the A and C genomes whereas the distinction among the A and B/D genomes was generally not possible. High affinity among the A(d) genome species A. damascena and the ACD genome species A. fatua was found, whereas the rest of the ACD genome hexaploids and the AACC tetraploids were highly affiliated with the A(l) genome diploid A. longiglumis. One of the AACC species A. murphyi showed the closest relationship with most of the hexaploid species. Both C(v) and C(p) genome species have been proposed as paternal donors of the C-genome carrying polyploids. Incomplete concerted evolution is responsible for the observed differences among different clones of a single Avena individual. The elimination of C-genome rRNA sequences and the resulting evolutionary inference of hexaploid species are discussed.     

Evolution of Internal Transcribed Spacer Region of Nuclear Ribosomal DNA in Allopolyploids of Aegilops

Hybridization with subsequent polyploidy is a prominent process in evolution of higher plants, but few data address the evolution of homeologous sequences after polyploidy. The internal transcribed spacer (ITS) of nuclear ribosomal DNA (nrDNA) from eleven allopolyploid species in Aegilops was investigated by PCR amplification and direct sequencing. The sequences obtained were used to study the evolution of ITS region in allopolyploid species. The length of ITS region varied from 599 to 606 bp and the number of variable sites was 93, i.e. 51 and 42 for ITS1 and ITS2 re spectively. Some polymorphic sites were observed in polyploid species, and this indicated that the ancestral sequences had not been homogenized completely by concerted evolution. Distance matrix analysis of diploid and polyploid species by neighbor-joining method, using Triticum monococcum as outgroup, resulted in well-resolved neighbor-joining tree indicating that the ITS regions of UUMM and UUSS genome ( sect. Vertebrata) were homogenizing toward those of UU ancestal genome. This result is in agreement with the results of ctyogenetics of Aegilops. On the other hand, the neighbor joining tree including the D-genome group species (sect. Cylindropyrum and sect. Polyeides ) com prised three clades (CC-DDCC, UU-DDMM-DDMMSS-DDMMUU and MM-DDMvMv), which sug gested that concerted evolution was homogenizing the ITS region of the polyploid derivatives to either of their ancestors.     

Nuclear Ribosomal ITS Functional Paralogs Resolve the Phylogenetic Relationships of a Late-Miocene Radiation Cycad Cycas (Cycadaceae)

Cycas is the most widespread and diverse genus among the ancient cycads, but the extant species could be the product of late Miocene rapid radiations. Taxonomic treatments to date for this genus are quite controversial, which makes it difficult to elucidate its evolutionary history. We cloned 161 genomic ITS sequences from 31 species representing all sections of Cycas. The divergent ITS paralogs were examined within each species and identified as putative pseudogenes, recombinants and functional paralogs. Functional paralogs were used to reconstruct phylogenetic relationships with pseudogene sequences as molecular outgroups, since an unambiguous ITS sequence alignment with their closest relatives, the Zamiaceae, is unachievable. A fully resolved and highly supported tree topology was obtained at the section level, with two major clades including six minor clades. The results fully supported the classification scheme proposed by Hill (2004) at the section level, with the minor clades representing his six sections. The two major clades could be recognised as two subgenera. The obtained pattern of phylogenetic relationships, combined with the different seed dispersal capabilities and paleogeography, allowed us to propose a late Miocene rapid radiation of Cycas that might have been promoted by vicariant events associated with the complex topography and orogeny of South China and adjacent regions. In contrast, transoceanic dispersals might have played an important role in the rapid diversification of sect. Cycas, whose members have evolved a spongy layer in their seeds aiding water dispersals.     

Persistent nuclear ribosomal DNA sequence polymorphism in the Amelanchier agamic complex (Rosaceae)

Individual plants of several Amelanchier taxa contain many polymorphic nucleotide sites in the internal transcribed spacers (ITS) of nuclear ribosomal DNA (nrDNA). This polymorphism is unusual because it is not recent in origin and thus has resisted homogenization by concerted evolution. Amelanchier ITS sequence polymorphism is hypothesized to be the result of gene flow between two major North American clades resolved by phylogenetic analysis of ITS sequences. Western North American species plus A. humilis and A. sanguinea of eastern North America form one clade (A), and the remaining eastern North American Amelanchier make up clade B. Five eastern North American taxa are polymorphic at many of the nucleotide sites where clades A and B have diverged and are thought to be of hybrid origin, with A. humilis or A. sanguinea as one parent and various members of clade B as the other parent. Morphological evidence suggests that A. humilis is one of the parents of one of the polymorphic taxa, a microspecies that we refer to informally as A. "erecta." Sequences of 21 cloned copies of the ITS1- 5.8S gene-ITS2 region from one A. "erecta" individual are identical to A. humilis sequence or to the clade B consensus sequence, or they are apparent recombinants of A. humilis and clade B ITS repeats. Amelanchier "erecta" and another polymorphic taxon are suspected to be relatively old because both grow several hundred kilometers beyond the range of one of their parents. ITS sequence polymorphisms have apparently persisted in these two taxa perhaps because of polyploidy and/or agamospermy (asexual seed production), which are prevalent in the genus.