绿豆Ty1／Copia类反转录转座子逆转录酶序列的克隆和分析

利用Ty1/copia类反转录转座子的保守位点设计简并引物,从绿豆(Vignaradiata(L.)Wilczek)基因组中扩增得到了反转录转座子的逆转录酶序列。对扩增得到的约270bp的片段进行分离和克隆,并随机挑选了40个克隆进行测序,结果得到了36个单独的核酸序列,其中18个含有移码突变或终止子。根据序列比对,这些克隆可分为9组以及单个的9种。这40个克隆中,核酸序列相似性从8%到100%,显示出其核酸序列的高度异质性。将这些克隆的核酸序列与来自其他种植物的相应序列进行谱系分析,发现有些克隆与来自其他种植物的相应序列的亲缘关系比这些克隆之间更为接近。斑点杂交显示Ty1/copia反转录转座子约占绿豆基因组的9.3%。     

Isolation and Characterization of Ty1/copia-like Reverse Transcriptase Sequences from Mung Bean (Vigna radiata)

Ty1/copia-like sequences were amplified from mung bean (Vigna radiata (L.) Wilczek) genomic DNA, by PCR with degenerate oligonucleotide primers corresponding to highly conserved domains in the Ty1/copia-like retrotransposons. PCR fragments of roughly 270 bp were isolated and cloned, and forty clones were sequenced. Thirty-six of the forty clones had unique nucleotide sequences, and eighteen clones had a frameshift, a stop codon, or both. Alignment of the nucleotide sequences indicated that these clones, denoted Tvr, fell into nine subgroups and nine ungrouped sequences. The nucleotide sequence similarity between these elements ranged from 8% to 100%, which indicates high level of sequence heterogeneity among these clones. A phylogenetic analysis comparing these clones with corresponding sequences from other plant species showed that some of the Tvr clones are more closely related to Ty1/copia-like retrotransposons from other species than to other Tvr clones. Dot blot analysis revealed that Ty1/copia-like retrotransposons comprise about 9.3% of the mung bean genome.     

Evolution of parental ITS regions of nuclear rDNA in allopolyploid Aegilops (Poaceae) species

The genus Aegilops comprises approximately 25 diploid, tetraploid and hexaploid species, in which the genome types of all allopolyploids involve either U or D genome, or both of them. The internal transcribed spacer (ITS) region of 18S-26S nuclear ribosomal DNA (rDNA) from 11 allopolyploid species and 7 related diploid species in the genus were directly sequenced by pooled PCR products. Phylogenetic analyses for tracing evolutionary patterns of parental rDNA in allopolyploid species were performed using the neighbor-joining method. The D genome involved tree included three clades (CC-DDCC, DDMM-DDMMSS-DDMMUU, and MM-MhMh-DDNN), but did not include Ae. squarrosa (DD). It indicated that the rDNA of ancestral D genome had been somewhat differentiated in allopolyploids. The U genome involved tree showed that the allopolyploids and their common ancestor, Ae. umbellulata, formed a clade, suggesting that rDNA in UUMM and UUSS genomes has been homogenizing toward that of ancestral U genome. The phylogenetic pattern of U genome based on ITS sequences also supported the "pivotal-differential" hypothesis.     

Distribution of Ty3-gypsy- and Ty1-copia-like DNA sequences in the genus Helianthus and other Asteraceae.

Two repeated DNA sequences, pHaS13 and pHaS211, which revealed similarity to the int gene of Ty3-gypsy retrotransposons and the RNAse-H gene of Ty1-copia retroelements, respectively, were surveyed in Asteraceae species and within the genus Helianthus. Southern analysis of the genome of selected Asteraceae that belong to different tribes showed that pHaS13- and pHaS211-related subfamilies of gypsy- and copia-like retroelements are highly redundant only in Helianthus and, to a lesser extent, in Tithonia, a Helianthus strict relative. However, under low stringency posthybridization washes, bands were observed in almost all the other Asteraceae tested when pHaS13 was used as a probe, and in several species when pHaS211 was hybridized. FISH analysis of pHaS13 or pHaS211 probes was performed in species in which labelling was observed in Southern hybridizations carried out under high stringency conditions (Helianthus annuus, Tithonia rotundifolia, Ageratum spp., Leontopodium spp., Senecio vulgaris for pHaS13, and H. annuus, Tithonia rotundifolia, and S. vulgaris for pHaS211). Scattered labelling was observed over all metaphase chromosomes, indicating a large dispersal of both Ty3-gypsy- and Ty1-copia-like retroelements. However, preferential localization of Ty3-gypsy-like sequences at centromeric chromosome regions was observed in all of the species studies but one, even in species in which pHaS13-related elements are poorly represented. Ty1-copia-like sequences showed preferential localization at the chromosome ends only in H. annuus. To study the evolution of gypsy- and copia-like retrotransposons in Helianthus, cladograms were built based on the Southern blot hybridization patterns of pHaS13 or pHaS211 sequences to DNA digests of several species of this genus. Both cladograms agree in splitting the genomes studied into annuals and perennials. Differences that occurred within the clades of perennial and annual species between gypsy- and copia-like retroelements indicated that these retrotransposons were differentially active during Helianthus speciation, suggesting that the evolution of the 2 retroelement families was, within limits, independent.     

The contribution of polyploidy to variation in Brassica species

The genus Brassica includes species with two levels of polyploidy: diploids that have replicated genomes and appear to be ancient polyploids, and allopolyploids that were recently derived from hybridization of the diploid species. Research on these species has provided evidence that polyploidy contributes to phenotypic variation through several mechanisms. Polyploidy increases the potential variation of dosage-regulated gene expression, and this mechanism appears to affect flowering time variation through the effects of replicated copies of the flowering time gene FLC . Homoeologous chromosome transpositions occur in allopolyploids that alter allele composition, and this has created novel flowering time variation in newly formed Brassica allopolyploids. New allopolyploids also may have epigenetic changes or altered regulatory interactions that affect gene expression and phenotypic variation. Continued research on Brassica and other species should provide insight into the relative importance of these mechanisms for generating novel variation in polyploids.     

Untangling complex histories of genome mergings in high polyploids

Polyploidy, the duplication of entire genomes, plays a major role in plant evolution. In allopolyploids, genome duplication is associated with hybridization between two or more divergent genomes. Successive hybridization and polyploidization events can build up species complexes of allopolyploids with complicated network-like histories, and the evolutionary history of many plant groups cannot be adequately represented by phylogenetic trees because of such reticulate events. The history of complex genome mergings within a high-polyploid species complex in the genus Cerastium (Caryophyllaceae) is here untangled by the use of a network algorithm and noncoding sequences of a low-copy number gene. The resulting network illustrates how hybridization and polyploidization have acted as key evolutionary processes in creating a plant group where high-level allopolyploids clearly outnumber extant parental genomes.     

裸燕麦Ty1-copia类反转录转座子反转录酶序列的分离、鉴定与分析

本研究根据Ty1-copia类反转录转座子反转录酶的保守区设计简并引物,通过PCR扩增,从裸燕麦(Avena nuda L.)品种‘品燕1号’基因组中分离获得23条Ty1-copia类反转录转座子序列,并对序列特征、系统发育关系及其转录活性进行分析。结果显示,23条Ty1-copia类反转录转座子存在较高的异质性,序列间的一致性为45%～98%,存在插入、移码和终止密码突变,但频率不高;系统发育分析结果表明,燕麦Ty1-copia类反转录转座子在进化过程中主要为垂直传递。本研究通过检索燕麦基因表达数据库,发现了5个有转录活性的Ty1-copia类反转录转座子。     

白菜和甘蓝基因组转座子表达及其对基因调控的潜在影响

转座子或转座元件是大多数真核生物基因组的主要组成成分。甘蓝(Brassica oleracea)基因组比白菜(B. rapa)大主要是转座子的扩增差异造成的。然而, 这两个芸薹属近缘物种转座子表达水平以及对基因的调控和功能的影响目前还不清楚。文章对白菜和甘蓝叶、根、茎3个器官的转录组数据进行了初步分析。结果显示, 转座子的表达量很低, 转录组reads中有1%来自转座子的转录本; 转座子的表达存在器官差异, 且不同类别和家族的转座子表达量相差很大, 相同类别和同一家族的转座子在白菜和甘蓝基因组中的表达活性也不相同。进一步鉴定到转录读出的LTR反转座子, 其与下游基因距离小于2 kb的有41个, 小于100 bp的有9个, 这些LTR的转录读出很可能通过正义或反义的转录本激活或干扰下游基因的表达。同时, 具有转录读出的intact LTR比solo LTR具有更强的读出活性。通过深入分析转座子的插入位点发现, 白菜基因组中转座子插入基因内部的频率比甘蓝基因组中的高; 与反转座子相比, DNA转座子更偏向于插入或保留在基因的内含子当中。这些结果为认识转座子对其他蛋白编码基因的影响提供了基础。