Highly heterogeneous families of Ty1/copia retrotransposons in the Lycopersicon chilense genome

FaRE1: a transcriptionally active Ty1-copia retrotransposon in strawberry

Retrotransposons are ubiquitous in the plant kingdom and constitute a large fraction of many plant genomes. Although most retrotransposons from plants were thought to be transcriptionally silent in somatic tissues, evidence of activity under certain conditions is available in some cases. In this study, a complete LTR retrotransposon was isolated from the cultivated strawberry (Fragaria x ananassa) genome using genome walking. The element, named FaRE1, has all the features of a typical Ty1-copia retrotransposon. Its total length was 5,104 bp, comprising a single 3,891 bp open reading frame. It is represented by approximately 96 copies per genome, equivalent to approximately 0.33% of the genome. Transcription of FaRE1 was detected in leaf tissue treated with various phytohormones, such as naphthalene acetic acid, 2,4-dichlorophenoxyacetic acid or abscisic acid . To our knowledge, this is the first report of the isolation of a complete LTR retrotransposon with transcriptional activity in strawberry.

The Tnt1 family member Retrosol copy number and structure disclose retrotransposon diversification in different Solanum species

Eukaryotic genome expansion/retraction caused by LTR-retrotransposon activity is dependent on the expression of full length copies to trigger efficient transposition and recombination-driven events. The Tnt1 family of retrotransposons has served as a model to evaluate the diversity among closely related elements within Solanaceae species and found that members of the family vary mainly in their U3 region of the long terminal repeats (LTRs). Recovery of a full length genomic copy of Retrosol was performed through a PCR-based approach from wild potato, Solanum oplocense. Further characterization focusing on both LTR sequences of the amplified copy allowed estimating an approximate insertion time at 2 million years ago thus supporting the occurrence of transposition cycles after genus divergence. Copy number of Tnt1-like elements in Solanum species were determined through genomic quantitative PCR whereby results sustain that Retrosol in Solanum species is a low copy number retrotransposon (1-4 copies) while Retrolyc1 has an intermediate copy number (38 copies) in S. peruvianum. Comparative analysis of retrotransposon content revealed no correlation between genome size or ploidy level and Retrosol copy number. The tetraploid cultivated potato with a cellular genome size of 1,715 Mbp harbours similar copy number per monoploid genome than other diploid Solanum species (613-884 Mbp). Conversely, S. peruvianum genome (1,125 Mbp) has a higher copy number. These results point towards a lineage specific dynamic flux regarding the history of amplification/activity of Tnt1-like elements in the genome of Solanum species.

Isolation and characterization of genomic retrotransposon sequences from octoploid strawberry (Fragaria x ananassa Duch.)

Strawberry (Fragaria spp.) is a kind of herbaceous perennial plant that propagates vegetatively. The conserved domains of reverse transcriptase (RT) genes of Ty1-copia and Ty3-gypsy groups of LTR retrotransposons were amplified from the cultivated strawberry (Fragaria x ananassa Duch.). Sequence analysis of clones demonstrated that 5 of 19 Ty1-copia group unique sequences and 2 of 10 Ty3-gypsy unique sequences in F. x ananassa genome possessed either stop codon or frameshift. Ty1-copia group sequences are highly heterogeneous (divergence ranged from 1 to 69.8%), but the Ty3-gypsy group sequences are less (divergence ranged from 1 to 10%). Southern dot blot hybridization result suggested that both of the LTR retrotransposons are present in the genome of cultivated strawberry with high copy number (Ty1-copia group 2,875 Ty3-gypsy group 348). RT-PCR amplification from total RNA, which was extracted from leaves of micropropagated strawberry plants, did not yield either of the RT fragments. This is the first report on the presence of RT sequences of Ty1-copia and Ty3-gypsy group retrotransposons in F. x ananassa genome.

The promoter of the TLC1.1 retrotransposon from Solanum chilense is activated by multiple stress-related signaling molecules

The LTR retrotransposons are the most abundant mobile elements in the plant genome and seem to play an important role in genome reorganization induced by environmental challenges. Their success in this function depends on the ability of their promoters to respond to different signaling pathways that regulate plant adaptation to biotic and abiotic stresses. The promoter of the TLC1.1 retrotransposon from Solanum chilense contains two primary ethylene-responsive elements (PERE boxes) that are essential for its response to ethylene and for the stress-induced expression. Here, we describe that a 270 bp fragment (P270), derivative of this retroelement promoter, is also able to activate the transcription of the GUS reporter gene in transgenic plants in response to salicylic acid (SA), abscisic acid (ABA), methyl jasmonate (MeJA), hydrogen peroxide (H2O2) and the synthetic auxin 2,4-D. PERE box-dependent and independent routes are involved in the response of P270 to these signal molecules. MeJA, H2O2 and 2,4-D activate this promoter through cis-acting elements other than PERE boxes, whereas ABA and SA act via a PERE box-independent pathway but require this element for maximal activation. Three putative cis-acting elements MRE, GCN4 and GT1/TCA identified in the P270 promoter may be involved in the PERE box-independent activation pathway. These results suggest that the promoter of TLC1.1 may act as an integrator of different signal transduction pathways, allowing this member of the TLC1 retrotransposon family to be activated in response to multiples challenges.

CIRE1, a novel transcriptionally active Ty1-copia retrotransposon from Citrus sinensis

LTR retrotransposons (LTR-RTNs) are widespread constituents of eukaryote genomes, particularly plant genomes. Although LTR-RTNs from plants were thought to be transcriptionally silent in somatic tissues, evidences of activity under certain conditions are available for some of them. In order to investigate LTR-RTNs in the Citrus sinensis genome, we analysed them by PCR using degenerate primers corresponding to highly conserved domains. All elements of the two types of LTR-RTN comprise about 23% of the genome, the copia group contribution being higher (13%) than the gypsy one (10%). From dendogram analysis, we report seven new copia RTN families, named CIRE1 to CIRE7. Here, we report on the first complete retrotransposon identified in Citrus (named CIRE1), which has all the features of a typical copia RTN. CIRE1 retrotransposon has around 2,200 full-length copies, contributing to 2.9% of the C. sinensis genome. CIRE1 has a root-specific expression in sweet orange plants. We have also determined that wounding and exogenous application of plant hormones, as methyl jasmonate and auxin, increase the transcription level of CIRE1 in leaf tissues. In addition, we show that CIRE1 5'LTR promoter can drive transient expression of the gus reporter gene in heterologous plant systems. These findings confirm CIRE1 as one of the few transcriptionally active RTNs described in plants and to our knowledge the first one to be reported in Citrus species.

Involvement of ethylene in stress-induced expression of the TLC1.1 retrotransposon from Lycopersicon chilense Dun

The TLC1 family is one of the four families of long terminal repeat (LTR) retrotransposons identified in the genome of Lycopersicon chilense. Here, we show that this family of retroelements is transcriptionally active and its expression is induced in response to diverse stress conditions such as wounding, protoplast preparation, and high salt concentrations. Several stress-associated signaling molecules, including ethylene, methyl jasmonate, salicylic acid, and 2,4-dichlorophenoxyacetic acid, are capable of inducing TLC1 family expression in vivo. A representative of this family, named TLC1.1, was isolated from a genomic library from L. chilense. Transient expression assays in leaf protoplasts and stably transformed tobacco (Nicotiana tabacum) plants demonstrate that the U3 domain of the 5'-LTR region of this element can drive stress-induced transcriptional activation of the beta-glucuronidase reporter gene. Two 57-bp tandem repeated sequences are found in this region, including an 8-bp motif, ATTTCAAA, previously identified as an ethylene-responsive element box in the promoter region of ethylene-induced genes. Expression analysis of wild-type LTR and single and double ethylene-responsive element box mutants fused to the beta-glucuronidase gene shows that these elements are required for ethylene-responsive gene expression in protoplasts and transgenic plants. We suggest that ethylene-dependent signaling is the main signaling pathway involved in the regulation of the expression of the TLC1.1 element from L. chilense.

Complex organization and evolution of the tomato pericentromeric region at the FER gene locus

Tomato (Lycopersicon esculentum) is a model species for molecular biology research and a candidate for large-scale genome sequencing. Pericentromeric heterochromatin constitutes a large portion of the tomato chromosomes. However, the knowledge of the structure, organization, and evolution of such regions remains very limited. Here, we report the analysis of a 198-kb sequence near the FER gene, located in a distal part of pericentromeric heterochromatin on the long arm of tomato chromosome 6. Nine genes, one pseudogene, and 55 transposable elements (TEs) were identified, showing a low gene density (19.8 kb/gene) and a high content of transposable elements (>45% of the sequence). Six genes (56 B23_g3, g5, g7, g8, g9, and g10) have perfect matches (>98% identity) with tomato expressed sequence tags. Two genes (56 B23_g1 and g6), which share <98% sequence identity with expressed sequence tags, were confirmed for transcriptional activity by reverse transcription-PCR. The genes were not uniformly distributed along the sequence and grouped into gene islands separated by stretches of retrotransposons, forming a pattern similar to that found in the gene-rich regions of the large genomes of maize (Zea mays) and Triticeae. Long terminal repeat retrotransposons account for 60% of the TE sequence length. Sixteen of 55 TEs were completely new and remain unclassified. Surprisingly, five of the seven identified DNA transposons were closely associated with coding regions. The action of transposable elements and DNA rearrangements form the molecular basis of the dynamic genome evolution at the FER locus. Multiple rounds of genome duplication in Arabidopsis (Arabidopsis thaliana) and subsequent gene loss have generated a mosaic pattern of conservation between tomato and Arabidopsis orthologous sequences. Our data show that the distal parts of pericentromeric heterochromatin may contain many valuable genes and that these regions form an evolutionary active part of the tomato genome.

Identification of Ty1-copia retrotransposons in three ectomycorrhizal basidiomycetes: evolutionary relationships and use as molecular markers

We amplified by PCR and sequenced 46 partial Ty1- copia reverse transcriptase (RT) sequences from the ectomycorrhizal basidiomycetes Pisolithus and Laccaria bicolor and the host tree Eucalyptus globulus. Phylogenetic analyses indicated that these sequences represent a new class of Ty1- copia RT, characteristic of basidiomycetes but related to plant Ty1- copia retrotransposons. To generate fingerprints of L. bicolor strains, outward facing PCR primers annealing to RTs were designed. This method, which is a modification of the inter-retrotransposon amplified polymorphism (IRAP) analysis, enables the detection of polymorphisms or changes within the insertion sites of Ty1- copia elements in the genome. Using this method, we investigated whether the transposition of Ty1- copia elements was related to the somaclonal variation observed in L. bicolor S238, an inoculant strain used in French Douglas-fir plantations. Data indicated that no differences in the IRAP fingerprints were detected in phenotypic variants of L. bicolor S238. We reported here for the first time the presence of Ty1- copia retrotransposon sequences in basidiomycetes, which resulted in suitable targets for developing new molecular markers.

Ty1-copia group retrotransposons in persimmon (Diospyros kaki Thunb.)

We cloned and characterized Ty1-copia group retrotransposons in persimmon (Diospyros kaki Thunb.). Genomic DNA or methyl jasmonate (MJA)-treated cDNA were used as templates to amplify the reverse transcriptase region of Ty1-copia group retrotransposons. About 280 bp fragments were amplified and cloned, and 97 clones were sequenced. Forty-nine clones included frameshift or the stop codon, or both. Among 48 clones containing complete reading frames, 42 clones had unique nucleotide sequences. Alignment and phylogenetic analysis of putative amino acid sequences in the 42 clones indicated that these clones (named Tdk; retroTransposon in Diospyros kaki) fell into seven subgroups and six ungrouped sequences, indicating high sequence heterogeneity in Tdk clones. Phylogenetic analysis comparing unrelated plant species shows that some Tdk clones are more closely related to Ty1-copia group retrotransposons in the orders Solanales and Sapindales rather than to other Tdk clones. Southern blot analysis using Tdk2B, Tdk4c, Tdk6Ac, Tdk12K and Tdk13G clones as probes showed that persimmon and its related species, D. lotus, D. lotus var. glabba, D. oleifera, D. rhombifolia and D. virginiana, contained multiple Tdk-like sequences, indicating that homologous elements exist in other Diospyros species.

Structural and evolutionary analysis of the copia-like elements in the Arabidopsis thaliana genome

The analysis of 460 kb of genomic sequence of Arabidopsis thaliana chromosome III allowed us to identify two new transposable elements named AtC1 and AtC2. AtC1 shows identical long terminal repeats (LTRs) and all the structural features characteristic of the copia-like active elements. AtC2 is also a full copia-like element, but a putative stop codon in the open reading frame (ORF) would produce a truncated protein. In order to identify the copia-like fraction of the A. thaliana genome, a careful computer-based analysis of the available sequences (which correspond to 92% of the genome) was performed. Approximately 300 nonredundant copia-like sequences homologous to AtC1 and AtC2 were detected, which showed an extreme heterogeneity in size and degree of conservation. This number of copies would correspond to approximately 1% of the A. thaliana genome. Seventy-one sequences were selected for further analysis, with 23 of them being full complete elements. Five corresponded to previously described ones, and the remaining ones, named AtC3 to AtC18 are new elements described in this work. Most of these elements presented a putative functional ORF, nearly identical LTRs, and the other elements necessary for retrotransposon activity. Phylogenetic trees, supported by high bootstrap values, indicated that these 23 elements could be considered separate families. In turn, these 23 families could be clustered into six major lineages, named copia I-VI. Most of the 71 analyzed sequences clustered into these six main clades. The widespread presence of these copia-like superfamilies throughout plant genomes is discussed.

Ty1-copia-like retrotransposons of tomato (Lycopersicon esculentum Mill.)

We have used a PCR and cloning strategy to identify Ty1-copia-like retrotransposons in tomato, Lycopersicon esculentum Mill. Using degenerate oligonucleotide primers corresponding to conserved domains of the Ty1-copia retrotransposon reverse transcriptase (RT), fragments of about 260 bp were obtained by PCR amplification. Sequences of 20 cloned amplification fragments showed similarity to retrotransposon sequences. The copy number for total tomato Ty1-copia-like RT population was estimated to be approximately 2500 and may account for about 1.5% of the tomato genome. Copy numbers for four of the individual RT clones ranged from 20 to 1400 copies. A comparison of the conceptual translations of the RT sequences identified four clusters as well as three sequences which were ungrouped. When compared to RT sequences reported from several other sources, the tomato RT population was found to be widely dispersed with the majority of the RT sequences from Lycopersicon species delineated by the four tomato cluster groups. The gag region of a tomato retrotransposon was cloned from PCRs with primers based on the Tnt1 retrotransposon of tobacco. The tomato clone (pTom1.1) had 81% sequence similarity to the Tntl gag region. Several pTom1.1 sequences are present in other solanaceous species as indicated by Southern hybridization.