Complete nucleotide sequence of the Drosophila transposable element copia: homology between copia and retroviral proteins

A copia-like retrotransposon Tgmr closely linked to the Rps1-k allele that confers race-specific resistance of soybean to Phytophthora sojae

We have isolated and characterized Tgmr, a copia-like retrotransposon, linked tightly to the Rps1-k allele that confers race-specific resistance of soybean to the the fungal pathogen Phytophthora sojae. Southern analysis followed by PCR and sequence analyses, using primers based on sequences flanking the insertion site confirmed that the element was inserted in the neighboring region of Rps1-k but not in that of the other four Rps1 alleles. This implies that Tgmr was transposed into the Rps1-k flanking site after the divergence of Rps1 alleles. Southern analysis of a series of diverse soybean cultivars revealed a high level of polymorphism of Tgmr-related sequences. These results indicate that this low copy retroelement family could have been active in the soybean genome in the recent past. Tgmr contains long terminal repeats (LTR) and four non-overlapping open reading frames (ORF), presumably originating from mutations leading to stop codons of a single ORF. The conserved domains for gag, protease, integrase, reverse transcriptase and RNaseH are present in the internal portion of the element. However, the protease, reverse transcriptase and RNaseH of this element are non-functional due to the presence of several stop codons. Possible transactivation of Tgmr and application of this element in insertional mutagenesis for soybean are discussed.

A novel zinc finger-containing RNA-binding protein conserved from fruitflies to humans

The Drosophila lark gene encodes an essential RNA-binding protein of the RNA recognition motif (RRM) class that is required during embryonic development. Genetic analysis demonstrates that it also functions as a molecular element of a circadian clock output pathway, mediating the temporal regulation of adult emergence in the fruitfly. We now report the molecular characterization of a human gene with significant similarity to lark. Based on fluorescence in situ hybridization and radiation hybrid mapping, the human gene has been localized to chromosome region 11q13; it is closely linked to several identified genes including the locus of Bardet-Biedl syndrome type 1. The lark-homologous human gene expresses a single 1.8-kb size class of mRNA in most or all tissues including brain. Additional database searches have identified a mouse counterpart that is virtually identical to the human protein. Similar to lark protein, both mammalian proteins contain two copies of the RRM-type consensus RNA-binding motif. Unlike most RRM family members, however, the Drosophila and mammalian proteins also contain a retroviral-type (RT) zinc finger that is situated 43 residues C-terminal to the second RRM element. Within a 184-residue segment spanning the RRM elements and the RT zinc finger, the human and mouse proteins are 61% similar to the Drosophila lark sequence. These common sequence features and comparisons among a large collection of RRM proteins suggest that the human and mouse proteins represent homologues of Drosophila lark.

Copia-like retrotransposons in rice: sequence heterogeneity, species distribution and chromosomal locations

Degenerated oligonucleotide primers were used to amplify, clone, and analyze sequence heterogeneity and chromosomal distribution of 23 PCR fragments corresponding to the reverse transcriptase domain of copia-like retrotransposons in rice. Of the 23 fragments 22 could be aligned by their deduced amino acid sequences and were divided into 6 groups according to the phylogenetic and Southern blot analyses. Amino acid sequence differences among the 22 aligned fragments ranged from 1 to 64%. Southern blot analysis of 10 rice accessions including indica, japonica and common wild rice, using these 23 fragments as probes, showed that copia-like retrotransposons were present in moderate to high copy numbers in all the rice genome although the exact copy number cannot be determined. The major difference revealed by southern analysis is a differentiation between the four indica varieties as one group and the four japonica varieties and the two wild rice accessions as another group. Polymorphisms were also detected among the indica and japonica varieties by major bands and repeatable minor bands. Five hybridization bands were mapped to chromosomes 3, 4, 8, and 9, respectively. All the five bands were inherited in a dominant Mendelian fashion and were not allelic with each other, indicating that the same element did not reside on the same location in different rice accessions. No transcript of the copia-like reverse transcriptase was detected on northern blot. The results suggest that the sequence heterogeneity and distributional variability of retrotransposons may be one of contributory factors causing genetic diversity in rice.

Comparative analysis of the chromosomal and genomic organization of Ty1-copia-like retrotransposons in pteridophytes, gymnosperms and angiosperms

We have investigated the physical distribution of the reverse transcriptase genes of Ty1-copia-like retrotransposable elements from 12 plant species belonging to different subdivisions by hybridization in situ on chromosome preparations. Ty1-copia-like elements showed different and non-random hybridization patterns. A dispersed distribution throughout most of the chromosomes with reduced hybridization at some regions or with some weak clustering at other regions was found in Allium cepa, Beta vulgaris, Brassica campestris, Brassica oleracea, Pennisetum glaucum, Pinus elliottii, Selaginella apoda, Vicia faba and Vicia narbonensis. Reduced hybridization occurred mainly at centromeric regions, nucleolus-organizing regions and regions known to be mainly composed of tandemly repeated sequences. In the fern Pteris cretica the retroelements showed a dispersed genomic organization with clustering at some chromosomal regions and whole chromosomes showing little signal. In Arabidopsis thaliana and Cicer arietinum Ty1-copia-like elements were found in clusters at the paracentromeric heterochromatin, a novel organization for a repetitive element in A. thaliana. New retroelement families were isolated from A. thaliana and from Beta vulgaris. Alignment of the deduced peptide sequences with Ty1-copia-like elements from other plants showed considerable divergence which was used to calculate their relationships, indicating the value of reverse transcriptase gene analysis in phylogenetic and biodiversity studies.

Cloning and characterization of a highly repeated DNA sequence in Hordeum vulgare L

A novel repetitive DNA sequence, R10hvcop, has been identified in the barley (Hordeum vulgare L.) genome. This 830 base pair (bp) DNA sequence has a 606-bp open reading frame and is present as approximately 1.96 x 10(5) copies per haploid barley genome. Southern blot analysis revealed that repetitive DNA elements containing R10hvcop and related sequences were dispersed within the barley chromosomes. Sequences similar to R10hvcop were also found in wheat (Triticum aestivum L.), rye (Secale cereale L.), and oat (Avena sativa L.) with copy numbers of 8 x 10(4), 1.39 x 10(5), and 7.9 x 10(4) per haploid genome, respectively. Sequences similar to R10hvcop were also present in the corn (Zea mays L. ssp. mays) genome, but they were not highly repeated. Barley, wheat, rye, oat, and corn showed species-specific restriction fragment length polymorphisms of R10hvcop and related sequences. Computer-based similarity searches revealed that R10hvcop is closely related to reverse transcriptase genes in retrotransposon-like elements of several plant species and of Drosophila. The highly repetitive nature, interspersed distribution, and high degree of similarity to reverse transcriptase genes suggests that R10hvcop contains the sequence of a diverged reverse transcriptase gene.

Regulation of a specific circadian clock output pathway by lark, a putative RNA-binding protein with repressor activity

An endogenous clock within the Drosophila brain regulates circadian rhythms in adult eclosion and locomotor activity. Although molecular elements of the Drosophila circadian clock have been well characterized, little is known about the clock output pathways that mediate the control of rhythmic events. Previous genetic analysis indicates that a gene known as lark encodes an element of the clock output pathway regulating adult eclosion. We now present evidence that lark encodes a novel member of the RNA recognition motif (RRM) class of RNA-binding proteins. Similar to other members of this protein superfamily, lark contains two copies of a bipartite consensus RNA-binding motif. Unlike any other RRM family member, however, lark protein also contains a distinct class of nucleic acid binding motif, a retroviral-type zinc finger, that is present in the nucleocapsid protein of retroviruses and in several eukaryotic proteins. In contrast to identified clock elements, lark mRNA does not exhibit diurnal fluctuations in abundance in late pupae or in adult heads. Thus rhythmic transcription of the gene does not contribute to the temporal regulation of eclosion by lark protein. Gene dosage experiments show that decreased or increased lark product, respectively, leads to an early or late eclosion phenotype, indicating that the protein negatively regulates the eclosion process. It is postulated that lark is required for the posttranscriptional repression of genes encoding other elements of this clock output pathway.

Identification of a 5' truncated non-LTR-retrotransposon, YAKPs1, from the variegated cutworm, Peridroma saucia, using PCR

Retrotransposable elements encode for several polypeptides that contain a number of conserved amino acid motifs, especially in the region encoding reverse transcriptase. We have used these motifs to design primers for the PCR amplification of retrotransposon DNA. These primers have allowed us to isolate a retroposon, or LINE (long interspersed nuclear element), from the pest insect, Peridroma saucia. DNA sequence analysis of this element, YAKPs1, demonstrated a high degree of homology to a number of retroposons from Drosophila melanogaster, in particular the Fw and Doc elements with homologies of up to 69%. Determination of the complete sequence of the YAKPs1 element will enable a detailed analysis of its evolutionary relatedness to other elements as well as a greater insight into its mode of action.

Autonomous transposition of the tobacco retrotransposon Tto1 in rice

The complete nucleotide sequence of the tobacco retrotransposon Tto1, one of the few active retrotransposons of plants, was determined. The sequence analysis suggests that Tto1 carries all functions required for autonomous transposition through reverse transcription. Gene organization and the nature of the transcription product suggest that Tto1 uses a gene expression mechanism different from those employed by retroviruses and most retrotransposons to regulate Gag and Pol stoichiometry. Tto1 was introduced into rice to study its autonomous transposition in heterologous hosts. Transcription and transposition of Tto1 were observed in rice cells. To probe the autonomous transposition through reverse transcription, a modified Tto1 retrotransposon in which part of a reverse transcriptase gene was replaced with an intron-containing hygromycin resistance gene was constructed and introduced into rice cells. Loss of the intron was observed only when intact Tto1 was cotransfected. These results indicate that Tto1 can transpose autonomously through reverse transcription and that the host factors required for transposition are conserved among monocots (class Magnoliopsida; rice) and dicots (class Liliopsida; tobacco), which diverged approximately 200 million years ago. These findings are discussed in relation to the regulation and evolution of retrotransposons and the possible use of Tto1 as a molecular genetic tool.

Sequence analysis of a cDNA containing the gag and prot regions of the soybean retrovirus-like element, SIRE-1

SIRE-1 is a family of several hundred dispersed copies of a very large DNA element from Glycine max that has features characteristic of retroviruses and retrotransposons. A 2.4 kb SIRE-1-specific fragment was recovered from a soybean cDNA library and sequenced. The sequence contains two ORFs. Theoretical translation of ORF1 produces a gag-prot-like polyprotein containing highly conserved motifs found in retroelement nucleocapsids (CX2CX4HX4C) and aspartic proteases (LDSG). The second ORF is foreshortened. The cDNA also contains nearly 200 bp of a putative 5' LTR just upstream of a tRNA primer-binding site.

The Ty1-copia group retrotransposons in Vicia species: copy number, sequence heterogeneity and chromosomal localisation

We present an in-depth study of the Ty1-copia group of retrotransposons within the plant genus Vicia, which contains species with widely differing genome sizes. We have compared the numbers and sequence heterogeneities of these genetic elements in three diploid Vicia species chosen to represent large (V. faba, 1C = 13.3 pg), medium (V. melanops, 1C = 11.5 pg) and small (V. sativa, 1C = 2.3 pg) genomes within the genus. The copy numbers of the retrotransposons are all high but vary greatly, with V. faba containing approximately 10(6) copies, V. melanops about 1000 copies and V. sativa 5000 copies. The degree of sequence heterogeneity of Ty1-copia group elements correlates with their copy number within each genome, but neither heterogeneity nor copy number are related to the genome size of the host. In situ hybridization to metaphase chromosomes shows that the retrotransposons in V.faba are distributed throughout all chromosomes but are much less abundant in certain heterochromatic regions. These results are discussed in the context of plant retrotransposon evolution.

Rte-1, a retrotransposon-like element in Caenorhabditis elegans

We have characterized a retrotransposon-like element (Rte-1) in C. elegans. It was identified while we were sequencing the pim related kinase-1 (prk-1) gene. The element is 3,298 bp long and flanked by a 200 bp direct repeat. 95 bp of the direct repeat are present in the coding region of prk-1. Rte-1 contains an open reading frame, in the opposite orientation of prk-1, potentially encoding 625 amino acids, with similarity to reverse transcriptases. The element is most similar to members of the non-LTR group of retrotransposable elements. There is weak homology of the predicted amino acid sequence of Rte-1 to several reverse transcriptase-like genes identified by the C. elegans genome sequencing consortium, suggesting that there may be a large family of these elements. Southern blots indicate that there are approximately 10-15 additional Rte-1 elements in the C. elegans Bristol N2 genome and a similar number is found in the genomes of two other geographically distinct strains. The insertion pattern of Rte-1 is polymorphic between these strains.

Skippy, a retrotransposon from the fungal plant pathogen Fusarium oxysporum

A retrotransposon from the fungal plant pathogen Fusarium oxysporum f. sp. lycopersici has been isolated and characterized. The element, designated skippy (skp) is 7846 bp in length, flanked by identical long terminal repeats (LTR) of 429 bp showing structural features characteristic of retroviral and retrotransposon LTRs. Target-site duplications of 5 bp were found. Two long overlapping open reading frames (ORF) were identified. The first ORF, 2562 bp in length, shows homology to retroviral gag genes. The second ORF, 3888 bp in length, has homology to the protease, reverse transcriptase. RNase H and integrase domains of retroelement pol genes in that order. Sequence comparisons and the order of the predicted proteins from skippy indicate that the element is closely related to the gypsy family of LTR-retrotransposons. The element is present in similar copy numbers in the two races investigated, although RFLP analysis showed differences in banding patterns. The number of LTR sequences present in the genome is higher than the number of copies of complete elements, indicating excision by homologous recombination between LTR sequences.

Athila, a new retroelement from Arabidopsis thaliana

An analysis of Arabidopsis thaliana heterochromatic regions allowed the identification of a new family of retroelements called Athila. These 10.5 kb elements, representing ca. 0.3% of the genome, present several features of retrotransposons and retroviruses. Athila elements are flanked by 1.5 kb long terminal repeats (LTR) that are themselves bounded by 5 bp perfect inverted repeats. These LTRs start and end with the retroviral consensus 5'TG...CA3' nucleotides. A putative tRNA-binding site and a polypurine tract are found adjacent to the 5' and 3' LTR respectively. The central domain is composed of two long open reading frames (ORFs) of 935 and 694 amino acids. Despite several indications of recent transposition activity, the translation of these ORFs failed to reveal significant homology with proteins associated to retrotransposition. We suggest that the Athila family could result from the transduction and dispersion of a cellular gene by a retrotransposon.

Zeon-1, a member of a new maize retrotransposon family

We have previously shown that the tandemly duplicated 27 kDa maize storage protein locus underwent mitotic rearrangement to yield a single-copy allele in isolates of the inbred line A188. This rearrangement contains a new LTR retrotransposon, designated Zeon-1. This middle repetitive element of 7313 bp had two long terminal repeats, a primer binding site, a polypurine tract and a gag-related open reading frame of 375 amino acids. Transcripts of the gag-related region were detected by the polymerase chain reaction (PCR) in certain maize tissues, and Western blots detected the gag-related protein in the same tissues. Moreover, the product of this mitotic rearrangement was shown to contain the same insertion site and 3' LTR as Zeon-1, suggesting that this rearrangement occurs with unusual precision. Zeon elements were found to be present in teosinte and not present in the Gramineae wheat, barley, sorghum and rye.

Gypsy/Ty3-class retrotransposons integrated in the DNA of herring, tunicate, and echinoderms

Eight new examples of retrotransposons of the Gypsy/Ty3 class have been identified in marine species. A 525-nt pol gene-coding region was amplified using degenerate primers from highly conserved regions and has extended the range of recognition of Gypsy/Ty3 far beyond those previously known. The following matrix shows the percentage AA divergence of the translations of this segment of the pol gene coding region. [table: see text] The underlines separate three groups of retrotransposons that can be recognized on the basis of this amino acid sequence. The new upper group shows surprising amino acid sequence similarity among members from the DNA of herring, sea urchin, starfish, and a tunicate. For example, the herring element differs by only 41% from the Ciona element and 46% from the sea urchin element. The group between the lines includes members close to previously known elements (marked by asterisks) and has so far been found only in sea urchins. The two upper groups differ from each other by 55-60% and yet members of both groups (e.g., Spr1 and Spr2) are integrated into the DNA of one species--S. purpuratus. Below the lower underline is listed the only known representative of a very distant group, which occurs in starfish DNA. In spite of large divergence, amino acid sequence comparisons indicate that all of the elements shown in the array are members of the LTR-containing class of retrotransposons that includes Gypsy of Drosophila and Ty3 of yeast. Of all known mobile elements this class shows the closest sequence similarity to retroviruses and has the same arrangement of genes as simpler retroviruses.

Spatially regulated expression of retrovirus-like transposons during Drosophila melanogaster embryogenesis

Over twenty distinct families of long terminal direct repeat (LTR)-containing retrotransposons have been identified in Drosophila melanogaster. While there have been extensive analyses of retrotransposon transcription in cultured cells, there have been few studies of the spatial expression of retrotransposons during normal development. Here we report a detailed analysis of the spatial expression patterns of fifteen families of retrotransposons during Drosophila melanogaster embryogenesis (17.6, 297, 412, 1731, 3S18, blood, copia, gypsy, HMS Beagle, Kermit/flea, mdg1, mdg3, opus, roo/B104 and springer). In each case, analyses were carried out in from two to four wild-type strains. Since the chromosomal insertion sites of any particular family of retrotransposons vary widely among wild-type strains, a spatial expression pattern that is conserved among strains is likely to have been generated through interaction of host transcription factors with cis-regulatory elements resident in the retrotransposons themselves. All fifteen families of retrotransposons showed conserved patterns of spatially and temporally regulated expression during embryogenesis. These results suggest that all families of retrotransposons carry cis-acting elements that control their spatial and temporal expression patterns. Thus, transposition of a retrotransposon into or near a particular host gene-possibly followed by an excision event leaving behind the retrotransposon's cis-regulatory sequences-might impose novel developmental control on such a host gene. Such a mechanism would serve to confer evolutionarily significant alterations in the spatio-temporal control of gene expression.

Tas, a retrotransposon from the parasitic nematode Ascaris lumbricoides

The cloned retrotransposon Tas OE3 from the genome of the parasitic nematode Ascaris lumbricoides was completely sequenced. The element is flanked by long terminal repeats (LTR) and contains three distinct regions encoding putative proteins typical for retroid elements. The first region, ORF1, encodes a putative Gag protein including a 'Leu zipper', a nucleic acid binding motif, as well as an aspartic protease domain. The second region contains an incomplete ORF (ORF2) with sequence similarities to known retroviral reverse transcriptases (RT), ribonucleases H and integrases. A third ORF, which is located adjacent to the 3' LTR, might encode an env-like protein. Based on amino-acid sequence analysis of the RT domain, Tas falls into a new subgroup of LTR-containing retrotransposons.

Localized expression of a novel micropia-like element in the blastoderm of Drosophila melanogaster is dependent on the anterior morphogen bicoid

We have identified a novel transposon-like element of Drosophila melanogaster that is present in approximately 20 copies in the genome. It codes for a polyprotein containing the diagnostic sequence motifs for a nucleic acid binding CCHC protein, a proteinase, a reverse transcriptase and an integrase as typically found in retroviruses. Owing to its early expression in the blastoderm embryo, and its close relationship to micropia, a previously identified Drosophila retrotransposon, we termed the novel element "blastopia". The spatially restricted expression of blastopia transcripts in head anlagen of the blastoderm embryo is under the direct or indirect control of the Drosophila morphogen bicoid, which is normally required to establish the anterior pattern elements in the embryo. Our results suggest that a blastopia element acts as an "enhancer trap", and thereby participates in the control of an as yet unidentified gene normally expressed in the head anlagen of the embryo.

P element-mediated in vivo deletion analysis of white-apricot: deletions between direct repeats are strongly favored

We have isolated and characterized deletions arising within a P transposon, P[hswa], in the presence of P transposase. P[hswa] carries white-apricot (wa) sequences, including a complete copia element, under the control of an hsp70 promoter, and resembles the original wa allele in eye color phenotype. In the presence of P transposase, P[hswa] shows a high overall rate (approximately 3%) of germline mutations that result in increased eye pigmentation. Of 234 derivatives of P[hswa] with greatly increased eye pigmentation, at least 205 carried deletions within copia. Of these, 201 were precise deletions between the directly repeated 276-nucleotide copia long terminal repeats (LTRs), and four were unique deletions. High rates of transposase-induced precise deletion were observed within another P transposon carrying unrelated 599 nucleotide repeats (yeast 2 mu FLP; recombinase target sites) separated by 5.7 kb. Our observation that P element-mediated deletion formation occurs preferentially between direct repeats suggests general methods for controlling deletion formation.

Transcriptional activation domains of the single-minded bHLH protein are required for CNS midline cell development

The single-minded gene functions as a master developmental regulator within the midline cell lineage of the embryonic central nervous system of Drosophila melanogaster. Genetic experiments suggest that Single-minded can function as a transcriptional activator. Regions of the Single-minded protein were fused to the DNA binding domain of the mammalian transcription factor Sp1 and shown to activate transcription from a reporter gene linked to Sp1 binding sites. Three independent activation domains were identified in the carboxy terminal region of Single-minded that include areas rich in serine, threonine, glutamine and proline residues. Germ line transformation experiments indicate that the carboxy terminal activation domains, the PAS dimerization domain, and the putative DNA binding basic domain of Single-minded are required for expression of CNS midline genes in vivo. These results define in vivo a functional activation domain within Single-minded and suggest a model in which Single-minded activates transcription through a direct interaction with promoter elements of CNS midline genes.

Structural features of mag, a gypsy-like retrotransposon of Bombyx mori, with unusual short terminal repeats

Mag is a retrotransposon found as an insert in the Sericin 2 gene. It is present in a few copies--4 to 15--dispersed in the genome of different strains of Bombyx mori as well as in Bombyx mandarina. Flanked by a 5 bp target sequence with no sequence specificity, it is bordered by direct repeats of 77 nucleotides. Despite their unusual short size, these terminal repeats and their immediately adjacent sequences present all the signals necessary for transcription into genomic RNA and for reverse transcription. Mag contains two overlapping open reading frames which are organized as the gag and pol genes of retroviruses and encode putative nucleic acid binding peptide, protease, reverse transcriptase, RNase H and endonuclease in this order. Sequence comparison of these proteins places mag within the gypsy group of LTR retrotransposons next to the echinoderm element SURL.

ART-CH: a VL30 in chickens?

The complete sequence of ART-CH, a recently found chicken retrotransposon (A. V. Gudkov, E. A. Komarova, M. A. Nikiforov, and T. E. Zaitsevskaya, J. Virol. 66:1726-1736, 1992), was characterized. ART-CH has the structure of a 3,300-bp-long provirus, including two 388-bp long terminal repeats (LTRs) (U3, 245 bp; R region, 17 bp; and U5, 126 bp), a tRNA(Trp)-binding site, and a polypurine tract, similar to avian leukosis viruses. At least some of the approximately 50 genomic copies of ART-CH are transcribed into polyadenylated RNA, which is initiated and terminated at the expected sites within the LTRs. In contrast to the regulatory sequences involved in proviral expression and replication, the internal regions of ART-CH seem to be completely defective. Several short regions of homology with avian leukosis virus genes, most of which encode gag-related sequences, were found among different reading frames of ART-CH, which are not organized like regular retroviral genes. Both sequence analysis and restriction fragment length polymorphism analysis revealed a high degree of sequence (97% homology) and structural similarity among members of the ART-CH family, indicating their common origin and recent penetration into chicken DNA. ART-CH sequences were detected in mouse cells infected with Rous sarcoma virus produced by an ART-CH-expressing Rous sarcoma. These data are consistent with the hypothesis that ART-CH belongs to a class of defective retrotransposons whose replication strategy requires the use of helper viruses. They might originate from an avian leukosis virus-related retrovirus which completely lost its coding capacities as a result of multiple mutations and deletions. These features apparently group ART-CH with the VL30 retrotransposons of rodents.

Recombinant protein expression in a Drosophila cell line: comparison with the baculovirus system

In this report, we compare two different expression systems: baculovirus/Sf9 and stable recombinant Drosophila Schneider 2 (S2) cell lines. The construction of a recombinant S2 cell line is simple and quick, and in batch fermentations the cells have a doubling time of 20 hours until reaching a plateau density of 20 million cells/ml. Protein expression is driven by the Drosophila Metallothionein promoter which is tightly regulated. When expressed in S2 cells, the extracellular domain of human VCAM, an adhesion molecule, is indistinguishable from the same protein produced by baculovirus-infected Sf9 cells. Additionally, we present data on the expression of a seven trans-membrane protein, the dopamine D4 receptor, which has been successfully expressed in both systems. The receptor integrates correctly in the S2 membrane, binds [3H]spiperone with high affinity and exhibits pharmacological characteristics identical to that of the receptor expressed in Sf9 and mammalian cells. The general implications for large scale production of recombinant proteins are discussed.

Mutations at the Darkener of apricot locus modulate transcript levels of copia and copia-induced mutations in Drosophila melanogaster

Mutations of the Doa locus of Drosophila melanogaster darken the eye color of the copia-induced white(apricot) (wa) allele and increase the accumulation of white promoter-initiated transcripts encoding functional mRNA. We show here that quantities of transcripts initiated in both long terminal repeats (LTRs) of the specific wa-copia element are increased, and those initiating in the 5' LTR of the element are structurally altered, yielding a slightly shortened transcript. Accumulation of host-initiated transcripts of a copia-induced mutation within the achaete-scute complex, Hairy-wing Ua (HwUa), are reduced by Doa mutations. Finally, we show that homozygosity for Doa mutations increases the accumulation of copia transcripts from the population of elements in the genome. These results suggest that Doa modulates the severity of copia-induced mutations while functioning as a dosage-sensitive modulator of copia transcription.

BARE-1, a copia-like retroelement in barley (Hordeum vulgare L.)

Retroviruses and retrotransposons make up the broad class of retroelements replicating and transposing via reverse transcriptase. Retroelements have recently been found to be ubiquitous in the plants. We report here the isolation, sequence and analysis of a retroelement from barley (Hordeum vulgare L.) with all the features of a copia-like retrotransposon. This is named BARE-1 (for BArley RetroElement 1), the first such element described for barley. BARE-1 is 12,088 bp, with long terminal repeats (LTRs) of 1829 bp containing perfect 6 bp inverted repeats at their ends and flanked by 4 bp direct repeats in the host DNA. Between the long terminal repeats is an internal domain with a derived amino acid sequence of 1285 residues, bearing homology to the gag, pro, int and rt domains of retroviruses and both plant and non-plant copia-like retrotransposons. Cultivated barley contains about 5000 elements in the genome similar to the BARE-1 putative gag domain, but ten-fold more hybridizing to rt or LTR probes. The particular BARE-1 element reported here appears to be inactive, as the putative protein-coding domain is interrupted by four stop codons and a frameshift. In addition, the 3' LTR is 4% divergent from the 5' LTR and contains a 3135 bp insertion. Nevertheless, we have recently detected transcripts hybridizing to BARE-1 on northern blots, presumably from active copies. Analysis of BARE-1 expression and function in barley is currently underway.

Copia-like retrotransposable element evolution in diploid and polyploid cotton (Gossypium L.)

Copia-like retrotransposable elements were identified in allotetraploid cotton, Gossypium hirsutum, and two species representing its diploid progenitors, G. herbaceum and G. raimondii. These elements are present in high copy number in all three species. Because the two diploid genomic groups have been isolated on opposite sides of the world for 6-11 million years, horizontal transfer of elements between these species is highly unlikely. Elements were intensively sampled to generate a model of copia-like retrotransposable element evolution in systems where vertical transmission is the sole probable means of descent. Copia-like retrotransposon diversity is equally great in all three Gossypium species. Despite this high heterogeneity, analysis of 89 partial reverse transcriptase sequences resulted in the recognition of nine sharply differentiated retrotransposon lineages, each containing elements that share high sequence similarity. No evidence of horizontal transfer from other taxa was obtained. Phylogenetic analyses demonstrate that element topologies are incongruent with Gossypium phylogeny. Consideration of processes that obscure phylogenetic reconstruction of multigene families (including sampling error, variable degrees of orthology and paralogy, differential lineage age and lineage loss and/or proliferation) demonstrates that incongruence between organismal and retrotransposon trees is expected under conditions in which vertical processes are the sole means of transmission. Identification of closely related elements between species allowed rates of copia-like retrotransposon sequence evolution to be estimated as approximately 10(-9) nucleotide substitutions/site/year. These rates are consistent with the interpretation that these retrotransposons have been evolving under functional constraints for most of the time frame bracketed by the species studied. Extrapolation of these results to previous studies that sampled from more highly divergent taxa indicates that horizontal transfer need not be invoked to explain observed phylogenetic patterns.

Reverse transcriptase families and a copia-like retrotransposon, Osser, in the green alga Volvox carteri

By using the polymerase chain reaction (PCR) we have isolated and sequenced two distinct families of reverse transcriptase (RT) sequences from the genome of the colonial alga, Volvox carteri. Probing a genomic library with these RT clones revealed copia-like retrotransposons. One of these elements, named Osser, is 4,875 bp long, bordered by 197-bp identical long terminal repeats (LTRs), and shows the typical organization of retrotransposons belonging to the copia-Tyl group. This is the first complete copia-like retrotransposon sequence described in a green alga.

Reverse transcription of R2Bm RNA is primed by a nick at the chromosomal target site: a mechanism for non-LTR retrotransposition

R2 is a non-LTR retrotransposable element that inserts at a specific site in the 28S rRNA genes of most insects. We have expressed the open reading frame of the R2 element from Bombyx mori, R2Bm, in E. coli and shown that it encodes both sequence-specific endonuclease and reverse transcriptase activities. The R2 protein makes a specific nick in one of the DNA strands at the insertion site and uses the 3' hydroxyl group exposed by this nick to prime reverse transcription of its RNA transcript. After reverse transcription, cleavage of the second DNA strand occurs. A similar mechanism of insertion may be used by other non-LTR retrotransposable elements as well as short interspersed nucleotide elements.

Ty1-copia group retrotransposons as ubiquitous components of plant genomes

Ty1-copia group retrotransposons were searched for in 35 plant species by amplification of the reverse transcriptase coding region using the polymerase chain reaction. Sequences of the expected size were amplified from all of these plant species, including a liverwort, a horsetail, a bracken, gymnosperms and angiosperms. Sequences of 72 clones from 17 species were determined, all of which showed clear homology to the reverse transcriptase sequence of Ty1-copia type retrotransposons. More than half of the sequences carried stop codons or frame shifts. Twenty three new retrotransposon sequences with no interruption by these mutations were revealed. The mechanisms of the evolution of retrotransposons and accumulation of mutations were discussed.

A redefinition of the Asp-Asp domain of reverse transcriptases

The rules defining the Asp-Asp domain of RNA-dependent polymerases deduced by Argos (1988) were tested in a set of 53 putative reverse transcriptases (RTs) sequences. Since it was found that some of these rules are not followed by RTs coded by bacteria, group II introns, and non-LTR retrotransposons, we present here a more strict definition of the Asp-Asp domain.

Molecular analysis of the yeast Ty4 element: homology with Ty1, copia, and plant retrotransposons

The element; Ty4 is a retrotransposon present in low copy number in the genome of Saccharomyces cerevisiae [Stucka et al., Nucleic Acids Res. 17 (1989) 4993-5001]. We have determined the complete nucleotide sequence of one such element from a particular strain and compared it to the other two elements occurring in this strain. The genomic organization of Ty4 is homologous to that found in other retrotransposons of the Ty1-copia group. The internal part of the element contains two large open reading frames (TY4A and TY4B) overlapping by 226 bp in a + 1 mode. TY4A reveals characteristics of the gag portion of retrotransposons and retroviruses, while TY4B consists of a protease, an integrase, a reverse transcriptase, and an RNase H domain (in that order). Our analyses suggest that only one of these copies might be transpositionally active. Sequence comparisons at the amino acid level show that the domains in Ty4 diverge considerably from those of other retrotransposons. The greatest similarity is seen between the reverse transcriptases (50%), the proteases (40%), and the integrases (30%) of Ty4, Ty1/2 and copia, respectively, whereas the degree of similarity for all other entities of these elements is much lower. Considering evolutionary aspects of the retrotransposons, we have to conclude that Ty4 has diverged at an early stage from the progenitors of other known retroelements and represents a novel and independent subgroup of the Ty1-copia class of retrotransposons.

Efficient amplification of Drosophila simulans copia directed by high-level reverse transcriptase activity associated with copia virus-like particles

The number of retrotransposon copia per genome in Drosophila melanogaster cultured cells is two to three times higher than that in D. melanogaster embryo cells. Here, we have found that the genome of the related species, Drosophila simulans, contains in cultured cells more efficiently amplified copia DNA (approximately ten fold). Furthermore, we analyzed copia virus-like particles (VLPs) prepared from D. melanogaster and D. simulans cultured cells, which contain copia RNA and reverse transcriptase (RT) activity, and thus, play a major role in copia replication. The RT activity associated with the D. simulans VLPs was 25 times higher than that associated with the D. melanogaster VLPs. Taken together with the fact that copia is believed to transpose through an RNA intermediate, these results suggest that the amplification of copia DNA should relate to copia RNA-mediated transposition, and the higher RT activity associated with the D. simulans VLPs would lead to the efficient amplification of copia DNA. In a comparison between D. melanogaster and D. simulans copia nucleotide (nt) sequences, five nt substitutions, which cause the respective amino acid changes, were found in the copia RT-coding region. Polymerase chain reaction direct sequencing showed that these five substitutions are the vast majority in each Drosophila species. The substitutions, therefore, may be responsible for the high level of the RT activity associated with the D. simulans VLPs.

Characterization of the reverse transcriptase of 1731, a Drosophila melanogaster retrotransposon

The nucleotide sequence of 1731, a retrotransposon cloned from the genome of Drosophila melanogaster, reveals a structural similarity with the proviral form of the retroviruses including a pol-like gene containing a putative reverse-transcriptase(RT)-coding sequence. Diverse parts of that sequence were subcloned and expressed in Escherichia coli. It has been demonstrated that the expression of the RT-like sequence, when translated, gives rise to peptides displaying enzyme activity characteristic of a true RT enzyme. In addition, rabbit antisera directed against such recombinant proteins allowed us to detect an immunoreactive protein of around 110 kDa, which was only present in D. melanogaster cell lines, but not in cells derived from Drosophila virilis or Drosophila hydei, whose genomes do not bear the 1731 element. This protein is expected to correspond to a non-processed pol-gene translated product and cosediments with virus-like particles exhibiting RT activity.

Hairless, a Drosophila gene involved in neural development, encodes a novel, serine rich protein

Hairless is a dominant loss of function mutation in Drosophila affecting the formation of adult sensory organs. In the mutants, neuronal precursor cells do not differentiate, suggesting that Hairless might be involved in specifying or realizing neuronal fate in the fly, similar to the 'pro-neural' genes of the achaete-scute complex. As highlighted by the manifold phenotypic interactions of Hairless with most of the neurogenic loci, the gene might play an important role in nervous system development. Therefore, we initiated a molecular analysis of the Hairless locus in order to elucidate the function of its gene product and gain insight into the biochemical nature of the observed genetic interactions in which it participates. Here, we report the molecular cloning of the Hairless locus, confirmed by breakpoint and transformation analysis. Unexpectedly, Hairless activity peaks during embryogenesis, where transcripts accumulate primarily in endo- and mesodermal cell layers, and is lowest during larval stages, the lethal phase of Hairless mutants. The putative Hairless protein deduced from DNA sequencing is extremely basic and highly enriched in serine residues. Hairless appears to encode a novel protein without compelling homology to other known proteins which function in specifying peripheral nervous system development in Drosophila.

CfT-I: an LTR-retrotransposon in Cladosporium fulvum, a fungal pathogen of tomato

A retrotransposon from the fungal tomato pathogen Cladosporium fulvum (syn. Fulvia fulva) has been isolated and characterised. It is 6968 bp in length and bounded by identical long terminal repeats of 427 bp; 5 bp target-site duplications were found. Putative first- and second-strand primer binding sites were identified. Three long open reading frames (ORFs) are predicted from the sequence. The first has homology to retroviral gag genes. The second includes sequences homologous to protease, reverse transcriptase, RNAse H and integrase, in that order. Sequence comparisons of the predicted ORFs indicate that this element is closely related to the gypsy class of LTR retrotransposons. Races of the pathogen exhibit polymorphisms in their complement of at least 25 copies of the sequence. Virus-like particles which co-sediment with reverse transcriptase activity were observed in homogenates of the fungus. This is the first report of an LTR retrotransposon in a filamentous fungus.

The complete DNA sequence of yeast chromosome III

The entire DNA sequence of chromosome III of the yeast Saccharomyces cerevisiae has been determined. This is the first complete sequence analysis of an entire chromosome from any organism. The 315-kilobase sequence reveals 182 open reading frames for proteins longer than 100 amino acids, of which 37 correspond to known genes and 29 more show some similarity to sequences in databases. Of 55 new open reading frames analysed by gene disruption, three are essential genes; of 42 non-essential genes that were tested, 14 show some discernible effect on phenotype and the remaining 28 have no overt function.

Production of a unique multi-lamella structure in the nuclei of yeast expressing Drosophila copia gag precursor

Drosophila retrotransposon copia produces virus-like particles (VLPs) in the nuclei of cultured Drosophila cells. The VLPs contain copia RNA and reverse transcriptase activity, and thus, play a major role in copia replication. Here we have expressed the copia gag polyprotein precursor in yeast. The precursor, which includes copia protease itself, showed correct autoprocessing to produce a unique multi-lamella structure in the nuclei of the yeast cells. This expression system should be useful for the analysis of nuclear localization of the major copia VLP protein, and furthermore, would provide important information concerning the mechanism of copia VLPs formation.

Retrotransposon families in rice

Three families of retrotransposons of rice (Tos1, Tos2, and Tos3) were isolated by using a method based on the sequence conservation of the primer binding site for reverse transcription. This method should be generally applicable for cloning retrotransposon of other plants. One retrotransposon, Tos3-1, was studied in detail. Tos3-1 is 5.2 kb long, has structures common to retrotransposons, such as long terminal repeats (LTR), a primer binding site complementary to the initiator tRNA, a polypurine tract, and generates target sequence duplications flanking the inserted element. Southern blotting analysis showed that sequences homologous to Tos1, 2 and 3 are found in wild rice species as well as in cultivated rice species, but not in maize and tobacco. The copy number and genomic location of the families vary in different strains of one species of wild rice, suggesting that these elements may still be active. Retrotransposons were also screened for by amplification of the reverse transcriptase coding region using the polymerase chain reaction (PCR). At least two types of copia-like elements (Tos4 and Tos5) were found. The total copy number of retrotransposons in the rice genome was estimated to be about 1000. These results suggest that, as in Drosophila, retrotransposons are the major transposon class in rice.

Extreme heterogeneity of Ty1-copia group retrotransposons in plants

We have used the polymerase chain reaction to analyse Ty1-copia group retrotransposons of flowering plants. All eight species studied contain reverse transcriptase fragments from Ty1-copia group retrotransposons. Sequence analysis of 31 subcloned fragments from potato reveals that each is different from the others, with predicted amino acid diversities between individual fragments varying between 5% and 75%. Such sequence heterogeneity within a single species contrasts strongly with the limited diversity seen in such retrotransposons in yeast and Drosophila. The fragments from the other seven plant species examined are also heterogeneous, both within and between species, showing that this is a general property of this transposon group in plants. Phylogenetic analysis of all these sequences reveals that many of them fall into subgroups which span species boundaries, such that the closest homologue of one sequence is often from a different species. We suggest that both vertical transmission of Ty1-copia group retrotransposons within plant lineages and horizontal transmission between different species have played roles in the evolution of Ty1-copia group retrotransposons in flowering plants.

Control of transcription of Drosophila retrotransposons

Studies of transcriptional control sequences responsible for regulated and basal-level RNA synthesis from promoters of Drosophila melanogaster retrotransposons reveal novel aspects of gene regulation and lead to identification of trans-acting factors that can be involved in RNA polymerase II transcription not only of retrotransposons, but of many other cellular genes. Comparisons between promoters of retrotransposons and some other Drosophila genes demonstrate that there is a greater variety in basal promoter structure than previously thought and that many promoters may contain essential sequences downstream from the RNA start site.

ART-CH, a new chicken retroviruslike element

A 3' region of a previously unknown retroviruslike element named ART-CH (avian retrotransposon from chicken genome) was obtained in the course of polymerase chain reaction-mediated cloning of avian leukosis virus long terminal repeats (LTRs) from DNAs of infected chicken cells. About 50 copies of ART-CH are present in the genome of chickens of different breeds. ART-CH is not found in DNA of quails, ducks, turkeys, or several other birds tested. The ART-CH element is about 3 kb in size, including 388 bp LTRs. The major class of ART-CH-specific RNA, also 3 kb in size, is detected in various organs of chickens. An ART-CH polypurine tract, a tRNA(Trp)-binding site, regions around the TATA box and polyadenylation signal, and the beginning of the putative gag gene strongly resemble the corresponding regions of avian leukosis viruses and EAV, the two described classes of chicken retroviruses. An open reading frame capable of encoding a polypeptide with a putative transmembrane domain is located upstream of the right ART-CH LTR. This sequence, as well as the U3 and U5 regions of the ART-CH LTR, has no obvious similarities with the corresponding parts of other known vertebrate retroviruses and retrotransposons. A short sequence upstream of the right LTR of ART-CH is very similar to sequences which flank the 3' ends of the oncogenes v-src, v-myc, v-fps, and v-crk in four different recombinant avian retroviruses and which are absent from the genomes of other studied avian retroviruses. Thus, ART-CH is a new endogenous chicken provirus that may participate in the formation of recombinant oncogenic retroviruses.

Ty1-copia group retrotransposons and the evolution of retroelements in the eukaryotes

Ty1-copia group retrotransposons are among the best studied transposable elements in the eukaryotes. This review discusses the extent of these transposons in the eukaryote kingdoms and compares models for the evolution of these genetic elements in the light of recent phylogenetic data. These data show that the Ty1-copia group is widespread among invertebrate eukaryotes, especially in the higher plant kingdom, where these genetic elements are unusually common and heterogeneous in their sequence. The phylogenetic data also suggest that the present day spectrum of Ty1-copia group retrotransposons has been influenced both by divergence during vertical transmission down evolving lineages and by horizontal transmission between distantly related species. Lastly, the factors affecting Ty1-copia group retrotransposon copy number and sequence heterogeneity in eukaryotic genomes and the effects of transpositional quiescence and defective retrotransposons upon evolution of Ty1-copia group retrotransposons are discussed.