Characterization of a Tc1-like transposable element in zebrafish (Danio rerio)

We have characterized Tdr1, a family of Tc1-like transposable elements found in the genome of zebrafish (Danio rerio). The copy number and distribution of the sequence in the zebrafish genome have been determined, and by these criteria Tdr1 can be classified as a moderately repetitive, interspersed element. Examination of the sequences and structures of several copies of Tdr1 revealed that a particular deletion derivative, 1250 by long, of the transposon has been amplified to become the dominant form of Tdr1. The deletion in these elements encompasses sequences encoding the N-terminal portion of the putative Tdr1 transposase. Sequences corresponding to the deleted region were also detected, and thus allowed prediction of the nucleotide sequence of a hypothetical full-length element. Well conserved segments of Tc1-like transposons were found in the flanking regions of known fish genes, suggesting that these elements have a long evolutionary history in piscine genomes. Tdr1 elements have long, 208 by inverted repeats, with a short DNA motif repeated four times at the termini of the inverted repeats. Although different from that of the prototype C. elegans transposon Tc1, this inverted repeat structure is shared by transposable elements from salmonid fish species and two Drosophila species. We propose that these transposons form a subgroup within the Tc1-like family. Comparison of Tc1-like transposons supports the hypothesis that the transposase genes and their flanking sequences have been shaped by independent evolutionary constraints. Although Tc1-like sequences are present in the genomes of several strains of zebrafish and in salmonid fishes, these sequences are not conserved in the genus Danio, thus raising the possibility that these elements can be exploited for gene tagging and genome mapping.     

Characterization of a Tc1-like transposable element in zebrafish (Danio rerio)

We have characterized Tdr1, a family of Tc1-like transposable elements found in the genome of zebrafish (Danio rerio). The copy number and distribution of the sequence in the zebrafish genome have been determined, and by these criteria Tdr1 can be classified as a moderately repetitive, interspersed element. Examination of the sequences and structures of several copies of Tdr1 revealed that a particular deletion derivative, 1250 by long, of the transposon has been amplified to become the dominant form of Tdr1. The deletion in these elements encompasses sequences encoding the N-terminal portion of the putative Tdr1 transposase. Sequences corresponding to the deleted region were also detected, and thus allowed prediction of the nucleotide sequence of a hypothetical full-length element. Well conserved segments of Tc1-like transposons were found in the flanking regions of known fish genes, suggesting that these elements have a long evolutionary history in piscine genomes. Tdr1 elements have long, 208 by inverted repeats, with a short DNA motif repeated four times at the termini of the inverted repeats. Although different from that of the prototype C. elegans transposon Tc1, this inverted repeat structure is shared by transposable elements from salmonid fish species and two Drosophila species. We propose that these transposons form a subgroup within the Tc1-like family. Comparison of Tc1-like transposons supports the hypothesis that the transposase genes and their flanking sequences have been shaped by independent evolutionary constraints. Although Tc1-like sequences are present in the genomes of several strains of zebrafish and in salmonid fishes, these sequences are not conserved in the genus Danio, thus raising the possibility that these elements can be exploited for gene tagging and genome mapping.     

Positive and negative regulation ofCAR1 Expression inSaccharomyces cerevisiae

Summary We localized the chromosomal targets of several of the regulatory controls of expression of theCAR1 gene. Fusion tolacZ of several fragments of the 5′ non-coding region showed that induction ofCAR1 by arginine is positively regulated by the products of theARGR genes. The target lies upstream of another site where repression by the CARGRI molecule occurs. The latter control is not specific to arginine catabolism since it also affectsCYC-1 and indeed does not appear to involve arginine. The primary target of the two other regulatory allelesCARGRII andCARGRIII is not situated in the 5′ non-coding region. Deletion analysis supports the fusion data and confirms the order of the regulatory regions: 5′—nitrogen catabolite repression—activation by arginine—CARGRI-mediated repression—CAR1.     

Cis requirements for transposition of Tc1-like transposons in C. elegans

The Caenorhabditis elegans transposons Tc1 and Tc3 are able to transpose in heterologous systems such as human cell lines and zebrafish. Because these transposons might be useful vectors for transgenesis and mutagenesis of diverse species, we determined the minimal cis requirements for transposition. Deletion mapping of the transposon ends shows that fewer than 100 bp are sufficient for transposition of Tc3. Unlike Tc1, Tc3 has a second, internal transposase binding site at each transposon end. We found that these binding sites play no major role in the transposition reaction, since they can be deleted without reduction of the transposition frequency. Site-directed mutagenesis was performed on the conserved terminal base pairs at the Tc3 ends. The four terminal base pairs at the ends of the Tc3 inverted repeats were shown to be required for efficient transposition. Finally, increasing the length of the transposon from 1.9 kb to 12.5 kb reduced the transposition frequency by 20-fold, both in vivo and in vitro. Received: 21 April 1999 / Accepted: 10 June 1999     

Cloning and characterization of Tc1 family-derived PPTN related transposons from ridged-eye flounder (Pleuronichthys cornutus) and inshore hagfish (Eptatretus burgeri)

The Tc1 transposable element is the most widespread family among animal transposon and these elements consist of an inverted repeat (IR) sequence flanking a transposase gene that belongs to Class II type transposon, which is highly conserved in the genome of the nematode C. elegans. In order to characterize Tc1-like transposable elements from several fishes, PPTN (Tc1-like transposon was isolated from Pleuronectes platessa, marine flatfish species) IR primer-specific amplified elements were cloned from the genomic DNA of several fishes. Transposable elements were found in ridged-eye flounder (Pleuronichthys cornutus) and inshore hagfish (Eptatretus burgeri) and named as PCTN and EBTN, respectively. Amino acid sequence alignment and phylogenetic analysis confirmed that the PPTN-like transposons belonged to the Tc1 superfamily of transposons, but they comprised a unique clade of Tc1-like transposons. The IR-PCR analysis using MMTS-IR and PPTN-IR specific primers from Paralichthys olivaceus (Paralichthyidae), Paraplagusia japonica (Cynoglossidae), P. yokohamae (Pleuronectidae) and Pagurus cornutus (Pleuronectidae) (within the same order, Pleuronectiformes but different families) exhibited mutually exclusive distribution of Tc1 family-derived PPTN and MMTS-like transposons in these fish genomes. These results indicate that Tc1 family-derived PPTN and MMTS related Tc1-like transposable elements have uniquely evolved in piscine genome, and can be used as phylogenetic markers for the distribution of subfamilies of Tc1-like transposon and the involvement of horizontal and vertical transmission in the evolution of fish genome.     

En/Spm-like transposons in Poaceae species: Transposase sequence variability and chromosomal distribution

Belonging to Class II of transposable elements, En/Spm transposons are widespread in a variety of distantly related plant species. Here, we report on the sequence conservation of the transposase region from sequence analyses of En/Spm-like transposons from Poaceae species, namely Zingeria biebersteiniana, Zingeria trichopoda, Triticum monococcum, Triticum urartu, Hordeum spontaneum, and Aegilops speltoides. The transposase region of En/Spm-like transposons was cloned, sequenced, and compared with equivalent regions of Oryza and Arabidopsis from the gene bank database. Southern blot analysis indicated that the En/Spm transposon was present in low (Hordeum spontaneum, Triticum monococcum, Triticum urartu) through medium (Zingeria bieberstiana, Zingeria trichopoda) to relatively high (Aegilops speltoides) copy numbers in Poaceae species. A cytogenetic analysis of the chromosomal distribution of En/Spm transposons revealed the concurence of the chromosomal localization of the En/Spm clusters with mobile clusters of rDNA. An analysis of En/Spm-like transposase amino acid sequences was carried out to investigate sequence divergence between 5 genera — Triticum, Aegilops, Zingeria, Oryza and Arabidopsis. A distance matrix was generated; apparently, En/Spm-like transposase sequences shared the highest sequence homology intra-generically and, as expected, these sequences were significantly diverged from those of O. sativa and A. thaliana. A sequence comparison of En/Spm-like transposase coding regions defined that the intra-genomic complex of En/Spm-like transposons could be viewed as relatively independent, vertically transmitted, and permanently active systems inside higher plant genomes. The sequence data from this article was deposited in the EMBL/GenBank Data Libraries under the accession nos. AY707995-AY707996-AY707997-AY707998-AY707999-AY708000-AY708001-AY708002-AY708003-AY708004-AY708005-AY708005-AY265312.     

Tc1-Like Transposable Elements in the Genome of Lake Trout (Salvelinus namaycush)

This study reports on the DNA sequence of a Tc1-like transposable element Tsn1 from lake trout (Salvelinus namaycush). Tc1-like elements were amplified by PCR using an oligonucleotide primer based on the Tdr1 element of zebrafish. One full-length and two partial-length copies of the transposon were sequenced. In addition, partial Tsn1 elements were recovered from PCR reactions run with primers specific to the 3′ terminus of the 28S rDNA. However, sequence analysis of cloned fragments found that these sequences were not associated with the rDNA cistron. Sequence comparisons indicate that Tsn1 is a type A element common to both salmonid and cyprinid fishes. The consensus sequence of the full-length element (Tsn1) was 1643 nucleotides with long terminal repeats (LTRs) of 225 nucleotides. Tsn1 contains a transposase coding region corresponding to 340 amino acids that includes all of the functional elements of Tc1-like transposons. Southern analysis found a high proportion of the Tsn1 transposons in the lake trout genome to be full-length copies. Received March 7, 1998; accepted July 20, 1998     

Cloning and analysis of biochemical and catalytic properties of DNA methyltransferase M1.BspACI

DNA methyltransferases genes of the BspACI restriction-modification system from Bacillus psychrodurans AC have been cloned in E. coli cells. Analysis of amino acid sequences of the proteins showed that both of these genes belong to C5 DNA methyltransferases. Gene M1.BspACI has been subcloned in pJW2 vector. A high-purity recombinant enzyme has been obtained using chromatography on different carriers. It has been shown that M1.BspACI modifies the first cytosine residue in the sequence 5′-CCGC-3′. Kinetic parameters of DNA methylation by the enzyme have been determined. Catalytic constant appears to be 0.095 ± 0.002 min⁻¹. K _{mphage is λ DNA}—0.053 ± 0.007 μM, and K _mSAM is 5.1 ± 0.3 μM.     

Elicitin genes in <Emphasis Type="Italic">Phytophthora infestans</Emphasis> are clustered and interspersed with various transposon-like elements

Sequencing and annotation of a contiguous stretch of genomic DNA (112.3 kb) from the oomycete plant pathogen Phytophthora infestans revealed the order, spacing and genomic context of four members of the elicitin (inf) gene family. Analysis of the GC content at the third codon position (GC3) of six genes encoded in the region, and a set of randomly selected coding regions as well as random genomic regions, showed that a high GC3 value is a general feature of Phytophthora genes that can be exploited to optimize gene prediction programs for Phytophthora species. At least one-third of the annotated 112.3-kb P. infestans sequence consisted of transposons or transposon-like elements. The most prominent were four Tc3/gypsy and Tc1/copia type retrotransposons and three DNA transposons that belong to the Tc1/mariner, Pogo and PiggyBac groups, respectively. Comparative analysis of other available genomic sequences suggests that transposable elements are highly heterogeneous and ubiquitous in the P. infestans genome.Electronic Supplementary Material Supplementary material is available for this article at     

Horizontal Escape of the Novel Tc1-Like Lepidopteran Transposon TCp3.2 into Cydia pomonella Granulovirus

We characterized an insertion mutant of the baculovirus Cydia pomonella granulovirus (CpGV), which contained a transposable element of 3.2 kb. This transposon, termed TCp3.2, has unusually long inverted terminal repeats (ITRs) of 756 bp and encodes a defective gene for a putative transposase. Amino acid sequence comparison of the defective transposase gene revealed a distant relationship to a putative transposon in Caenorhabditis elegans which also shares some similarity of the ITRs. Maximum parsimony analysis of the predicted amino acid sequences of Tc1- and mariner-like transposases available from the GenBank data base grouped TCp3.2 within the superfamily of Tc1-like transposons. DNA hybridization indicated that TCp3.2 originated from the genome of Cydia pomonella, which is the natural host of CpGV, and is present in less than 10 copies in the C. pomonella genome. The transposon TCp3.2 most likely was inserted into the viral genome during infection of host larvae. TCp3.2 and the recently characterized Tc1-like transposon TC14.7 (Jehle et al. 1995), which was also found in a CpGV mutant, represent a new family of transposons found in baculovirus genomes. The occasional horizontal escape of different types of host transposons into baculovirus genomes evokes the question about the possible role of baculoviruses as an interspecies vector in the horizontal transmission of insect transposons. Received: 27 February 1997 / Accepted: 16 May 1997     

The mannopine synthase promoter contains vectorial cis-regulatory elements that act as enhancers and silencers

A 479-bp bi-directional promoter controls the expression of two genes (mas1′ and mas2′) that encode enzymes for the synthesis of the opine mannopine in plant tissues infected with Agrobacterium tumefaciens. This 5′ regulatory region (mas promoter) contains all the cis-acting elements involved in mediating the complex regulatory properties of these genes in plants. Using different mas promoter regions fused to a minimal 35S promoter (35SΔ108), we found that the regulatory properties of these divergent promoters result from the presence of orientation-dependent negative and positive regulatory regions. Some of these elements have the unusual property of acting as enhancers in one orientation and as silencers in the other. Using electrophoretic mobility shift analysis (EMSA), we showed that the functional mas promoter regions identified by fluorometric and histochemical assays for reporter gene activity in transgenic plants have the ability specifically to bind nuclear protein factors from Nicotiana tabacum, Phaseolus vulgaris, Solanum tuberosum, and Arabidopsis thaliana. Received: 7 May 1999 / Accepted: 5 August 1999     

Identification of putative nonautonomous transposable elements associated with several transposon families inCaenorhabditis elegans

Putative nonautonomous transposable elements related to the autonomous transposons Tc1, Tc2, Tc5, andmariner were identified in theC. elegans database by computational analysis. These elements are found throughout theC. elegans genome and are defined by terminal inverted repeats with regions of sequence similarity, or identity, to the autonomous transposons. Similarity between loci containing related nonautonomous elements ends at, or near, the boundaries of the terminal inverted repeats. In most cases the terminal inverted repeats of the putative nonautonomous transposable elements are flanked by potential target-site duplications consistent with the associated autonomous elements. The nonautonomous elements identified vary considerably in size (from 100 by to 1.5 kb in length) and copy number in the available database and are localized to introns and flanking regions of a wide variety ofC. elegans genes. Correspondence to: W. Belknap     

A series of repetitive DNA sequences are associated with human core and H1 histone genes

Summary Repetitive DNA sequences, derived from the human β-globin gene cluster, were mapped within a series of human genomic DNA segments containing core (H2A, H2B, H3 and H4) and H1 histone genes. Cloned recombinant λCH4A phage with human histone gene inserts were analyzed by Southern blot analysis using the following³²P-labeled (nick translated) repetitive sequences as probes:Alu I,Kpn I and LTR-like. A cloned DNA designated RS002-5′C6 containing (i)a (TG)₁₆ simple repeat, (ii) an (ATTTT)n repeat and (iii)a 52 base pair alternating purine and pyrimidine sequence was also used as a radiolabelled hybridization probe. Analysis of 12 recombinant phage, containing 6 arrangements of core histone genes, indicated the presence ofAlu I,Kpn and RS002-5′C6 repetitive sequences. In contrast, analysis of 4 human genomic DNA segments, containing both core and H1 histone genes, indicated the presence of onlyAlu I family sequences. LTR-like sequences were not detected in association with any of the core or H1 histone genes examined. These results suggest that human histone and β-globin genes share certain aspects of sequence organization in flanking regions despite marked differences in their overall structure and pattern of expression.     

Integrons,transposons and IS elements promote diversification of multidrug resistance plasmids and adaptation of their hosts to antibiotic pollutants from pharmaceutical companies

Plasmids are important vehicles for the dissemination of antibiotic resistance genes (ARGs) among bacteria by conjugation. Here, we determined the complete nucleotide sequences of nine different plasmids previously obtained by exogenous plasmid isolation from river and creek sediments and wastewater from a pharmaceutical company. We identified six IncP/P-1ε plasmids and single members of IncL, IncN and IncFII-like plasmids. Genetic structures of the accessory regions of the IncP/P-1ε plasmids obtained implied that multiple insertions and deletions had occurred, mediated by different transposons and Class 1 integrons with various ARGs. Our study provides compelling evidence that Class 1 integrons, Tn402-like transposons, Tn3-like transposons and/or IS26 played important roles in the acquisition of ARGs across all investigated plasmids. Our plasmid sequencing data provide new insights into how these mobile genetic elements could mediate the acquisition and spread of ARGs in environmental bacteria.     

RT1.P, rat class Ib genes related to mouse TL: evidence that CD1 molecules but not authentic TL antigens are expressed by rat thymus

 CD1 and TL were once thought to be genetic homologues because of their thymus-specific expression. We investigated their equivalents in the rat to clarify whether their structure and pattern of expression are conserved in rodents. Two rat class Ib genes, containing 3′ sequences very similar to mouse TL, were identified and designated RT1.P. Neither of them, however, can encode ordinary class I molecules due to the accumulation of harmful mutations in the 5′ regions that are unique to RT1.P, while the 3′TL-like regions still retain protein-coding capacity. Comparison of the structural organization of three types of TL family genes, which include mouse T3/T18-encoding TL antigens, mouse T1/T16, and rat RT1.P1/P2 pseudogenes, revealed the presence of a clear demarcation between the type-specific and TL-specific sequences at intron 3. This finding suggests that recombination plays an important role in creating the TL family genes in rodents. Characteristic features of TL, such as a low level of polymorphism and linkage to the major histocompatibility complex, were also observed in the rat. On the other hand, rat CD1 molecules were expressed at a high level on the surface of thymocytes. Absence of authentic TL antigens and thymic expression of CD1d molecules in the rat suggest the plasticity and conservation of class Ib genes in rodent evolution. Functions of TL may be substituted with CD1 or other class Ib molecules expressed by rat thymus. Received: 16 December 1996 / Revised: 11 March 1997     

A family of Tc1-like transposons from the genomes of fishes and frogs: evidence for horizontal transmission.

Tc1-like transposons are very widely distributed within the genomes of animal species. They consist of an inverted repeat sequence flanking a transposase gene with homology to the mobile DNA element, Tc1 of the nematode Caenorhabditis elegans. These elements seem particularly to infest the genomes of fish and amphibian species where they can account for 1% of the total genome. However, all vertebrate Tc1-like elements isolated so far are non-functional in that they contain multiple frameshifts within their transposase coding regions. Here I describe a Tc1-like transposon (PPTN) from the genome of a marine flatfish species (Pleuronectes platessa) which bears conserved inverted repeats flanking an apparently intact transposase gene. Closely related, although degenerate, Tc1-like transposons were also isolated from the genomes of Atlantic salmon (SSTN, Salmo salar) and frog (RTTN, Rana temporaria). Consensual nucleic acid sequences were derived by comparing several individual isolates from each species and conceptual amino acid sequences were thence derived for their transposases. Phylogenetic analysis of these sequences with previously isolated Tc1-like transposases shows that the elements from plaice, salmon and frog comprise a new subfamily of Tc1-like transposons. Each member is distinct in that it is not found in the genomes of the other species tested. Plaice genomes contain about 300 copies of PPTN, salmon 1200 copies of SSTN and frog genomes about 500 copies of RTTN. The presence of these closely related elements in the genomes of fish and frog species, representing evolutionary lines, which diverged more than 400 million years ago, is not consistent with a vertical transmission model for their distributions.     

Molecular cloning and characterization of the cDNA encoding the largest subunit of mouse RNA polymerase I

We describe the cloning and analysis of mRPA1, the cDNA encoding the largest subunit (RPA194) of murine RNA polymerase I. The coding region comprises an open reading frame of 5151 bp that encodes a polypeptide of 1717 amino acids with a calculated molecular mass of 194 kDa. Alignment of the deduced protein sequence reveals homology to the β′ subunit of Escherichia coli RNA polymerase in the conserved regions a-h present in all large subunits of RNA polymerases. However, the overall sequence homology among the conserved regions of RPA1 from different species is significantly lower than that observed in the corresponding β′-like subunits of class II and III RNA polymerase. We have raised two types of antibodies which are directed against the conserved regions c and f of RPA194. Both antibodies are monospecific for RPA194 and do not cross-react with subunits of RNA polymerase II or III. Moreover, these antibodies immunoprecipitate RNA polymerase I both from murine and human cell extracts and, therefore, represent an invaluable tool for the identification of RNA polymerase I-associated proteins. Received: 27 January 1997 / Accepted: 1 April 1997     

Compositional Correlations in the Chicken Genome

This paper analyses the compositional correlations that hold in the chicken genome. Significant linear correlations were found among the regions studied—coding sequences (and their first, second, and third codon positions), flanking regions (5′ and 3′), and introns—as is the case in the human genome. We found that these compositional correlations are not limited to global GC levels but even extend to individual bases. Furthermore, an analysis of 1037 coding sequences has confirmed a correlation among GC₃, GC₂, and GC₁. The implications of these results are discussed. Received: 9 December 1998 / Accepted: 18 April 1999