Functional characteristics of a highly specific integrase encoded by an LTR-retrotransposon

Background

The retroviral Integrase protein catalyzes the insertion of linear viral DNA into host cell DNA. Although different retroviruses have been shown to target distinctive chromosomal regions, few of them display a site-specific integration. ZAM, a retroelement from Drosophila melanogaster very similar in structure and replication cycle to mammalian retroviruses is highly site-specific. Indeed, ZAM copies target the genomic 5′-CGCGCg-3′ consensus-sequences. To enlighten the determinants of this high integration specificity, we investigated the functional properties of its integrase protein denoted ZAM-IN.

Principal Findings

Here we show that ZAM-IN displays the property to nick DNA molecules in vitro. This endonuclease activity targets specific sequences that are present in a 388 bp fragment taken from the white locus and known to be a genomic ZAM integration site in vivo. Furthermore, ZAM-IN displays the unusual property to directly bind specific genomic DNA sequences. Two specific and independent sites are recognized within the 388 bp fragment of the white locus: the CGCGCg sequence and a closely apposed site different in sequence.

Conclusion

This study strongly argues that the intrinsic properties of ZAM-IN, ie its binding properties and its endonuclease activity, play an important part in ZAM integration specificity. Its ability to select two binding sites and to nick the DNA molecule reminds the strategy used by some site-specific recombination enzymes and forms the basis for site-specific integration strategies potentially useful in a broad range of genetic engineering applications.     

Genomic distribution of the retrovirus-like element ZAM in Drosophila

The mobile element ZAM, recently identified in Drosophila melanogaster, is similar in structure and coding potential to vertebrate retroviruses. In this paper, we analyze the insertional and structural polymorphism of this element and show that members of this family appear to have a long evolutionary history in the genome of Drosophila. It is present in all the species of the D. melanogaster subgroup and in more distantly related species like D. takahashii, D. ananassae, or D. virilis but in a lower copy number or with a lower homology. Two categories of strains have been previously identified in D. melanogaster: strains with a high copy number of ZAM and strains with a low copy number. Here, we show that ZAM is at least in a low copy number in each tested strain of the species analyzed. The study of ZAM's genomic distribution by FISH mapping analysis to salivary gland polytene chromosomes or on mitotic chromosomes indicates that most of the insertion sites of ZAM elements are associated with the constitutive heterochromatin regardless of the ZAM copy number. In addition, our results suggest that multiple ZAM elements are present at the insertion sites visualized by in situ experiments. This revised version was published online in August 2006 with corrections to the Cover Date.     

Histological changes of cervical tumours following Zanthoxylum acanthopodium DC treatment,and its impact on cytokine expression

Cervical cancer is the second most lethal cancer in Indonesia, behind breast cancer. One of the reasons cancer cells are difficult to treat is that the immune system is sometimes unable to recognise them as foreign. Cytokinin therapy is carried out so that the immune system can strengthen its response to cancer cells, with the aim of slowing or stopping the development of malignant cells. Zanthoxylum acanthopodium DC, also known as andaliman, is an Indonesian herb and a member of the Rutaceae family. It is rich in antioxidants and has anti-inflammatory and anti-cancer properties. The current study aimed to investigate the histological changes and changes in the expression of cytokines, such as IL-10, IL1β, VEGFR1, and TGFβ1, associated with andaliman treatment. Sample tissues and serums extracted from cervical cancer rat models were used. Rats were divided into five groups: a control group (C?), cancer model group (C+), cancer with a dose of Z. acanthopodium methanolic extract (ZAM) 100 mg/body weight (BW) ZAM (ZAM100), cancer with a dose of ZAM 200 mg/BW ZAM (ZAM200), and cancer with a dose of ZAM 400 mg/BW ZAM (ZAM400). Treatment lasted for 1 month. Blood samples were prepared for ELISA analysis, and cervical tissue was stained for immunohistochemistry using antibodies against IL-10, IL-1β, VEGFR1, and TGFβ1. Administration of ZAM had no significant effect on rat body weight and cervical organs (p > 0.05). However, it impacted haematological parameters in rats with cervical cancer (p < 0.05). Elevated malondialdehyde levels may be linked to superoxide dismutase deficiency in tumour tissue. ZAM significantly decreased the expression of IL1β, TGFβ1, and VEGFR1 (p < 0.01), while it increased the expression of IL-10. Therefore, ZAM may be a potential target for molecular cytokine therapy for cervical cancer.     

Evidences for insulator activity of the 5′UTR of the Drosophila melanogaster LTR-retrotransposon ZAM

Insulators or chromatin boundary are DNA elements that organize the genome into discrete regulatory domains by limiting the actions of enhancers and silencers through a “positional-blocking mechanism”. The role of these sequences, both in modulation of the enhancers range of action (enhancer–promoter selectivity) and in the organization of the chromatin in functional domains, is emerging strongly in these last years. There is a great interest in identifying new insulators because deeper knowledge of these elements can help understand how cis-regulatory elements coordinate the expression of the target genes. However, while insulators are critical in gene regulation and genome functioning, only a few have been reported so far. Here, we describe a new insulator sequence that is located in the 5′UTR of the Drosophila retrotransposon ZAM. We have used an “enhancer–blocking assay” to test its effects on the activity of the enhancer in transiently transfected Drosophila S2R⁺ cell line. Moreover, we show that the new insulator is able to affect significantly the enhancer–promoter interaction in the human cell line HEK293. These results suggest the possibility of employing the ZAM insulator in gene transfer protocols from insects to mammals in order to counteract the transgene positional and genotoxic effects.     

Translocation of a 190-kb mitochondrial fragment into rice chromosome 12 followed by the integration of four retrotransposons

A 190-kb mitochondrial DNA sequence interrupted by seven foreign DNA segments was identified in rice chromosome 12. This fragment is the largest mitochondrial fragment translocated into the rice nuclear genome. The sequence is composed of a 190-kb segment of mitochondrial origin corresponding to 38.79% of the mitochondrial genome, 45 kb comprising four segments of retrotransposon origin, and 13 kb comprising three segments of unknown origin. The 190-kb sequence shows more than 99.68% similarity to the current mitochondrial sequence, suggesting that its integration into the nucleus was quite recent. Several sequences in the 190-kb segment have been rearranged relative to the current mitochondrial sequence, suggesting that the past and present arrangements of the mitochondrial genome differ. The four retrotransposons show no mutual sequence similarity and are integrated into different locations, suggesting that their integration events were independent, frequent, and quite recent. A fragment of the mitochondrial genome present in the nuclear genome, such as the 248-kb sequence characterized in this study, is a good relic with which to investigate the past mitochondrial genome structure and the behavior of independent retrotransposons during evolution.     

Life cycle of an endogenous retrovirus, ZAM, in Drosophila melanogaster

ZAM is an env-containing member of the gypsy family of retrotransposons that represents a possible retrovirus of invertebrates. In this paper, we traced ZAM mobilization to get information about a potential path a retroelement may take to reach the germ line of its host. In situ hybridization on whole-mount tissues and immunocytochemistry analyses with antibodies raised against ZAM Gag and Env proteins have shown that all components necessary to assemble ZAM viral particles, i.e., ZAM full-length RNAs and Gag and Env polypeptides, are coexpressed in a small set of follicle cells surrounding the oocyte. By electron microscopy, we have shown that ZAM viral particles are indeed detected in this somatic lineage of cells, which they leave and enter the closely apposed oocyte. Our data provide evidence that the vesicular traffic and yolk granules in the process of vitellogenesis play an important role in ZAM transfer to the oocyte. Our data support the possibility that vitellogenin transfer to the oocyte may help a retroelement pass to the germ line with no need of its envelope product.     

Whole genome sequencing of a novel temperate bacteriophage of P. aeruginosa: evidence of tRNA gene mediating integration of the phage genome into the host bacterial chromosome

Whole genome sequencing of a novel Pseudomonas aeruginosa temperate bacteriophage PaP3 has been completed. The genome contains 45 503 bp with GC content of 52.1%, without more than 100 bp sequence hitting homologue in all sequenced phage genomes. A total of 256 open reading frames (ORFs) are found in the genome, and 71 ORFs are predicated as coding sequence (CDS). All 71 CDS are divided into the two opposite direction groups, and both groups meet at the bidirectional terminator site locating the near middle of the genome. The genome is dsDNA with 5'-protruded cohesive ends and cohesive sequence is 'GCCGGCCCCTTTCCGCGTTA' (20 mer). There are four tRNA genes (tRNA(Asn), tRNA(Asp), tRNA(Tyr) and tRNA(Pro)) clustering at the 5'-terminal of the genome. Analysis of integration site of PaP3 in the host bacterial genome confirmed that the core sequence of (GGTCGTAGGTTCGAATCCTAC-21mer) locates at tRNA(Pro) gene within the attP region and at tRNA(Lys) gene in the attB region. The results indicated that 3'-end of tRNA(Pro) gene of the PaP3 genome is involved in the integration reaction and 5'-end of tRNA(Lys) gene of host bacteria genome is hot spot of the integration.     

In vitro HIV-1 selective integration into the target sequence and decoy-effect of the modified sequence

Although there have been a few reports that the HIV-1 genome can be selectively integrated into the genomic DNA of cultured host cell, the biochemistry of integration selectivity has not been fully understood. We modified the in vitro integration reaction protocol and developed a reaction system with higher efficiency. We used a substrate repeat, 5'-(GTCCCTTCCCAGT)(n)(ACTGGGAAGGGAC)(n)-3', and a modified sequence DNA ligated into a circular plasmid. CAGT and ACTG (shown in italics in the above sequence) in the repeat units originated from the HIV-1 proviral genome ends. Following the incubation of the HIV-1 genome end cDNA and recombinant integrase for the formation of the pre-integration (PI) complex, substrate DNA was reacted with this complex. It was confirmed that the integration selectively occurred in the middle segment of the repeat sequence. In addition, integration frequency and selectivity were positively correlated with repeat number n. On the other hand, both frequency and selectivity decreased markedly when using sequences with deletion of CAGT in the middle position of the original target sequence. Moreover, on incubation with the deleted DNAs and original sequence, the integration efficiency and selectivity for the original target sequence were significantly reduced, which indicated interference effects by the deleted sequence DNAs. Efficiency and selectivity were also found to vary discontinuously with changes in manganese dichloride concentration in the reaction buffer, probably due to its influence on the secondary structure of substrate DNA. Finally, integrase was found to form oligomers on the binding site and substrate DNA formed a loop-like structure. In conclusion, there is a considerable selectivity in HIV-integration into the specified sequence; however, similar DNA sequences can interfere with the integration process, and it is therefore difficult for in vivo integration to occur selectively in the actual host genome DNA.     

Transformation of Hansenula polymorpha, Pichia guilliermondii, Williopsis saturnus yeasts by a plasmid carrying the ADE2 gene of Saccharomyces cerevisiae

Red adenine-dependent mutants of Hansenula polymorpha, Pichia guilliermondii, Williopsis saturnus yeasts have been transformed by the plasmid pYE (ADE2) 2 DNA containing ADE2 gene from Saccharomyces cerevisiae. The analysis of two P. guilliermondii Ade+-transformants has revealed the integration of pYE (ADE2)2 sequence into the recipient strain genome and partial restoration of the deficient function.     

Fragments of plastid DNA in the nuclear genome of tomato: prevalence, chromosomal location, and possible mechanism of integration

Summary We have undertaken a systematic search for plastid DNA sequences integrated in the tomato nuclear genome, using heterologous probes taken from intervals of a plastid DNA region spanning 58 kb. A total of two short integrates (202 and 141 nucleotides) were isolated and mapped to chromosomes 9 and 5, respectively. The nucelotide sequence of the integrates and that of the flanking regions were determined. The integration sites contain direct repeat elements similar in position (but not in length or sequence) to the direct repeats previously observed with another plastid integrate in the tomato nuclear genome. Based on these results, a model for the process of movement and integration of plastid sequences into the nuclear genome is discussed.     

The rice nuclear genome continuously integrates, shuffles, and eliminates the chloroplast genome to cause chloroplast-nuclear DNA flux

Plastid DNA fragments are often found in the plant nuclear genome, and DNA transfer from plastids to the nucleus is ongoing. However, successful gene transfer is rare. What happens to compensate for this? To address this question, we analyzed nuclear-localized plastid DNA (nupDNA) fragments throughout the rice (Oryza sativa ssp japonica) genome, with respect to their age, size, structure, and integration sites on chromosomes. The divergence of nupDNA sequences from the sequence of the present plastid genome strongly suggests that plastid DNA has been transferred repeatedly to the nucleus in rice. Age distribution profiles of the nupDNA population, together with the size and structural characteristics of each fragment, revealed that once plastid DNAs are integrated into the nuclear genome, they are rapidly fragmented and vigorously shuffled, and surprisingly, 80% of them are eliminated from the nuclear genome within a million years. Large nupDNA fragments preferentially localize to the pericentromeric region of the chromosomes, where integration and elimination frequencies are markedly higher. These data indicate that the plant nuclear genome is in equilibrium between frequent integration and rapid elimination of the chloroplast genome and that the pericentromeric regions play a significant role in facilitating the chloroplast-nuclear DNA flux.     

COM,a heterochromatic locus governing the control of independent endogenous retroviruses from Drosophila melanogaster

ZAM and Idefix are two endogenous retroviruses whose expression is tightly controlled in Drosophila melanogaster. However, a line exists in which this control has been perturbed, resulting in a high mobilization rate for both retroviruses. This line is called the U (unstable) line as opposed to the other S (stable) lines. In the process of analyzing this control and tracing the genetic determinant involved, we found that ZAM and Idefix expression responded to two types of controls: one restricting their expression to specific somatic cells in the ovaries and the other silencing their expression in S lines but permitting it in U lines. While studying this second control in the U or S backgrounds, we found that the heterochromatic locus 20A2-3 on the X chromosome, previously implicated in the regulation of a third retroelement, gypsy, also controlled both ZAM and Idefix. We report here that genetic determinants necessary for endogenous retrovirus silencing occur at the 20A2-3 locus, which we call COM, for centre organisateur de mobilisation. We propose that if this point of control becomes mutated during the life of the fly, it may trigger processes reactivating dormant endogenous retroviruses and thus bring about sudden bursts of mobilization.     

Cloning of the DNA fragment of a transgenic mouse containing an integrated recombinant plasmid

The "plasmid rescue" method has been used to isolate the recombinant plasmid pMA3 fragment and flanking sequences from the transgenic mouse genome containing the fragment in integrated form. The "rescued" plasmid, pMAR1, lacks all virus sequences and retains only those regions of pBR322 that are responsible for the plasmid replication and Escherichia coli ampicillin resistance. The plasmid pMA3 deletion has occurred at its integration into the mouse genome after microinjection into the zygote. The integrated fragment of the plasmid is adjacent to the genome repeated sequence that is highly conservative in evolution.     

Serial Alu sequence transposition interrupting a human B creatine kinase pseudogene.

We have isolated, sequenced, and characterized a single-copy B creatine kinase pseudogene. The chromosomal assignment of this gene is 16p13 and a unique sequence probe from this locus detects EcoRI restriction fragment length polymorphisms of 7.8 and 5.4 kb. In 26 unrelated individuals, the frequencies for the 7.8- and 5.4-kb B creatine kinase pseudogene alleles were calculated to be 17.3 and 82.7%, respectively. The B creatine kinase pseudogene is interrupted by a 904-bp DNA insertion composed of three Alu repeat sequences in tandem flanked by an 18-bp direct repeat, derived from the pseudogene sequence. Nucleotide sequence analysis of the Alu elements suggests that the Alu sequences were incorporated into this locus in three separate integration events. Several complex clustered Alu repeat sequences without defined integration borders have been previously identified at different genomic loci. This is the first evidence that complex tandem Alu elements can integrate in an apparently serial manner in the human genome and supports the contention that Alu repeats integrate nonrandomly into the human genome.     

MapLinker: a software tool that aids physical map-linked whole genome shotgun assembly

MapLinker is an analysis tool, as well as a browsing interface, that facilitates integration of whole genome sequence assembly with a clone-based physical map. Using the locations of sequence markers on the physical map, MapLinker generates a tentative sequence map of the genome that serves to verify the map and to guide genome-wide finishing.