A comparison of genomes of sheep pox virus isolates

Sheep pox virus DNAs from field isolates and vaccine strains were analysed by digestion with the restriction enzymes PstI and Bam HI. The restriction profiles generated by these enzymes show very close relationship between isolates from different geographical regions. The patterns of isolates can be grouped by the animal of origin (e.g. a cattle pox isolate can be differentiated from sheep pox isolate). The molecular weights of the genomes of different isolates varied from 91 to 94 MDa. The restriction enzyme patterns can be used as a molecular epidemiological tool for differentiating field and vaccine isolates.     

Polyclonal B-lymphocyte activation of sheep by Mycobacterium phlei against sheep pox virus.

A trypsinized preparation of Mycobacterium phlei, non specific stimulator of immunity (NSI), and Sheep Pox Virus (SPV) were inoculated in different groups of sheep to activate B-lymphocytes and induce SPV neutralizing substance(s). NSI sensitized sheep B-lymphocytes in the presence of NSI or lymphokine elaborated SPV neutralizing substance(s). The SPV sensitized B-lymphocytes also mediated such neutralizing substance(s). Healthy control sheep B-lymphocytes failed to show any appreciable amount of viral neutralizing substance. However, a significant virus neutralizing substance(s) was detected when healthy sheep B-lymphocytes were cultured in presence of NSI antigen along with lymphokines.     

Identification of hypervariable and conservative fragments of Listeria genome

The computer analysis revealed hypervariable and highly conservative fractions in the genes of Gram-positive bacteria of the Listeria genus. As a result of analysis of gene iap coding protein p60, PCR based test systems for detection of 6 Listeria species, L. monocytogenes, L. seeligeri, L. ivanovii, L. innocua, L. grayi and L. welshimeri have been developed. Species-specific and conservative gene fragments coding Listeria pathogenicity factors, listeriolysin and cytolysin, were detected. The sets of primers for detection and gene typing of L. monocytogenes, L. seeligeri and L. ivanovii containing cytolysin have been made. The gene typing of Listeria may be carried out in one reaction with the use of multiplex PCR: amplified fragments for different Listeria species differ in the length of the amplified product. The developed sets of primers have a 95-100% degree of homology and may be recommended for the detection and gene typing of Listeria.     

Sympatric genome size variation and hybridization of four oak species as determined by flow cytometry genome size variation and hybridization

The Quercus species serve as a powerful model for studying introgression in relation to species boundaries and adaptive processes. Coexistence of distant relatives, or lack of coexistence of closely relative oak species, introgression may play a role. In the current study, four closely related oak species were found in Zijinshan, China. We generated a comprehensive genome size (GS) database for 120 individuals of four species using flow cytometry‐based approaches. We examined GS variability within and among the species and hybridization events among the four species. The mean GSs of Q. acutissima, Q. variabilis, Q. fabri, and Q. serrata var. brevipetiolata were estimated to be 1.87, 1.92, 1.97, and 1.97 pg, respectively. The intraspecific and interspecific variations of GS observed among the four oak species indicated adaptation to the environment. Hybridization occurred both within and between the sections. A hybrid offspring was produced from Q. fabri and Q. variabilis, which belonged to different sections. The GS evolutionary pattern for hybrid species was expansion. Hybridization between the sections may be affected by habitat disturbance. This study increases our understanding of the evolution of GS in Quercus and will help establish guidelines for the ecological protection of oak trees.     

Nuclear genome size variation in fleshy-fruited Neotropical Myrtaceae

In Myrtaceae, reports regarding the nuclear DNA content are scarce. The aim of this study is to present genome size data for fleshy-fruited Myrteae, and to test their relation with chromosome number and ploidy, the available data for cytoevolutionary studies in Myrtaceae. Thirty species out of ten genera were investigated for chromosome number and genome size using flow cytometry. Twenty-eight species were diploid with 2n = 2x = 22 and two species were tetraploid with 2n = 4x = 44. All genome sizes measured are new. Among the diploid species, a gradual and small variation in 2C-values (0.486 pg in Gomidesia schaueriana to 0.636 pg in Eugenia multicostata) was observed, whereas the tetraploid genomes of Psidium acutangulum and P. cattleianum had about twice as much DNA (1.053 and 1.167 pg, respectively). The total interspecific variation of C-values was 2.45-fold. The fleshy-fruited Myrteae have smaller holoploid genomes than the capsular-fruited Eucalypteae and Melaleuceae.     

Cloning and integration of DNA fragments in human cells via the inverted terminal repeats of the adeno-associated virus 2 genome.

In current systems for molecular cloning of eukaryotic genes, bacterial cells are routinely utilized as intermediate hosts. We investigated the possibility of using a viral system for cloning DNA fragments independent of bacterial cell usage. In this report, we provide an alternative approach for molecular cloning of DNA fragments in eukaryotic cells by utilizing the inverted terminal repeats (ITRs) of the genome of a nonpathogenic human parvovirus, the adeno-associated virus 2 (AAV). We constructed a series of chimeric linear duplex DNA molecules, ranging in length from 1.8 to 7.2 kb, containing the cruciform structures of AAV-ITRs at both ends. These 'no-end' (NE) DNA structures, when transfected into adenovirus-infected human cells in the presence of AAV replication proteins (Rep), underwent DNA replication. Furthermore, in the presence of AAV capsid proteins (Cap), all replicated DNA molecules of less than 5.0 kb were packaged into mature, biologically active AAV progeny virions. When a chimeric NE DNA (NE-neo) containing a gene (neo) encoding resistance to neomycin was transfected into human cells, neoR clones could be readily isolated in the presence of G418 (Geneticin). Southern-blot analysis of genomic DNA of several independently isolated neoR clones suggested stable integration of the NE-neo DNA into the host chromosomal DNA. AAV-ITRs, therefore, offer an alternative system for molecular cloning, as well as packaging of DNA fragments in mammalian cells independent of bacterial cell usage.     

Mechanisms of recent genome size variation in flowering plants

BACKGROUND AND AIMS: Plant nuclear genomes vary tremendously in DNA content, mostly due to differences in ancestral ploidy and variation in the degree of transposon amplification. These processes can increase genome size, but little is known about mechanisms of genome shrinkage and the degree to which these can attenuate or reverse genome expansion. This research focuses on characterizing DNA removal from the rice and Arabidopsis genomes, and discusses whether loss of DNA has effectively competed with amplification in these species. METHODS: Retrotransposons were analyzed for sequence variation within several element families in rice and Arabidopsis. Nucleotide sequence changes in the two termini of individual retrotransposons were used to date their time of insertion. KEY RESULTS: An accumulation of small deletions was found in both species, caused by unequal homologous recombination and illegitimate recombination. The relative contribution of unequal homologous recombination compared to illegitimate recombination was higher in rice than in Arabidopsis. However, retrotransposons are rapidly removed in both species, as evidenced by the similar apparent ages of intact elements (most less than 3 million years old) in these two plants and all other investigated plant species. CONCLUSIONS: Differences in the activity of mechanisms for retrotransposon regulation or deletion generation between species could explain current genome size variation without any requirement for natural selection to act on this trait, although the results do not preclude selection as a contributing factor. The simplest model suggests that significant genome size variation is generated by lineage-specific differences in the molecular mechanisms of DNA amplification and removal, creating major variation in nuclear DNA content that can then serve as the substrate for fitness-based selection.     

Coordination between terminal variation of the viral genome and insect microRNAs regulates rice stripe virus replication in insect vectors

Maintenance of a balance between the levels of viral replication and selective pressure from the immune systems of insect vectors is one of the prerequisites for efficient transmission of insect-borne propagative phytoviruses. The mechanism regulating the adaptation of RNA viruses to insect vectors by genomic variation remains unknown. Our previous study demonstrated an extension of the 3’-untranslated terminal region (UTR) of two genomic segments of rice stripe virus (RSV). In the present study, a reverse genetic system for RSV in human cells and an insect vector, the small brown planthopper Laodelphax striatellus, was used to demonstrate that the 3’-terminal extensions suppressed viral replication in vector insects by inhibiting promoter activity due to structural interference with the panhandle structure formed by viral 3’- and 5’-UTRs. The extension sequence in the viral RNA1 segment was targeted by an endogenous insect microRNA, miR-263a, which decreased the inhibitory effect of the extension sequence on viral promoter activity. Surprisingly, the expression of miR-263a was negatively regulated by RSV infection. This elaborate coordination between terminal variation of the viral genome and endogenous insect microRNAs controls RSV replication in planthopper, thus reflecting a distinct strategy of adaptation of phytoviruses to insect vectors.     

Identification of Plum pox virus pathogenicity determinants in herbaceous and woody hosts

Plum pox virus (PPV) is a member of the genus Potyvirus that is able to infect a large variety of plant species, including trees of the genus Prunus, its natural host. When some PPV isolates are propagated for an extended time in herbaceous plants, their ability to infect trees is reduced. The molecular basis of this change in host infectivity is poorly understood. We report the construction of hybrid viruses from cDNA clones of two D-strain isolates of PPV, PPV-D and PPV-R, which differ in their host range. PPV-D can infect GF305 peach seedlings efficiently, however, it is unable to infect Nicotiana clevelandii plants. Conversely, PPV-R infects N. clevelandii, but not GF305 peach seedlings. The analyses of the hybrid viruses showed that, although determinants of PPV pathogenicity are extensively spread throughout the PPV genome, the 3' terminal region of the PPV-R genome, including the 3' noncoding region and the coding regions for the coat protein (CP), NIb, and part of NIa protein, is sufficient to confer infectivity of N. clevelandii in a PPV-D background. Our data demonstrate a high concentration of amino acid substitutions in the CP and a host-specific effect of a deletion at the N terminus of this protein in PPV pathogenicity in peach and N. clevelandii infectivity experiments. These results suggest that relevant host specificity determinants are located in the N-terminal region of the CP. The analyses of the PPV-R and PPV-D chimeras also showed that key host-specific pathogenicity determinants lie in the 5' terminal third of the PPV genome, a region that spans proteins P1, HCPro, and P3. The selection of mutations in only a few specific residues in proteins P1, P3, and 6K1 after partial adaptation of a chimeric virus (BD-GFP) to N. clevelandii further suggests a relevant role for these proteins in host adaptation.     

Identification of the avian myeloblastosis virus genome. I. Identification of restriction endonuclease fragments associated with acute myeloblastic leukemia.

The proviral DNA of chicken peripheral blood leukemic myeloblasts was analyzed by restriction endonuclease digestion and Southern blotting. Two restriction endonuclease-generated fragments, an EcoRI 2.2-megadalton (Md) and a HindIII 2.6-Md fragment, were present upon enzyme cleavage of all leukemic myeloblast DNA preparations in addition to endogenous or helper-specific fragments. Neither of these fragments was derived from viral DNA of the two known myeloblastosis-associated viruses (MAV-1 and MAV-2). In contrast, DNA similarly treated from the erythrocytes of leukemic chickens showed only small amounts of the two avian myeloblastosis virus-specific fragments, whereas the helper virus-specific fragments were present in the amount seen in MAV-producing chicken embryo fibroblasts. The appearance of the EcoRI 2.2-Md and HindIII 2.6-Md specific fragments in all leukemic myeloblast DNA preparations indicates they are presumably part of the leukemogenic genome that must be present to induce acute myeloblastic leukemia.     

Karyotype diversity and genome size variation in Neotropical Maxillariinae orchids

• Orchidaceae is a widely distributed plant family with very diverse vegetative and floral morphology, and such variability is also reflected in their karyotypes. However, since only a low proportion of Orchidaceae has been analysed for chromosome data, greater diversity may await to be unveiled. Here we analyse both genome size (GS) and karyotype in two subtribes recently included in the broadened Maxillariinea to detect how much chromosome and GS variation there is in these groups and to evaluate which genome rearrangements are involved in the species evolution.
• To do so, the GS (14 species), the karyotype – based on chromosome number, heterochromatic banding and 5S and 45S rDNA localisation (18 species) – was characterised and analysed along with published data using phylogenetic approaches.
• The GS presented a high phylogenetic correlation and it was related to morphological groups in Bifrenaria (larger plants – higher GS). The two largest GS found among genera were caused by different mechanisms: polyploidy in Bifrenaria tyrianthina and accumulation of repetitive DNA in Scuticaria hadwenii. The chromosome number variability was caused mainly through descending dysploidy, and x=20 was estimated as the base chromosome number.
• Combining GS and karyotype data with molecular phylogeny, our data provide a more complete scenario of the karyotype evolution in Maxillariinae orchids, allowing us to suggest, besides dysploidy, that inversions and transposable elements as two mechanisms involved in the karyotype evolution. Such karyotype modifications could be associated with niche changes that occurred during species evolution.

     

Generation and characterisation of functional recombinant antibody fragments against RNA replicase NIb from plum pox virus

A monoclonal antibody (mAb 2A) able to react against the RNA replicase NIb from plum pox virus (PPV) was obtained and used for generating a specific scFv fragment. The VH and VL coding sequences were cloned and expressed as a fusion scFv protein to alkaline phosphatase. This fusion protein was able to recognise viral NIb in both Western and tissue-print ELISA blots. The affinity and specificity of scFv2A for NIb was similar to that of the parental mAb and the region YLEAFY from PPV-NIb was identified by PEPSCAN assay as the putative epitope. Isolated VH domains from scFv2A were also expressed as fusion to alkaline phosphatase. However, their ability to react against NIb was greatly altered. scFv2A fragments were transiently expressed in the cytosol of Nicotiana benthamiana and although they accumulated to low levels, inhibition-ELISA results indicated that they retained antigen-binding activity.