A large deletion in the plastid DNA of the holoparasitic flowering plant Cuscuta reflexa concerning two ribosomal proteins (rpl2, rpl23), one transfer RNA (trnI) and an ORF 2280 homologue

We have determined the nucleotide sequence of a 5.3-kb region of the plastid DNA (ptDNA) from the heterotrophic holoparasitic plant Cuscuta reflexa. The cloned area contains genes for the D1-protein (32-kDa protein; psbA), tRNA^His (trnH), ORF 740 (homologous to ORF 2280 from Nicotiana tabacum), ORF 77 (homologous to ORF 70), tRNA^Leu (trnL) and a hypothetical ORF 55 which has no homology to any known gene among higher plants. This 5.3-kb area is colinear with a 12.4-kb region of tobacco ptDNA and has therefore undergone several deletions totalling 7.1 kb. Most of the missing nucleotides belong to one large deletion in the ptDNA of C. reflexa of approximately 6.5 kb. This deletion involves two ribosomal protein genes, rpl2 and rpl23, as well as the transfer RNA for Isoleucin (trnI) and a region encoding 1540 amino-acid residues of an ORF 2280 homologue, as compared to tobacco chloroplast DNA. This is remarkable since the remaining genes, especially the psbA gene, are highly conserved in C. reflexa. Furthermore, we found that the expression of the psbA gene is in the same range as in the autotrophic Ipomoea purpurea which belongs to the same family as Cuscuta (Convolvulaceae). Here we hypothesize a total loss of rpl2 and rpl23 in the entire genome of C. reflexa. The phylogenetic position of, and the evolutionary change of ptDNA from, Cuscuta are discussed.     

Similarity between putative ATP-binding sites in land plant plastid ORF2280 proteins and the FtsH/CDC48 family of ATPases

Plastid ORF2280 proteins from five species of land plant are shown to have limited amino-acid sequence similarity to a family of proteins that includes the yeast CDC48, SEC18, PAS1 and SUG1 proteins, three subunits of the mammalian 26S protease, and the Escherichia coli FtsH protein. These proteins all contain one or two ATPase domains and many are involved in cell division, transport of proteins across membranes, or proteolysis. Similarity with the ORF2280 proteins is restricted to a single region of about 130 amino acids that contains: (1) sequences resembling a nucleotide binding site but lacking two normally conserved residues, and (2) a downstream conserved motif with the consensus sequence VIX₂TX₂PX₃DPALX₂P. Most of the rest of ORF2280 is very poorly conserved among land plants, even though other family members such as CDC48 have slow rates of protein sequence evolution. In contrast, a protein encoded by plastid DNA of the rhodophyte alga Porphyra purpurea is very similar to E. coli FtsH. Phylogenetic analysis suggests that the red and green plastid genes are not true homologues (orthologues) but distinct members of an ancient gene family.     

Characterization of the Varicella-zoster virus ORF25 gene product: pORF25 interacts with multiple DNA encapsidation proteins

The Herpesviridae contain a group of highly conserved proteins designated the Herpes UL33 Superfamily (pfam03581). The Varicella-zoster virus (VZV) homolog, encoded by the ORF25 gene, was used to generate a GST-ORF25 fusion protein. Purified GST-ORF25 was used to generate a polyclonal rabbit antiserum that detected the 17.5 kDa ORF25 protein (pORF25) in VZV infected cells. In pull-down assays, GST-ORF25 interacted with a number of encapsidation proteins including ORF30, ORF42 (the second exon of ORF45/42) and itself. The self-interaction was confirmed via a yeast two-hybrid assay. Additionally, pORF25 and pORF30 were shown to co-immunoprecipitate from VZV infected cells. Our results suggest that pORF25 is part of the trimeric terminase complex for VZV. However, combined with data from previous studies on HSV-1 and Kaposi's sarcoma associated herpesvirus (KSVH), we hypothesize that VZV pORF25 and the Herpes UL33 Superfamily homologs are not encapsidation proteins per se but instead work to bring viral proteins together to form functional complexes.     

Detection and characterisation of two novel vitiviruses infecting <Emphasis Type="Italic">Actinidia</Emphasis>

Two co-infecting novel vitiviruses from Actinidia chinensis were identified from mechanically inoculated Nicotiana occidentalis. Both virus genomes were sequenced and share 64% nucleotide identity. Their overall structure is typical of vitiviruses, with five open reading frames (ORFs) and a polyadenylated 3′ end. Open reading frame 4 (ORF4) encodes the coat protein, the most conserved gene of the vitiviruses, in which they share 75% amino acid identity, 61-68% with grapevine virus B, 55-59% with grapevine virus A, and 37-42% with grapevine virus E. Based on the molecular criteria for species demarcation in the family Betaflexiviridae, these are two novel viruses, tentatively named Actinidia virus A and Actinidia virus B.     

Expression of the large plastid gene,ORF2280, in tomato fruits and flowers

The expression of ORF2280, a large plastid gene of unknown function, was examined in tomato leaves, in a developmental series of tomato fruits, and in tomato flowers. Western blots indicated that much more ORF2280 protein is present in fruits and flowers than in leaves. The most abundant proteins detected, 68 and 59 kDa, are present in about equal amounts in fruits of all stages; they are even more abundant in flowers. A 170-kDa ORF2280 protein is also present in fruit of all stages; it is most abundant in small green fruit. The presence of higher levels of ORF2280 proteins in tomato fruits and flowers indicates that it may have a specialized function in these nonphotosynthetic tissues.     

Identification and sequence analysis of the <Emphasis Type="Italic">Condylorrhiza vestigialis</Emphasis> MNPV <Emphasis Type="Italic">p74</Emphasis> gene

The baculovirus Condylorrhiza vestigialis multiple nucleopolyhedrovirus (CoveMNPV), isolated from C. vestigialis infected larvae in Paraná (Brazil), was identified in our laboratory. A full-length clone was obtained from the CoveMNPV genome, of the gene that encodes the homolog to baculoviral p74, essential for oral infectivity which was then sequenced and characterized. The CoveMNPV p74 gene (GenBank accession number EU919397) contains an ORF of 1935 bp that encodes a deduced protein of 73.61 kDa. The phylogenetic affiliations of the CoveMNPV gene were determined by a heuristic search of 40 aligned baculovirus p74 nucleotide sequences using maximum parsimony (PAUP 4.0b4a). The phylogenetic analysis placed CoveMNPV within lepidopteran nucleopolyhedrovirus (NPV) Group I, Clade A, as being the closest to Choristoneura fumiferana defective NPV.     

Directed deletions in the aflatoxin biosynthesis gene homolog cluster of Aspergillus oryzae

To investigate the structure of the aflatoxin gene cluster in Aspergillus oryzae, 39 strains belonging to this species were examined for the existence of pksA, fas-1A, aflR and vbs, and the results compared with those for ver-1 obtained previously. These five genes are involved in aflatoxin biosynthesis in Aspergillus parasiticus. The strains examined were categorized into three groups; group 1, having the five homologs; 2, having ver-1 and vbs; and 3, having vbs homologs. Long-PCR analysis of the regions between the five homologs in A. oryzae IFO 4135, coupled with Southern-hybridization analysis, shows that those homologs are clustered with the same arrangement as in A. parasiticus. These results suggest that directed deletions of the cluster occur in A. oryzae strains. The possible breakpoints of the deletions in the strains of group 2 and 3 were estimated. Received: 23 April / 8 November 1999     

In-frame length mutations associated with short tandem repeats are located in unassigned open reading frames of Oenothera chloroplast DNA

Chloroplast DNAs were compared between two closely related species in the subsection Munzia of the genus Oenothera. A restriction fragment length dimorphism (273 bp) within the large inverted repeats was localized to an unassigned open reading frame that is homologous to ORF 2280 of tobacco chloroplast DNA. This dimorphism is due to different copy numbers of various short tandem repeated sequences, with each repeat unit specifying an in-frame addition or deletion. Other small length mutations were detected within an unassigned reading frame that appears to be homologous to the tobacco ORF 1244, and in the non-coding sequence upstream of that frame. These insertions and/or deletions are all associated with short direct repeats that lie in tandem.     

The coat protein gene of grapevine leafroll associated closterovirus-3: cloning, nucleotide sequencing and expression in transgenic plants

Summary.  A lambda ZAP II cDNA library was constructed by cloning cDNA prepared from a high molecular weight double-stranded RNA (dsRNA, ca. 18 kb) isolated from grapevine leafroll associated closterovirus-3 (GLRaV-3) infected tissues. This cDNA library was immuno-screened with GLRaV-3 coat protein specific polyclonal and monoclonal antibodies and three immuno-positive clones were identified. Analysis of nucleotide sequences from these clones revealed an open reading frame (ORF) which was truncated at the end; the remainder of this ORF was obtained by sequencing a fourth clone that overlapped with one of the immunopositive clones. A total of 2028 bp was sequenced. The putative GLRaV-3 coat protein ORF, 939 bp, encodes a protein (referred to as p35) with a calculated of 34 866. Multiple alignment of the p35 amino acid sequence with coat protein sequences from other clostero-viruses revealed that the consensus amino acid residues (R and D) of filamentous plant viruses are preserved in the expected locations. The GLRaV-3 coat protein gene was then engineered for sense and antisense expression in transgenic plants. Transgenic Nicotiana benthamiana plants that contain the sense GLRaV-3 coat protein gene produced a 35 kDa protein that reacted with GLRaV-3 antibody in Western blot. Accepted January 10, 1997; Received November 12, 1996     

Nucleotide Sequence and Phylogenetic Analysis of Cucurbit Yellow Stunting Disorder Virus RNA 2

The complete nucleotide sequence of Cucurbit yellow stunting disorder virus (CYSDV) RNA 2, a whitefly (Bemisia tabaci)-transmitted closterovirus with a bi-partite genome, is reported. CYSDV RNA 2 is 7,281 nucleotides long and contains the closterovirus hallmark gene array with a similar arrangement to the prototype member of the genus Crinivirus, Lettuce infectious yellows virus (LIYV). CYSDV RNA 2 contains open reading frames (ORFs) potentially encoding in a 5 to 3 direction for proteins of 5 kDa (ORF 1; hydrophobic protein), 62 kDa (ORF 2; heat shock protein 70 homolog, HSP70h), 59 kDa (ORF 3; protein of unknown function), 9 kDa (ORF 4; protein of unknown function), 28.5 kDa (ORF 5; coat protein, CP), 53 kDa (ORF 6; coat protein minor, CPm), and 26.5 kDa (ORF 7; protein of unknown function). Pairwise comparisons of CYSDV RNA 2-encoded proteins (HSP70h, p59 and CPm) among the closteroviruses showed that CYSDV is closely related to LIYV. Phylogenetic analysis based on the amino acid sequence of the HSP70h, indicated that CYSDV clusters with other members of the genus Crinivirus, and it is related to Little cherry virus-1 (LChV-1), but is distinct from the aphid- or mealybug-transmitted closteroviruses.     

Nucleotide sequence analysis of an infectious laryngotracheitis virus gene corresponding to the US3 of HSV-1 and a unique gene encoding a 67 kDa protein

Summary The DNA sequence of 4005 nucleotides from the Kpnl O and part of Kpnl K fragments in the short unique region of infectious laryngotracheitis virus (ILTV) was determined. The sequence contained two complete and one partial open reading frames (ORFs). The partial ORF was open at the 5 end of the sequence and represented the NH₂-terminal 118 amino acids (aa) of a polypeptide. Its partial predicted protein product exhibited significant homology to the US2 gene product of HSV-1 (herpes simplex virus type 1) and its homologs in other herpesviruses. ORF 2 is 471 aa long and could encode a protein of 53.8 kDa which shared aa homology with the protein kinases encoded by HSV-1 US3 and its gene homologs. Analysis of the ORF 2 aa sequence revealed domains characteristic of protein-serine/threonine (S/T) kinases of cellular and viral origin. The ORF 3 encoded a predicted protein of 601 aa (Mr 67.5 kDa) which exhibited limited homology (18% overall identity) with the UL47 protein (major tegument protein) of HSV-1. Northern (RNA) blot hybridization and metabolic inhibitors were used to characterize the ILTV protein kinase and the 67K mRNAs. The data revealed that protein kinase is a gamma-1 gene encoding a 1.6 kb mRNa, while the 67K ORF is a gamma-2 gene encoding a 2 kb mRNA.     

The role of insertions/deletions in the evolution of the intergenic region betweenpsbA andtrnH in the chloroplast genome

Summary TrnH and the intergenic region betweentrnH andpsbA of the chloroplast genomes of alfalfa (Medicago sativa), Fabaceae, and petunia (Petunia hybrida), Solanaceae, were sequenced and compared to published sequences of that region from other members of those families. A striking feature of these comparisons is the occurrence of insertions/deletions between short, nearly perfect AT-rich direct repeats. The directionality of these mutations in the petunia, tobacco andNicotiana debneyi lineages within the Solanaceae cannot be discerned. However, we present several alternative hypotheses that are consistent with Goodspeed's 1954 evolutionary treatment of the genusNicotiana and family Solanaceae. Within the Fabaceae, the major size differences in the intergenic region between alfalfa, pea and soybean are due to insertions/ deletions between direct repeats. The alfalfa intergenic region has an inverted repeat stem-loop structure of 210 bases directly 5 totrnH. This structure is an insert relative to the liverwort.Marchantia polymorpha. Portions of the insert are found also in pea and soybean as well as in published sequences from other dicots representing diverse orders: petunia, tobacco,N. debneyi (Scrophulariales), spinach (Caryophyllales), and Brassica napus (Capparales). Some of the regions of the insert that are missing in these plants appear to have resulted from deletions of sequences between different imperfect direct repeats within, or 5 to and within the insert. Other deletions are not flanked by repeated sequences. A shrot insert flanked by imperfect direct repeats inB. napus occurs just witin the longer alfalfa insert suggesting that both alfalfa andB. napus have remnants of an even longer insert relative toM. polymorpha. From these analyses we hypothesize the insertion of a stem-loop structure into anM. polymorpha-like ancestral land plant, followd by deletions of sequences, often between different imperfect direct repeats within and upstream of the insert, leading to thepsbA-trnH intergenic sequences represented by the present-day plants examined.     

A chloroplast DNA mutational hotspot and gene conversion in a noncoding region near rbcL in the grass family (Poaceae)

The noncoding DNA region of the chloroplast genome, flanked by the genes rbcL and psaI (ORF36), has been sequenced for seven species of the grass family (Poaceae). This region had previously been observed as a hotspot area for length mutations. Sequence comparison reveals that short duplications, probably resulting from slipped-strand mispairing, account for many small length differences between sequences but that major mutational hotspots are localized in three small areas, two of which show potential secondary structure. Mutation in one of these hotspots appears to be a result of more complex recombination events. All seven species contain a pseudogene for rpl23 and evidence is presented that this pseudogene is being maintained by gene conversion with the functional gene. Different transition/transversion biases and AT contents between the pseudogene and the surrounding noncoding sequences are noted. In the subfamily Panicoideae there is a deletion in which almost 1 kb of ancestral sequence, including the 3 end of the rpl23 pseudogene, has been replaced by a non-homologous 60-base sequence of unknown origin. Two other deletions of almost the same region have occurred in the grass family. The deleted noncoding region has mutational and compositional properties similar to the rbcL coding sequence and the rpl23 pseudogene. The three independent deletions, as well as the pattern of mutation in the localized hotspots, indicate that such noncoding DNA may be misleading for studies of phylogenetic inference.     

Cloning and characterization of the yeast RAD1 homolog gene (mus-38) from Neurospora crassa: evidence for involvement in nucleotide excision repair

A Neurospora crassa gene encoding a product with homology to the Saccharomyces cerevisiae Rad1 nucleotide excision repair (NER) protein was isolated by degenerate PCR. The predicted protein consists of 892 amino acids with a molecular weight of 100.4 kDa, and 32–37% identity to the XPF/ERCC4 protein family. The homolog was mapped to the left arm of linkage group I, the location of the mus-38 gene. Subsequently, gene inactivation and complementation studies identified the RAD1 homolog as mus-38. Immunological assays showed that the mus-18 (UV-specific endonuclease) and mus-38 strains have partial and normal UV-damage excision activities, respectively, but removal of thymine dimers and TC (6-4) photoproducts is abolished in the mus-18 mus-38 double mutant. The double mutant also was synergistically more sensitive to UV than either single mutant. The data suggest that mus-38 may participate in a different NER pathway from that involving the mus-18 gene. Received: 27 November 1997 / 28 January 1998     

In silico analysis of nickel containing superoxide dismutase evolution and regulation

Superoxide dismutases are essential enzymes involved in detoxification of reactive oxygen by dismutation of the superoxide radical anion. A class of nickel containing superoxide dismutases has been described for streptomycetes and cyanobacteria. In silico analysis was used to study the distribution of genes coding for NiSOD in other taxa and to elucidate signals linked to nickel incorporation and maturation of NiSOD. Data mining revealed homologous proteins from actinobacteria, proteobacteria, chlamydiae, and eukarya (green algae) thus allowing a comparison of protein structural elements. Nickel ligands and maturation signals for N‐terminal proteolysis were highly conserved. Genomic sequences surrounding genes encoding NiSOD homologs were compared in order to detect putative accessory enzymes involved in maturation. An endopeptidase gene linked to sodN coding for NiSOD was found in actinobacteria and cyanobacteria, but not in other taxa. The distribution of NiSOD encoding sequences showed four clusters which are not consistent with the phylogeny of the species. In addition, the different genomic context argues for heterologous gene transfer, most likely from actinobacteria to other taxa. In order to address regulation by nickel availability and incorporation into the mature protein, we present first evidence for putative regulatory nucleotide sequences which will be useful in future studies on nickel uptake and incorporation. (© 2009 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)     

Nucleotide sequence andE. coli expression of the coat protein gene of the yellowing strain of soybean dwarf luteovirus

Summary The nucleotide sequence of the coat protein gene of the yellowing (Y) strain of soybean dwarf virus (SbDV) was determined from cloned cDNA. The gene contains 600 nucleotides and encodes a protein of 200 amino acids with a calculated M_r of 22 200. The identity of the open reading frame (ORF) encoding the coat protein was confirmed by expression of anEscherichia coli -galactosidase fusion protein and detection by a dot blot immunoassay. Sequence comparisons of the deduced coat protein amino acids to several luteoviruses demonstrated that the SbDV-Y coat protein ORF shares greatest similarity with bean leaf roll virus (BLRV) (65%).     

Structural evolution and flip-flop recombination of chloroplast DNA in the fern genus Osmunda

Summary The evolution and recombination of chloroplast genome structure in the fern genus Osmunda were studied by comparative restriction site mapping and filter hybridization of chloroplast DNAs (cpDNAs) from three species — 0. cinnamomea, 0. claytoniana and 0. regalis. The three 144 kb circular genomes were found to be colinear in organization, indicating that no major inversions or transpositions had occurred during the approximately 70 million years since their radiation from a common ancestor. Although overall size and sequence arrangement are highly conserved in the three genomes, they differ by an extensive series of small deletions and insertions, ranging in size from 50 bp to 350 by and scattered more or less at random throughout the circular chromosomes. All three chloroplast genomes contain a large inverted repeat of approximately 10 kb in size. However, hybridizations using cloned fragments from the 0. cinnamomea and 0. regalis genomes revealed the absence of any dispersed repeats in at least 50% of the genome. Analysis with restriction enzymes that fail to cleave the 10 kb inverted repeat indicated that each of the three fern chloroplast genomes exists as an equimolar population of two isomeric circles differing only in the relative orientation of their two single copy regions. These two inversion isomers are inferred to result from high frequency intramolecular recombination between paired inverted repeat segments. In all aspects of their general organization, recombinational heterogeneity, and extent of structural rearrangement and length mutation, these fern chloroplast genomes resemble very closely the chloroplast genomes of most angiosperms.     

Genetic features of DNA of <Emphasis Type="Italic">Borrelia miyamotoi</Emphasis> transmitted by <Emphasis Type="Italic">Ixodes persulcatus</Emphasis>

16S rRNA, p66 and glpQ gene fragments in Borrelia miyamotoi transmitted by Ixodes persulcatus are determined and analyzed. Specific nucleotide sequences of every locus have been shown to be identical. The highest homology level for nucleotide sequences of three loci has been shown for the sequences of strains isolated earlier in Japan. An analysis of the P66 protein amino-acid sequence has shown that the locus corresponding to the surface-exposed domain differs considerably from both Borrelia hermsii, a typical member of tick-borne relapsing fever and Borrelia lonestari, the closest related species. Three genetic variants of Borrelia miyamotoi P66 protein is characterized not only by amino-acid substitutions, but also by deletions.