Tsutomu Kuboyama

Cloning and expression analysis of Phytoplasma protein translocation genes.

Genes encoding SecA and SecY proteins, essential components of the Sec protein translocation system, were cloned from onion yellows phytoplasma, an unculturable plant pathogenic bacterium. The secA gene consists of 2,505 nucleotides encoding an 835 amino acid protein (95.7 kDa) and shows the highest similarity with SecA of Bacillus subtilis. Anti-SecA rabbit antibody was prepared from a purified partial SecA protein, with a histidine tag expressed in Escherichia coli. Western blot analysis confirmed that SecA protein (approximately 96 kDa) is produced in phytoplasma-infected plants. Immunohistochemical thin sections observed by optical microscopy showed that SecA is characteristically present in plant phloem tissues infected with phytoplasma. The secY gene consists of 1,239 nucleotides encoding a 413 amino acid protein (45.9 kDa) and shows the highest similarity with SecY of B. subtilis. These results suggest the presence of a functional Sec system in phytoplasmas. Because phytoplasmas are endocellular bacteria lacking cell walls, this system might secrete bacterial proteins directly into the host cytoplasm. This study is what we believe to be the first report of the sequence and expression analysis of phytoplasma genes encoding membrane proteins with a predicted function.

A novel thaumatin-like protein gene of tobacco is specifically expressed in the transmitting tissue of stigma and style

Abstract A cDNA clone that encodes a novel thaumatin-like glycosylated protein, SE39b, which constitutes one of the major proteins of the stigmatic exudate of tobacco, was isolated and sequenced. The deduced amino acid sequence of SE39b shows 37% identity with the pathogenesis-related protein of tobacco, PR-R1, and 52% identity with the thaumatin-like protein (TLP) of Arabidopsis. All 16 cysteine residues are conserved in SE39b as they are in all TLPs. Three potential glycosylation sites found in SE39b were consistent with a previous finding that concanavalin A has an affinity for SE39b. Northern blot and in situ analyses demonstrated that the gene was specifically expressed in the transmitting tissue of the stigma and style, and the transcript amounts reached maximum levels at anthesis. mRNA from orthologs of the gene of SE39b was detected in species of Cestreae, but not in species of Solaneae. SE39b should be categorized as a PR-like glycoprotein which is developmentally regulated and specifically expressed in the transmitting tissue of the stigma and style, such as Sp41 [(1,3)-β-glucanase], SK2 and Chi2;1 (chitinase).

In planta expression of a protein encoded by the extrachromosomal DNA of a phytoplasma and related to geminivirus replication proteins.

A new extrachromosomal DNA, EcOYW1, was cloned from the onion yellows phytoplasma (OY-W). Southern blot and PCR analysis showed that EcOYW1 is not present in the OY-M, a mild symptom line derived from OY-W. We determined the complete nucleotide sequence of EcOYW1; it is a circular dsDNA of 7.0 kbp in length, which contains seven ORFs. ORF1 encoded a homologue of the geminivirus Rep protein. Western immunoblot analysis revealed that this Rep homologue is expressed in OY-W infected plants, suggesting that EcOYW1 replicates via a geminivirus-like rolling-circle replication mechanism. EcOYW1 is the first phytoplasmal extrachromosomal DNA shown to express encoded genes.

The diversity of interspecific pollen-pistil incongruity in Nicotiana

Nicotiana tabacum was used as a pistillate parent and crossed with three self-compatible species, N. rustica, N. repanda and N. trigonophylla, which were previously reported to have pollen tubes unilaterally inhibited by N. tabacum pistil. Temporal and morphological observations revealed distinct differences of pollen tube behavior among these incongruous crosses. Pollen tubes of N. repanda were arrested in stigma and those of N. rustica in the middle of the style. On the other hand, pollen tubes of N. trigonophylla continued growing at a slow rate. Tubes of N. repanda and N. rustica showed morphological abnormalities such as swelling, thick wall, and irregular callose deposition. In addition, tubes of N. rustica often elongated in reverse direction and wound about in the middle of the style. Although the tubes of N. trigonophylla were apparently normal in morphology, they were distributed throughout the transmitting tissue, differing from the self-pollination of N. tabacum in which they were confined to the peripheral region of it. The diversity of pollen tube behavior indicates that physiological causes of incongruity are different among the three crosses. Bud pollination enabled pollen tubes to reach the ovary in all crosses, indicating that the N. tabacum pistil acquired its ability to inhibit foreign pollen tube elongation with its development. When interspecific hybrids between N. tabacum and the other three species were pollinated by parental species, tubes reached the ovary in all crosses, but the elongation rate of tubes slowed down and morphology was abnormal.

Evidence of intermolecular recombination between extrachromosomal DNAs in phytoplasma: a trigger for the biological diversity of phytoplasma?

Recombination among bacterial extrachromosomal DNAs (EC-DNAs) plays a major evolutionary role by creating genetic diversity, and provides the potential for rapid adaptation to new environmental conditions. Previously, a 7 kbp EC-DNA, EcOYW1, with a geminivirus-like rolling-circle-replication protein (Rep) gene was isolated and characterized from an original wild-type line (OY-W) of onion yellows (OY) phytoplasma, an endocellular cell-wall-less prokaryote that inhabits the cytoplasm of both plant and insect cells. EcOYW1, found in OY-W, was not present in a mild-symptom line (OY-M) derived from OY-W. A 4 kbp EC-DNA, pOYW, was also isolated and characterized from OY-W, and its pLS1-plasmid-like rep gene was expressed. This paper describes the isolation and sequencing of an EC-DNA of 5560 nt, EcOYW2, from OY-W, and its counterpart EC-DNA of 5025 nt, EcOYM, from OY-M. EcOYW2 and EcOYM contained seven and six ORFs, respectively. They both encoded a geminivirus-like Rep and a putative single-stranded-DNA-binding protein (SSB). Southern blot analysis indicated that no more EC-DNAs with a rep gene exist in either OY-W or OY-M, which means that the complete set of EC-DNAs has been cloned from the OY-W and OY-M lines of OY phytoplasmas. Sequence analysis revealed that both EcOYW2 and EcOYM have chimeric structures of previously characterized EcOYW1 and pOYW, suggesting that they have a recombinational origin. This is the first evidence of intermolecular recombination between EC-DNAs in phytoplasma. The possible implications of these findings in increasing the biological diversity of phytoplasma are discussed.

A Plasmid Isolated from Phytopathogenic Onion Yellows Phytoplasma and Its Heterogeneity in the Pathogenic Phytoplasma Mutant

A 3.6-kbp DNA fragment was cloned from the extrachromosomal DNA of a pathogenic plant mollicute, onion yellows phytoplasma (OY-W). Sequence analysis of the fragment revealed an open reading frame (ORF) encoding the replication (Rep) protein of rolling-circle replication (RCR)-type plasmids. This result suggests the existence of a plasmid (pOYW1) in OY-W that uses the RCR mechanism. This assumption was confirmed by detecting the single-stranded DNA (ssDNA) of a replication intermediate that is specifically produced by the RCR mechanism. This is the first report on the identification of the replication system of this plasmid and the genes encoded in it. With a DNA fragment including the Rep gene region of pOYW1 used as a probe, Southern and Northern (RNA) blot hybridizations were employed to examine the heterogeneity between the plasmids found in OY-W and a pathogenic mutant (OY-M) isolated from OY-W. Multiple bands were detected in the DNA and RNA extracted from both OY-W and OY-M infected plants, although the banding patterns were different. Moreover, the copy number of plasmids from OY-W was about 4.2 times greater than that from OY-M. These results indicate constructive heterogeneity between OY-W and OY-M plasmids, and the possibility of a relationship between the plasmid-encoded genes and the pathogenicity of the phytoplasma was suggested.

Hybrid plant of Phaseolus vulgaris L. and P. lunatus L. obtained by means of embryo rescue and confirmed by restriction endonuclease analysis of rDNA

SummaryHybridizations between three lines of the common bean (Phaseolus vulgaris L.) and two lines of the lima bean (P. lunatus L.) were attempted in order to transfer characters from the lima bean to the common bean. A total of 115 interspecific hybrid embryos were rescued and cultured, and 7 plantlets were eventually transferred to soil. The most compatible cross was ‘Edogawa XPI164891’, which had a high proportion of expanded ovules, and from which we obtained one mature interspecific hybrid. In general, morphological characters of the hybrid were intermediate between the parents, and the chromosome number of the hybrid was 2n=22 the same as that of both parents. The hybrid nature of the progeny plant was confirmed by restriction endonuclease analysis of rDNA. Species specific fragments were detected when total DNA was digested by BamHI, and BamHI-digested total DNA of the hybrid contained all fragments from both parents. Selves and backcrosses were attempted, but no progeny were obtained. The only hybrid obtained was completely sterile and meiosis highly irregular.

Gene Arrangement and Sequence of str Operon of Phytoplasma Resemble Those of Bacillus More Than Those of Mycoplasma

The complete region of a putative streptomycin operon (str operon) of onion yellows (OY) phytoplasma, a phytopathogenic mollicute, was isolated and sequenced. This operon contains four genes, rps12, rps7, fus, and tuf, encoding ribosomal proteins S12 and s7, elongation factor (EF) -G, and EF-Tu, respectively. These four genes constitute the str operon in non-mollicute bacteria, such as Escherichia coli and Bacillus subtilis. In two species of mollicute Mycoplasma, the tuf gene was reported not to be included in this operon, but was located apart, indicating that the gene arrangement of this operon in phytoplasmas resembles that of B. subtilis more than that of Mycoplasma spp. In addition, the deduced amino acid sequence of EF-G of phytoplasmas also resembles that of B. subtilis more than that of Mycoplasma spp. These results suggest that analyses of the gene organization and sequence of the phytoplasma genome will provide valuable insights into evolutionary relationships among the culturable mollicutes, phytoplasmas and other Gram-positive bacteria.

A subtilisin-like serine protease specifically expressed in reproductive organs in rice

Abstract To identify genes specifically expressed in flowering pistils and that are related to reproductive phenomena, simplified differential display was performed with cDNA obtained from pistils and ovaries at several stages. One clone preferentially expressed in pistils at flowering and 1 day before flowering was identified as a rice subtilisin-like serine protease (RSP1). Sequence comparisons revealed that RSP1 has several characteristics in common with preproproteins. RT-PCR, northern blot, and in situ hybridization analysis revealed that RSP1 mRNA accumulates in pistils and in the filaments of stamens, whereas mRNA was undetectable in tissue from leaves, roots, panicles, and embryos. The mRNA levels in pistils increased slightly at flowering and decreased afterwards. Possible roles of the subtilisin-like serine protease in plant reproduction are discussed.

Genomic factors responsible for abnormal morphology of pollen tubes in the interspecific cross Nicotiana tabacum × N. rustica

Abstract Nicotianatabacum shows unilateral pollen-pistil incongruity with N. rustica. If N. tabacum is pollinated with N. rustica, growth of the pollen tube is arrested in the middle of the style, and abundant callose deposition, tube swelling and tube winding are observed. An attempt was made to clarify the genomic factors responsible for this pollen-pistil incongruity. N. tabacum was pollinated with N. paniculata or N. undulata, progenitors of amphidiploid N. rustica. When pollinated with N. undulata, growth of the pollen tube was arrested in the middle of the style and showed abnormal morphology similar to that with N. rustica, but when pollinated with N. paniculata the pollen tube reached near the base of the style and was almost normal in appearance. These observations suggest that the factors responsible for the pollen tube abnormality of N. rustica are derived from the N. undulata genome.We also used N. sylvestris, N. glutinosa and N. otophora as pistilar parents and N. rustica or its progenitors as pollen parents to examine the genomic factors of the pistilate parents. The pollen tube features of these three species in the pistils of N. sylvestris were similar to those in the pistil of N. tabacum.