Clavibacter michiganensis subsp. capsici subsp. nov., causing bacterial canker disease in pepper.

Clavibacter michiganensis is a Gram-stain-positive bacterium with eight subspecies. One of these subspecies is C. michiganensis subsp. michiganensis, which causes bacterial canker disease in tomato. Bacterial strains showing very similar canker disease symptoms to those of a strain originally classified as C. michiganensis have been isolated from pepper. In this paper, we reclassified strains isolated from pepper. On the basis of phylogenetic analysis with 16S rRNA gene sequences, the strains isolated from pepper were grouped in a separate clade from other subspecies of C. michiganensis. Biochemical, physiological and genetic characteristics of strain PF008T, which is the representative strain of the isolates from pepper, were examined in this study. Based on multi-locus sequence typing and other biochemical and physiological features including colony color, utilization of carbon sources and enzyme activities, strain PF008T was categorically differentiated from eight subspecies of C. michiganensis. Moreover, genome analysis showed that the DNA G+C content of strain PF008T is 73.2 %. These results indicate that PF008T is distinct from other known subspecies of C. michiganensis. Therefore, we propose a novel subspecies, C. michiganensis subsp. capsici, causing bacterial canker disease in pepper, with a type strain of PF008T (=KACC 18448T=LMG 29047T).

Expression of a GALACTINOL SYNTHASE gene in tomato seeds is up-regulated before maturation desiccation and again after imbibition whenever radicle protrusion is prevented.

Raffinose family oligosaccharides (RFOs) have been implicated in mitigating the effects of environmental stresses on plants. In seeds, proposed roles for RFOs include protecting cellular integrity during desiccation and/or imbibition, extending longevity in the dehydrated state, and providing substrates for energy generation during germination. A gene encoding galactinol synthase (GOLS), the first committed enzyme in the biosynthesis of RFOs, was cloned from tomato (Lycopersicon esculentum Mill. cv Moneymaker) seeds, and its expression was characterized in tomato seeds and seedlings. GOLS (LeGOLS-1) mRNA accumulated in developing tomato seeds concomitant with maximum dry weight deposition and the acquisition of desiccation tolerance. LeGOLS-1 mRNA was present in mature, desiccated seeds but declined within 8 h of imbibition in wild-type seeds. However, LeGOLS-1 mRNA accumulated again in imbibed seeds prevented from completing germination by dormancy or water deficit. Gibberellin-deficient (gib-1) seeds maintained LeGOLS-1 mRNA amounts after imbibition unless supplied with gibberellin, whereas abscisic acid (ABA) did not prevent the loss of LeGOLS-1 mRNA from wild-type seeds. The presence of LeGOLS-1 mRNA in ABA-deficient (sitiens) tomato seeds indicated that wild-type amounts of ABA are not necessary for its accumulation during seed development. In all cases, LeGOLS-1 mRNA was most prevalent in the radicle tip. LeGOLS-1 mRNA accumulation was induced by dehydration but not by cold in germinating seeds, whereas both stresses induced LeGOLS-1 mRNA accumulation in seedling leaves. The physiological implications of LeGOLS-1 expression patterns in seeds and leaves are discussed in light of the hypothesized role of RFOs in plant stress tolerance.

Destruction of Cucumber green mottle mosaic virus by heat treatment and rapid detection of virus inactivation by RT-PCR.

Heat treatment is commonly used to control viral contamination of seeds. To study virus inactivation, virus was purified from seeds contaminated with Cucumber green mottle mosaic virus (CGMMV) after various heat treatments. CGMMV particles were observed to be physically disrupted by high temperature. Analysis of viral RNA revealed that the 5' and 3' termini of the genome were protected whereas regions between 2-2.5, 3.2-3.7 and 4-4.8 kb from the 5' terminus were not. Heat inactivation of virus on seeds was confirmed by RT-PCR using primers for a heat-sensitive region. The RT-PCR approach developed here may prove preferable to time- and labor-intensive bioassays for assessing virus heat inactivation.

Nucleotide sequences of two Korean isolates of Cucumber green mottle mosaic virus.

The nucleotide sequences of the genomic RNAs of Cucumber green mottle mosaic virus Korean watermelon isolate (CGMMV-KW) and Korean oriental melon isolate (CGMMV-KOM) were determined and compared to the sequences of other tobamoviruses including CGMMV strains W and SH. Each CGMMV isolate had a genome of 6,424 nucleotides. Each also had 60 and 176 nucleotides of 5' and 3' untranslated regions (UTRs), respectively, and four open reading frames (ORF1-4). ORFs 1 to 4 encode proteins of 129, 186, 29, and 17.4 kDa, respectively. The nucleotide and deduced amino acid sequences of CGMMV-KOM and CGMMV-KW were more than 98.3% identical. When compared to other CGMMV strains in a phylogenetic analysis they were found to form a distinct virus clade, and were more distantly related to other tobamoviruses (23.5-56.7% identity).