Bacterial contamination represents a serious problem for plant tissue culture research and applications. Bacterial interference with normal plant physiology and morphology can generate misleading conclusions if the presence of bacteria is ignored. Bacterial contaminants in in vitro plant culture are typically detected by direct observation; thus, it is assumed that cultures without visible symptoms are bacteria free. Here, we demonstrate that contaminating Bacillus DNA in plant DNA solutions from asymptomatic plants can interfere with the analysis of somaclonal variation in chrysanthemum. We studied somaclonal variation in chrysanthemum using short semispecific PCR primers based on conserved motifs in NBS-LRR disease resistance genes and in mobile elements. Instead of true somaclonal variation we found three polymorphic bands derived from contaminant bacterial DNA in plant extracts. Although the detection of asymptomatic bacteria in in vitro plant cultures is a major issue, we found that it has not been adequately addressed to date, particularly for studies on somaclonal variation. We reviewed the most commonly cited contaminant bacteria in in vitro plant culture and designed specific 16S rRNA gene-based PCR primers for the main genera causing contamination (Bacillus, Pseudomonas, Staphylococcus, Lactobacillus, Erwinia/Enterobacter and Xanthomonas). Using a panel of pure bacterial DNAs, artificial mixes of bacterial/plant DNAs, and in vitro plant cultures with and without visible contamination we demonstrated that our primers are in most instances both reliable and sensitive, and appropriate for the identification and tracking of the most frequent bacterial contaminants in plant in vitro cultures. Implications of bacterial identification to molecular analysis of somaclonal variation and plant culture decontamination are discussed.
The study of functional morphological traits enables us to know fundamental aspects of the dynamics of plant communities in local and global habitats. Regenerative morphological traits play an important role in defining plant history and ecological behavior. Seed and fruit characteristics determine to a large extent the patterns for dispersal, germination, establishment and seedling recruitment a given species exhibits on its natural habitat. Despite their prominent role, seed and fruit traits have been poorly studied at the community level of woody plant species in neo-tropical dry forests. In the present study we aimed at i) evaluate the functional role of morphological traits of seeds, fruits and embryo in woody plant species; ii) determine which are the morphological patterns present in seeds collected from the community of woody species that occur in neo-tropical dry forests; and iii) compare woody plant species seed mass values comparatively between neo-tropical dry and tropical forests. To do so, mature seeds were collected from 79 plant species that occur in the Tumbesian forest of Southwest Ecuador. The studied species included the 42 and 37 most representative tree and shrubbery species of the Tumbesian forest respectively. A total of 18 morphological traits (seven quantitative and 11 qualitative) were measured and evaluated in the seeds, fruits and embryos of the selected species, and we compared the seeds mass with other forest types. Our results showed a huge heterogeneity among traits values in the studied species. Seed mass, volume and number were the traits that vary the most at the community level, i.e. seed length ranged from 1.3 to 39 mm, and seed width from 0.6 to 25 mm. Only six embryo types were found among the 79 plant species. In 40 % of the cases, fully developed inverted embryos with large and thick cotyledons to store considerable amount of nutrients were recorded. We concluded that highly variable and functionally complementary morphological traits occur among the studied woody plants of the dry Tumbesian forest. The latter favors a plethora of behavioral mechanisms to coexist among woody species of the dry forest in response to the environmental stress that is typical of arid areas.
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