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Adventitious Shoots (adventitious + shoot)
Selected AbstractsPotential of bacterial indoleacetic acid to induce adventitious shoots in plant tissue cultureLETTERS IN APPLIED MICROBIOLOGY, Issue 2 2007B. Ali Abstract Aims:, The main aim of this study was to investigate the possible role of indoleacetic acid (IAA) from bacteria to induce in vitro adventitious shoots in internodal explants of Brassica oleracea L. Methods and Results:, Culture supernatant of Halomonas sp. RE1 and Halomonas sp. HT1 that contain 21 and 40 ,g ml,1 IAA, respectively, was used to supplement Murashige and Skoog (MS) medium. Two combinations that were supplemented with bacterial supernatant (BS) are MS + BS and MS + BS + 10%CW (coconut water) while basal MS medium was used as control. The amounts of BS used in this experiment were 50, 100, 150 and 200 ,l in 5 ml MS medium in each combination. In vitro -grown internodal explants of B. oleracea were inoculated on these media combinations and incubated in a growth chamber at 25 ± 1°C and exposed to 16-h cool fluorescent light. After 5,6 weeks of incubation adventitious shoot induction was observed in all treatments that were supplemented with BS as compared with the controls where very low response was observed. The frequency of shoot induction was high in media that were supplemented with 10%CW in the presence of bacterial auxin. Conclusions:, It was concluded that IAA of microbial origin has the potential to induce adventitious shoots in internodal explants. Significance and Impact of the Study:, IAA from bacteria can be effectively used in plant tissue culture; especially a combination of MS + BS + 10%CW is very cost-effective as compared with synthetic phytohormones for in vitro studies. [source] Developmental anatomy of seedlings of Indodalzellia gracilis (Podostemaceae)PLANT BIOLOGY, Issue 5 2010S. Koi Abstract In Tristichoideae, aquatic angiosperms in the family Podostemaceae, Terniopsis, Tristicha, Indotristicha and Cussetia have creeping roots with flanking (sub)cylindrical shoots, while Dalzellia is rootless and has crustose shoots. Indodalzellia gracilis, sister to a clade of Dalzellia zeylanica and Indotristicha ramosissima, has subcrustose shoots on the side of creeping roots, suggesting that I. gracilis may be a key species to reveal how saltational evolution of the body plan occurred in these three species. We investigated developmental morphology of I. gracilis seedlings grown in culture, using scanning electron microscopy and semi-thin serial sections. As in D. zeylanica, the plumular apical meristem in the seedling gives rise to two shoot apical meristems, which develop into horizontal subcrustose shoots with dorsal and marginal leaves. Neither radicle nor adventitious root is produced from the hypocotyl, but an adventitious root arises endogenously from the juvenile shoot and from some shoots of adult plants. These results, together with the phylogenetic relationships, suggest that the Indodalzellia seedling evolved by loss of the adventitious root derived from the hypocotyl, appearance of shoots in the axil of cotyledons, and appearance of adventitious roots from adventitious shoots. The difference in place of origin of the root between Indodalzellia and I. ramosissima suggests differing evolutionary origin of the root in Tristichoideae. [source] Evidence that direct DNA uptake through cut shoots leads to genetic transformation of Solanum aviculare ForstCELL BIOCHEMISTRY AND FUNCTION, Issue 1 2003P. B. Gahan Abstract The reporter genes GUS, NPTII and BAR, either separately or in combination, have been exploited to determine if DNA which can directly enter plants, circulate within the plant and enter nuclei, can also integrate into the genome in a manner which will permit gene expression. Feeding of either seed-derived or adventitious cut shoots of Solanum aviculare with the GUS gene followed by rooting of the shoots and growing on, resulted in all tissues of the plant showing GUS activity as detected cytochemically. Southern blot analysis of plants derived from the adventitious shoots confirmed the presence of the reporter gene in roots. Reporter gene expression was observed also in the F1 generation. If GUS and NPTII or GUS, NPTII and BAR were fed together, then in each case it was possible to have both expression and Southern blot confirmation of each of the genes. There was a relatively high rate of transformation of approximately 5% of the fed stems across all experiments conducted during the present study. Copyright © 2002 John Wiley & Sons, Ltd. [source] |