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Several important aspects of regeneration of European plum from hypocotyl explants were studied. Multiple shoots were induced and full plants were recovered for a large number of plum varieties. This indicates that European plum species is, in general, very responsive to in vitro regeneration from hypocotyls. Shoot organogenesis could be induced from both mature and immature seed explants but regeneration efficiency was higher when immature seeds were used. Rooting efficiency for varieties with low rooting tendency could be greatly increased by addition of naphthaleneacetic acid in the medium. Primary shoots, when sub-cultured on fresh induction medium, produced multiple shoots at a high frequency and such multiplication could continue for many cycles. The secondary new shoots could be induced for various plum varieties. Plant recovery from the secondary shoots was as efficient as that from the primary shoots. This new system may be an alternative for plum transformation with a potential for increasing transformation efficiency. The system can be used for propagation of transgenic lines and other genetic clones of various varieties. 相似文献
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Erwinia amylovora and E. pyrifoliae are the causative agents of fire blight and Asian pear blight, respectively. The pathogens are closely related, with overlapping host ranges. Data are unavailable on the current distribution of E. pyrifoliae and on the interaction between the two species when they are present together on the same host. In this study, a duplex real-time polymerase chain reaction (PCR) protocol was developed to monitor the population dynamics of E. amylovora and E. pyrifoliae on the surface of Bartlett pear blossoms. Bacterial cells washed from blossoms were used directly as the PCR template without DNA extraction. Primers and a probe based on the E. amylovora levansucrase gene detected all E. amylovora strains. All E. pyrifoliae strains, including the Japanese Erwinia strains previously described as E. amylovora, were detected with a primer and probe combination based on the E. pyrifoliae hrpW gene. Disease development and severity were not significantly different in blossoms inoculated with individual Erwinia species or with a mixture of the two species. However, E. amylovora grew to greater population sizes than did E. pyrifoliae in both single species inoculations and in mixtures, suggesting that E. amylovora has a greater competitive fitness on Bartlett pear blossoms than E. pyrifoliae. 相似文献
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