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131.
Genetically transformed roots and calli were induced from leafsegments of grapevine (Vitis vinifera L. cv. Koshusanjaku) afterco-cultivation with wild-type Agrobacterium rhizogenes strains,but plant regenera tion from them was not achieved. On the otherhand, transgenlc grapevine plants were obtained via somaticembryogenesis after co-cultivation of embryogenic calli withan engineered A. rhizogenes strain including both the neomycinphosphotransferase II (NPT II) and the ß-glucuronidase(GUS) genes, followed by selection of secondary embryos forkanamycin resistance. All these plants showed GUS gene expressionrevealed by histochemical assay. Southern blot analysis revealedthe stable integration of the GUS cording region in their genome.Transformants containing Ri T-DNA exhibited various phenotypes:most of them showed a typical Ri-transformed phenotype suchas wrinkled leaves, while the others looked normal. Key words: Agrobacterium rhizogenes, grapevine, transgenic plants, Vitis vinifera 相似文献
132.
Kanoktip Pansuksan Ratchada Sangthong Ikuo Nakamura Masahiro Mii Kanyaratt Supaibulwatana 《Plant Cell, Tissue and Organ Culture》2014,117(3):381-391
Tetraploid plants were successfully induced for the first time in Mitracarpus hirtus L., by overnight immersion of shoot meristems in 0.1 % colchicine solution, followed by in vitro culture leading to plant regeneration. Examination of ploidy level by flow cytometric analysis and counting chromosome number at metaphase confirmed that original diploid plant (WT1) contained chromosome number as 2n = 2x = 28, whereas 2n = 4x = 56 was observed in the tetraploids induced with colchicine treatment (CC102 and CC110). Thicker root formation, larger stomata (1.3–2 times), and lower density of stomata (1.7–4 times) were observed in these tetraploid plants. After transplantation to the pot, tetraploid plant (CC110) showed higher fresh weights of aerial part and leaves (1.5 and 1.4 times respectively) than diploid. However, the methanolic extracts from leaves of tetraploid line CC102 showed inhibition against human pathogenic bacterium, S. aureus while WT1 and CC110 showed no activity. GC–MS revealed 40 unique compounds present in CC102, but absent in WT1 and CC110. Through hierarchical clustering analysis the 40 unique compounds in CC102 formed a cluster group found to correlate with anti-S. aurens activity. These results suggested that tetraploid M. hirtus CC102 created in this study provides a novel source of compounds useful in fighting infectious disease. 相似文献