| 1. | Regeneration of peach plantlet from callus derived from explant
桃离体组织分化再生植株的研究 |
| 2. | Regeneration from hypocotyl explants of date plum diospyros oleifera
油柿下胚轴再生植株的培养 |
| 3. | Plant regeneration and flowering of impatiens balsamina l in vitro
凤仙花离体培养再生植株并试管内开花 |
| 4. | Dodecaploid plantlets regenerated from endosperm culture of luotiantianshi persimmon
胚乳培养获得十二倍体再生植株 |
| 5. | ( 2 ) regenerating plantlets were obtained from calli , which derived of hairy roots
( 2 )通过毛状根愈伤组织途径再生植株。 |
| 6. | Plantlet regeneration by isolated microspore culture of somatic hybrid of eggplant
茄子体细胞杂种游离小孢子培养获得再生植株 |
| 7. | Microspore culture and ploidy identification of regenerated plant in chinese flowering cabbage brassica rapa ssp . parachinensis
菜苔小孢子培养及再生植株的倍性鉴定 |
| 8. | The root lines of regenerative plants grew rapidly , showing more branching roots and lateral roots
毛状根再生植株在形态学上表现根系发达,节根分节较多,侧根发达,生长迅速。 |
| 9. | Genetic transformation of buckwheat fagopyrum esculentum moench with atnhx1 gene and regeneration of salt - tolerant transgenic plants
1基因对荞麦的遗传转化及抗盐再生植株的获得 |
| 10. | To plantlet regeneration , different growth regulator levels played important roles in rooting culture
摘要从再生植株的途径来看,不同生长调节剂水平组合对根的形成起着重要的作用。 |
