很多的植物的繁殖技术是利用的切断的嫩枝、根或者叶的再生形成完整的植株。
Many plant propagation techniques make use of the ability of cuttings of shoots, roots, or leaves to regenerate into complete plants.
胚胎发生能力和再生植株转化率是游离小孢子培养技术的关键问题。
Improving microspores embryogenic ability and plantlet regeneration ability from microspore-derived embryos is the key of isolated microspores culture technique.
组织培养技术在作物改良上的成功应用需要合适的植株再生体系。
The successful application of plant tissue culture techniques for crop improvement requires suitable plant regeneration methods.
本文采用了一项新的离体培养技术,它包括无菌苗的获得、试管嫁接、嫁接部位愈伤组织的增殖以及从愈伤组织中再生植株的操作程序。
We adopt a new in vitro culture technique. including obtaining of aseptic seedling, test tube grafting, joint callus proliferation and plantlet regeneration fron callus.
并研究了从S011203愈伤组织上切取不定根诱导植株再生的配套技术。
Mcanwhile, a set of technique for inducing plantlet regeneration from calluses ofS011203 with adventitious roots removed was given in this paper.
系统研究了丹参茎段、叶片和花药外植体的培养方法和植株再生技术,获得了大量的试管苗。
The induction of callus and regenerated plantlets from stem, leaf and anther were systematically studied in Salvia Miltiorrhiza Bge, and a vast amount of shoots were obtained.
用RT-PCR 技术检测表明,目的基因在转化再生植株中能够正常转录。
Simultaneously, the result of RT-PCR detection confirmed the target gene has been expressed on the level of transcription.
用RT-PCR 技术检测表明,目的基因在转化再生植株中能够正常转录。
Simultaneously, the result of RT-PCR detection confirmed the target gene has been expressed on the level of transcription.
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