Alvarez María A, Eraso Natalia Fernandez, Pitta-Alvarez Sandra I, Marconi Patricia L
Instituto de Ciencia y Tecnología Dr César Milstein, CONICET, Saladillo, 2468 (C1440FFX), Ciudad de Buenos Aires, Argentina.
Biotechnol Lett. 2009 Mar;31(3):457-63. doi: 10.1007/s10529-008-9875-2. Epub 2008 Nov 2.
In vitro cultures of Berberis buxifolia were established using thidiazuron (4.5, 23 and 45 mM) or picloram (4 and 40 mM) as plant growth regulators for sustaining growth. For producing berberine, a two-stage culture was performed. In the first step, thidiazuron or picloram were used for biomass production followed by the production stage where benzylaminopurine (4.4 mM) was added as a plant growth regulator. Berberine yields (102 mg g(-1) DW) and in vitro shoot cultures (200 mg g(-1) DW) were significantly lower than those of whole plants in the field (416 mg g(-1) DW). The highest productivity (0.18 mg 1(-1) day(-1)) was attained using picloram (either 4 on 40 mM) in the first stage for producing biomass.
使用噻苯隆(4.5、23和45 mM)或毒莠定(4和40 mM)作为植物生长调节剂建立了布氏小檗的体外培养体系以维持生长。为了生产黄连素,进行了两阶段培养。第一步,使用噻苯隆或毒莠定进行生物量生产,随后进入生产阶段,在此阶段添加苄氨基嘌呤(4.4 mM)作为植物生长调节剂。黄连素产量(102 mg g(-1)干重)和体外芽培养物(200 mg g(-1)干重)显著低于田间整株植物(416 mg g(-1)干重)。在第一阶段使用毒莠定(4或40 mM)生产生物量时获得了最高生产率(0.18 mg 1(-1)天(-1))。
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