共查询到17条相似文献,搜索用时 755 毫秒
1.
三裂叶野葛毛状根的诱导及其固体培养和液体培养 总被引:5,自引:1,他引:5
发根农杆菌(Agrobacterium rhizogenes)ATCC15834感染三裂叶野葛(Pueraria phaseoloides)叶片外植体20 d后产生毛状根,毛状根可直接从叶片外植体叶脉处或从叶脉处产生的愈伤组织上产生。感染35d后,约85%的叶片外植体产生毛状根。毛状根能在无外源生长调节剂的 MS固体和液体培养基上自主生长。PCR扩增结果表明,发根农杆菌Ri质粒的rolB和rolC基因已在三裂叶野葛毛状根基因组中整合并得到表达。与固体培养的毛状根相比,在液体培养基中培养的毛状根不仅生长迅速,也不会形成愈伤组织。在无外源生长调节剂的液体MS培养基中培养15d的三裂叶野葛毛状根的鲜重、干重、可溶性总糖含量及细胞内活性氧(ROS)含量分别为固体培养毛状根的1.59倍、1.18倍、5.25倍和1.16倍。 相似文献
2.
蔗糖和光对三裂叶野葛毛状根生长及次生物质产生的影响 总被引:6,自引:0,他引:6
研究了蔗糖浓度和光对固体培养的三裂叶野葛毛状根生长及其总异黄酮和葛根素产生的影响。结果表明:在供试的分别添加1%、3%、5%、7%和9%蔗糖的MS固体培养基中,3%蔗糖能促进三裂叶野葛毛状根的生长及其异黄酮类化合物和葛根素的积累;培养20d后,其生物量达到0.48g(DW,干重)/瓶,总异黄酮和葛根素含量分别为25.44mg/g(DW)和11.64mg/g(DW)。与添加3%蔗糖的MS培养基培养的三裂叶野葛毛状根相比,含5%蔗糖的培养基培养的毛状根干重增殖倍数提高了7.0%,而含1%、7%和9%蔗糖的培养基培养的毛状根干重增殖倍数分别下降62.4%、42.8%和65.3%;其总异黄酮含量分别降低574%、13%和33.4%,葛根素含量分别下降47.9%、15.8%和35.1%,但其毛状根培养物的可溶性糖含量则分别增加了0.52、1.45和1.54倍。暗培养30d的毛状根的生物量达到0.83g(DW)/瓶,分别比蓝光和白光培养的毛状根提高37.1%和23.3%。在蓝光和白光下培养的部分毛状根的表面呈淡绿色;但白光处理的毛状根中总异黄酮含量比蓝光和暗培养处理的分别提高了14.7%和19.2%;蓝光抑制毛状根中葛根素含量的积累,白光和暗培养的毛状根培养物中的葛根素含量分别是蓝光处理的1.61倍和1.52倍。 相似文献
3.
本文研究了蔗糖浓度对发根农杆菌ATCC15834诱导产生的三裂叶野葛毛状根生长及其葛根素和异黄酮类化合物产生的影响以及液体培养基中蔗糖的消耗变化.结果表明毛状根在含5%、4%、3%和2%蔗糖的MS培养基中培养16天后的干重增殖倍数分别为11.7、11.9、10.1和5.9;其中尤以3%的蔗糖浓度最有利于毛状根中异黄酮类化合物及葛根素的积累;培养12天后,毛状根的葛根素含量达到最高,约5.147mg/g DW;而其异黄酮类化合物的含量则在培养16天后达到最高,约27.76mg/g DW.在毛状根液体培养过程中培养基的蔗糖浓度随着毛状根的生长而降低,其消耗速率与毛状根的生长速度及其可溶性总糖含量成正比.毛状根的可溶性总糖含量在培养12天时达到最高,而培养16天后培养基中的蔗糖消耗完毕. 相似文献
4.
吐温-80对野葛毛状根生长及异黄酮含量的影响 总被引:2,自引:1,他引:1
将不同浓度的吐温-80添加到野葛毛状根悬浮培养液中,研究在一定的作用时间内其对毛状根生长及次生代谢物合成与分泌的影响。结果表明,采用2%浓度处理较为适宜,不仅可以提高毛状根内葛根素的含量,而且有利于培养液中葛根素、大豆甙元及总异黄酮的积累,与对照相比,其含量可分别提高24.2%、50%和46.7%。在该浓度下连续处理毛状根72h后,发现毛状根仍生长旺盛,其生长量已是对照的1.5倍。但不同时间的连续处理对毛状根及培养液中几种异黄酮物质的积累与释放作用不同,其中以处理48h最有利于培养液中总异黄酮的累积,其含量是毛状根中的38倍。 相似文献
5.
蔗糖浓度对三裂叶野葛毛状根生长及其次生物质产生的影响 总被引:3,自引:0,他引:3
本文研究了蔗糖浓度对发根农杆菌ATCC15834诱导产生的三裂叶野葛毛状根生长及其葛根素和异黄酮类化合物产生的影响以及液体培养基中蔗糖的消耗变化。结果表明:毛状根在含5%、4%、3%和2%蔗糖的MS培养基中培养16天后的干重增殖倍数分别为11.7、11.9、10.1和5.9;其中尤以3%的蔗糖浓度最有利于毛状根中异黄酮类化合物及葛根素的积累;培养12天后,毛状根的葛根素含量达到最高,约5.147mg/gDW;而其异黄酮类化合物的含量则在培养16天后达到最高,约27.76mg/gDW。在毛状根液体培养过程中培养基的蔗糖浓度随着毛状根的生长而降低,其消耗速率与毛状根的生长速度及其可溶性总糖含量成正比。毛状根的可溶性总糖含量在培养12天时达到最高,而培养16天后培养基中的蔗糖消耗完毕。 相似文献
6.
发根农杆菌ATCC15834感染三裂叶野葛叶片外植体20天后,从其切口叶脉处产生的愈伤组织上产生毛状根。感染35天后约85%的叶片外植体产生毛状根。毛状根能在无外源生长调节剂的MS固体和液体培养基上自主生长,但在液体培养基中培养的毛状根生长更迅速,也不会形成愈伤组织。毛状根线粒体膜电势的荧光染色结果表明,液体培养的毛状根细胞线粒体的膜电势比固体培养的毛状根高11.8倍。PCR结果证实,发根农杆菌Ri质粒的rolB和rolC基因已在三裂叶野葛毛状根基因组中整合并得到表达。HPLC测定结果表明,三裂叶野葛毛状根中的葛根素含量约为对照根(种子萌发产生的幼苗根)的2.5倍,达1.190 mg/g.dry.wt;并比多年生葛根生药片的葛根素含量高6.7%。 相似文献
7.
三裂叶野葛毛状根的培养及其葛根素的产生 总被引:5,自引:0,他引:5
发根农杆菌ATCC15834感染三裂叶野葛叶片外植体20天后,从其切口叶脉处产生的愈伤组织上产生毛状根。感染35天后约85%的叶片外植体产生毛状根。毛状根能在无外源生长调节剂的MS固体和液体培养基上自主生长,但在液体培养基中培养的毛状根生长更迅速,也不会形成愈伤组织。毛状根线粒体膜电势的荧光染色结果表明,液体培养的毛状根细胞线粒体的膜电势比固体培养的毛状根高11.8倍。PCR结果证实,发根农杆菌Ri质粒的rolB和rolC基因已在三裂叶野葛毛状根基因组中整合并得到表达。HPLC测定结果表明,三裂叶野葛毛状根中的葛根素含量约为对照根(种子萌发产生的幼苗根)的2.5倍,达1.190mg/g.dry.wt;并比多年生葛根生药片的葛根素含量高6.7%。 相似文献
8.
6-苄氨基腺嘌呤和萘乙酸对三裂叶野葛毛状根生长和异黄酮含量的影响 总被引:1,自引:0,他引:1
为了探讨植物激素对三裂叶野葛毛状根生长和异黄酮化合物含量的影响,采用不同浓度的6-苄氨基腺嘌呤(6-Benzylaminopurine,6-BA)或6-BA和萘乙酸(α-Naphthaleneacetic,NAA)结合处理三裂叶野葛毛状根,观察其对毛状根生长的影响,然后利用分光光度计测定毛状根中异黄酮化合物含量及抗氧化酶活性。结果表明:6-BA抑制三裂叶野葛毛状根的生长,降低三裂叶野葛毛状根的生物量,且随着6-BA浓度的增加,其抑制效果愈明显;同时降低其总异黄酮化合物的含量。与对照相比,不同浓度6-BA和NAA 2.0 mg/L结合抑制毛状根的生长,降低毛状根中总异黄酮化合物含量。6-BA和NAA结合能显著提高毛状根可溶性蛋白质含量和过氧化物酶活性,但降低其超氧化物歧化酶活性;单独6-BA处理的毛状根培养至30 d时,可以检测到典型的DNA ladder带,而6-BA和NAA结合处理的毛状根培养至20 d时就可以检测到DNA ladder带,表明6-BA或6-BA和NAA结合都可以促进细胞程序性死亡的发生,且NAA具有协同作用。 相似文献
9.
茉莉酸甲酯和ABA对野葛毛状根中异黄酮含量的影响 总被引:6,自引:1,他引:6
10~ 10 0 μmol·L-1茉莉酸甲酯 (MJ)可提高野葛毛状根培养液中葛根素和大豆甙元的水平 ,促进毛状根内总异黄酮含量的增加。而用 0 .5~ 2 .0mg·L-1ABA处理后 ,无论对野葛毛状根还是培养液中葛根素、大豆甙元的含量仅略有提高 ,但对总异黄酮的合成与分泌等则有显著的促进。 10 0 μmol·L-1MJ和 1mg·L-1ABA处理 2 4~ 72h ,可促进毛状根内葛根素和培养液中总异黄酮的水平 ,以处理 4 8h的增加量最大 相似文献
10.
三裂叶野葛毛状根的生长及其培养基营养物质的消耗变化 总被引:2,自引:0,他引:2
研究了发根农杆菌(Agrobacterium rhizogenes)ATCC15834遗传转化产生的三裂叶野葛(Pueraria phaseoloides)毛状根在液体培养过程中生长及其部分营养物质消耗的关系.结果表明:三裂叶野葛毛状根液体培养0~4d内处于生长迟滞期、8~16d为快速生长期、16d后进入生长平台期.培养基的PO4^2-、硝态氮和铵态氮在毛状根液体培养过程中被逐渐吸收和消耗,培养16d时培养基中的PO4^3-被消耗殆尽,其浓度仅为培养基起始PO4^3-浓度的0.26%;培养基的铵态氮和硝态氮则在培养20d时才消耗殆尽;而培养基中的Ca^2+浓度在培养过程中逐渐降低.但在培养20d时仍未被完全消耗,其浓度约为起始浓度的30.5%.培养基的pH值随培养时间的延长而不断降低,培养20d后pH值由5.62降低到4.09;而毛状根的颜色也随培养基pH值的降低和培养时间的延长逐渐由白色变成浅黄色和浅褐色.该结果为今后设计合适的培养基以开展野葛毛状根的大规模液体培养来生产葛根素提供了可能性. 相似文献
11.
Hairy roots ofCatharanthus roseus obtained by co-cultivation of hypocotyl segments withAgrobacterium rhizogenes, and cultured in SH (Schenk and Hildebrandt) basal medium, formed two types of calli when subcultured in SH medium with 1 mg/1 -naphthaleneacetic acid and 0.1 mg/l kinetin. One of them, a compact callus, when re-subcultured in SH basal medium gave rise to hairy roots again. A rhizogenic cell suspension culture was established from this type of callus. When cultured in SH medium with growth regulators, the rhizogenic callus produced catharanthine at a level of 41% of the level in the initial hairy roots. Upon transfer to SH basal medium, regenerated hairy roots produced this alkaloid at the original level of 1.5 mg/g dry wt. Using this cell/hairy root interchange system a new management system for hairy root culture in bioreactors has been devised and examined involving production of biomass in the form of a cell suspension in medium supplemented with growth regulators, and catharanthine production by hairy roots regenerated from these cells in medium without growth regulators.Abbreviations NAA
-naphthaleneacetic acid
- SH
Schenk and Hildebrandt
- SHNK
SH medium + 1 mg 1–1 NAA + 0.1 mg 1–1 kinetin 相似文献
12.
13.
以发根农杆菌诱导的新疆紫草毛状根为试验材料,采用二阶段液体培养法,首次建立了新疆紫草毛状根培养技术体系。结果显示:采用SH无铵培养基、pH 5.8时有利于毛状根的生长。培养12d时毛状根的增殖倍数达最高,平均10.26倍;毛状根生产的继代周期为25~30d;4种树脂吸附的紫草素及其衍生物含量均较对照(不添加树脂)高,以NKA-9所吸附的紫草素及其衍生物含量最高,为2.38%,较对照提高0.97倍。培养10d时添加NKA-9树脂,紫草素及其衍生物含量平均为3.64%,是对照的3.08倍。研究表明,生长阶段采用液体培养可以使新疆紫草毛状根快速增殖,生产阶段添加大孔吸附树脂能够提高紫草素及其衍生物含量。 相似文献
14.
Tengjiao Jia Jing An Zhen Liu Bingjun Yu Jianjun Chen 《Plant Cell, Tissue and Organ Culture》2017,128(2):469-477
Effects of isoflavones on plant salt tolerance were investigated in soybean (Glycine max L. Merr. cultivar N23674) and tobacco (Nicotiana tabacum L.). Leaf area, fresh weight, net photosynthetic rate (Pn), and transpiration rate (Tr) of soybean N23674 plants treated with 80 mM NaCl were significantly reduced, while a gene (GmIFS1) encoding for 2-hydroxyisoflavone synthase was highly induced, and isoflavone contents significantly increased in leaves and seeds. To test the impact of isoflavones to salt tolerance, transgenic soybean cotyledon hairy roots expressing GmIFS1 (hrGmIFS1) were produced. Salt stress slightly increased isoflavone content in hairy roots of the transgenic control harboring the empty vector but substantially reduced the maximum root length, root fresh weight, and relative water content (RWC). The isoflavone content in hrGmIFS1 roots, however, was significantly higher, and the above-mentioned root growth parameters decreased much less. The GmIFS1 gene was also transformed into tobacco plants; plant height and leaf fresh weight of transgenic GmIFS1 tobacco plants were much greater than control plants after being treated with 85 mM NaCl. Leaf antioxidant capacity of transgenic tobacco was significantly higher than the control plants. Our results suggest that salt stress-induced GmIFS1 expression increased isoflavone accumulation in soybean and improved salt tolerance in transgenic soybean hairy roots and tobacco plants. 相似文献
15.
毛状根良好的生长状况是建立毛状根-AM真菌双重培养体系的关键,为优化毛状根培养基成分,确定适宜毛状根生长的蔗糖浓度,改善烟草毛状根的生长状况,该研究以发根农杆菌菌株C58C1诱导2个烟草品种NC82和Va116叶片产生毛状根,经PCR检测证实后,用含有不同蔗糖浓度的1/2MS培养基分别进行固体和液体优化培养,通过测定毛状根的分枝数、鲜重(FW)与干重(DW),研究蔗糖对2个品种烟草毛状根生长的影响。结果表明:(1)C58C1均能诱导两种烟草叶片产生毛状根,但诱导率不同,NC82(87.3%)的诱导率更高,是Va116(38.6%)的2.26倍。(2)培养基蔗糖浓度显著影响毛状根生长,因烟草品种和起始分枝数而异。(3)固体培养基优化培养NC82和Va116的毛状根,分枝数增长的抑制蔗糖浓度分别为25 g·L^(-1)和15 g·L^(-1);液体培养基优化培养分别在25 g·L^(-1)和15 g·L^(-1)时F(D)W达到最大,分别为0.541 g(0.055 g)、0.474 g(0.050 g)。(4)综合分枝数、F(D)W、毛状根生长势考虑,C58C1诱导NC82毛状根最适培养基蔗糖浓度为25 g·L^(-1),Va116毛状根为15 g·L^(-1)。该文优化了烟草毛状根培养基组成的适宜蔗糖浓度及培养方法,为后续毛状根大量扩繁奠定基础,建立了毛状根-AM真菌双重培养体系,解决了关键的寄主生长不良的问题。 相似文献
16.
Hiroshi Yonemitsu Koichiro Shimomura Motoyoshi Satake Shunji Mochida Masahiko Tanaka Thoru Endo Akira Kaji 《Plant cell reports》1990,9(6):307-310
Hairy roots were obtained following inoculation of the stems of Lobelia inflata L. with Agrobacterium rhizogenes strain ATCC 15834. These hairy roots contained agropine and mannopine. In addition, lobeline was detected by HPLC and confirmed by mass spectrometry. Various media were tested for the growth of hairy roots as well as for the content of lobeline in hairy roots. The growth rate of hairy roots cultured in Nitsch and Nitsch's medium was approximately one third of those cultured in other media. The lobeline content of hairy roots (18–54 g/g dry weight) cultured in these media was the same order of magnitude compared with that of roots of L. inflata (24 g/g dry weight) cultivated in pots. The hairy roots cultured in Nitsch and Nitsch's medium were morphologically different from those cultured in other media.Abbreviations MS medium
Murashige and Skoog's medium
- 1/2 MS medium
one-half strength of the standard Murashige and Skoog's medium
- B5 medium
Gamborg's B5 medium
- NN medium
Nitsch and Nitsch's medium
- FW
fresh weight
- DW
dry weight 相似文献
17.
Authors report here the establishment of an efficient transformation system for Gynosternrna pentaphyllum (Thunb.) Makino using Agrobacteriurn rhizogenes R1600. Hairy roots appeared on leaf explants 10 days after inoculation with the bacteria . Frequency of the explants transformed by R1600 was up to 94%. Transformation was confirmed by Southern analysis. Biomass of hairy root cultures suspended in hormone-free MS medium increased 9 times after 20 days of incubation. There was no callus formation on the hairy roots during suspension culture. Saponin content in the hairy root cultures was about 2 times as much as in the natural roots, saponins of the hairy root cultures were also released into growth medium as well. 相似文献