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人参细胞生物合成熊果苷转化体系的建立 总被引:1,自引:0,他引:1
以人参(Panax ginseng C. A. Mey.)培养细胞为生物反应体系,利用外源氢醌为底物,对熊果苷的生物合成进行了研究.TLC鉴别表明,人参细胞可以将外源的氢醌转化为熊果苷;以熊果苷含量和氢醌的转化率为指标,对人参细胞生物合成熊果苷的基本条件(氢醌浓度、转化持续时间、细胞培养阶段)进行了探讨, 结果表明,MS固体培养基上培养32 d的人参细胞,在含有2 mmol·L-1氢醌的生物合成培养基中转化24 h后,合成的熊果苷含量占细胞干重的7.176%,氢醌转化率也达到79.15%. 相似文献
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利用紫花曼陀罗细胞悬浮培养转化外源对羟基苯甲醛合成天麻素,并应用多种色谱技术进行分离纯化,根据转化产物的理化性质和光谱数据分析鉴定结构。实验表明,紫花曼陀罗细胞成功将对羟基苯甲醛转化为天麻素(Ⅱ),同时也得到了由对羟基苯甲醛生成天麻素的转化中间体对羟基苯甲醇(Ⅰ)。在培养基中添加0.1mg/L的水杨酸能显著提高细胞对外源对羟基苯甲醛的糖基化率,而保持气升式发酵罐(25-L)罐内压力为低压(0.001MPa)也能提高细胞对外源对羟基苯甲醛的糖基化率。实验证明,紫花曼陀罗细胞悬浮培养能有效转化对羟基苯甲醛合成天麻素。 相似文献
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应用长春花(Catharanthus roseus (L.) G. Don)悬浮细胞培养体系对天麻素进行了生物转化反应研究.经过8 d培养形成一个转化产物,应用光谱方法鉴定转化产物的结构为对羟基苯甲醇,为天麻素水解后形成的甙元. 相似文献
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不同理化因子对黄芩毛状根诱导的影响 总被引:1,自引:0,他引:1
目的:利用发根农杆菌1.2556诱导黄芩,得到毛状根.方法:采用共培养法诱导黄芩毛状根,研究不同外植体,不同预培养时间,不同菌液浓度,不同感染时间,乙酰丁香酮,抗生素浓度等条件对转化率的影响.结果:利用预培养2d后的茎段为转化材料,当发根农杆菌浓度在OD600值为0.5时感染10min,转化率最高.在菌液中或培养基中添加100umol/L,乙酰丁香酮可以提高黄芩毛状根的转化效率.培养基中加入250mg/L抗生素Cef能较好地抑制发根农杆菌生长.结论:用共培养法诱导出黄芩毛状根,并确定了最佳诱导条件,以提高黄芩外植体的诱导率. 相似文献
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新疆紫草毛状根的诱导及培养 总被引:5,自引:1,他引:4
将处于对数生长期(A600为0.5)的发根农杆菌MSU440、A4、R1000、15834、1025和R1601与新疆紫草子叶外植体共培养.结果表明:(1)发根农杆菌不同菌种对转化率有显著影响,供试6个菌种中只有MSU440菌株获得转化株.PCR及序列分析表明发根农杆菌Ri质粒的rolC基因已在新疆紫草毛状根基因组中整合并得到表达,转化率达4.5%.(2)子叶较真叶的不定根发生率高,且生根持续时间长.(3)在B5无铵无激素固体培养基上,毛状根分支多且根较长,达2~3 cm,毛状根鲜重月平均增殖达7~9倍,是固体培养毛状根的适宜培养基.(4)毛状根在MS无铵无激素液体培养基中培养12 d时,毛状根鲜重平均增殖达12倍,MS无铵液体培养基有利于毛状根的扩大生产.首次获得了激素自主、快速伸长生长、多分支、多根毛的新疆紫草毛状根株系,初步建立了新疆紫草毛状根诱导体系,为大规模培养、生产紫草素奠定了基础. 相似文献
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长春花悬浮培养细胞对天麻素的生物转化 总被引:2,自引:0,他引:2
应用长春花 (Catharanthusroseus (L .)G .Don)悬浮细胞培养体系对天麻素进行了生物转化反应研究。经过8d培养形成一个转化产物 ,应用光谱方法鉴定转化产物的结构为对羟基苯甲醇 ,为天麻素水解后形成的甙元。 相似文献
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褐脉少花龙葵毛状根的诱导、培养及其澳洲茄胺的产生 总被引:3,自引:0,他引:3
利用发根农杆茵的遗传转化和液体培养技术,研究了褐脉少花龙葵(solanum nigrum L.Var.Dauciforum)毛状根的诱导和离体培养及其澳洲茄胺的产生以及液体培养过程中培养基中N源和钙的消耗变化.结果表明.发根农杆菌ATCC15834感染褐脉少花龙葵叶片外植体5 d后产生毛状根.感染25d后,约90%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固体和体培养基上自主生长.PCR扩增结果显示发根农杆菌Ri质粒的rilB和rolC基因已在少花龙葵毛状根基因组中整合并得到表达.所产生的毛状根能产生药用次生物质澳洲茄胺,其含量约为非转化植株根的1.3倍,达到582.05μg/g干重.少花龙葵毛状根液体培养0-5 d内处于生长迟滞期、5-15 d为快速生长期、15d后进入生长平台期.培养基的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,至培养15 d时铵态氮被消耗殆尽.而硝态氮仍剩余44.7%;培养基中钙的浓度在培养过程中虽逐渐降低,但在培养25d时仍未被完全消耗,其浓度约为起始浓度的43.5%.该结果为今后设计合适的培养基来规模培养褐脉少花龙葵毛状根生产药用次生物质澳洲茄胺提供了可能性. 相似文献
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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
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不同理化因子对雪莲毛状根生长和总黄酮生物合成的影响 总被引:14,自引:0,他引:14
在 1 2MS液体培养基上研究了不同理化因子对水母雪莲毛状根生长和总黄酮生物合成的影响。实验结果表明 :氮源总浓度 (包括NH+4和NO-3)为 30mmol L ;NH+4 NO-3比例为 5∶2 5 ;2 %蔗糖和 3%葡萄糖组合 ;0.5mg LGA3和 0.5mg LIBA ;pH5.8;18h d的光照 (光强为 35.0.0lx) ;2.4℃ ;摇床转速为 100rmin有利于毛状根生长及总黄酮的生物合成。在此培养条件下 ,经过21d的培养毛状根生长量达到 12.8g L(DW) ,总黄酮合成量为 192.2mg L ,即总黄酮含量占毛状根干重的 15 % ,约为干重野生水母雪莲植株总黄酮含量的 2.5倍。 相似文献
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烟草毛状根诱导及其茄尼醇含量初探 总被引:4,自引:0,他引:4
茄尼醇是合成泛醌类药物的重要中间体.以发根农杆菌(Agrobacterium rhizogenes)W.T15834感染烟草叶片诱导产生毛状根,探讨其茄尼醇含量变化.结果显示,获得的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.甘露碱检测及PCR结果证实,发根农杆菌Ri质粒的rolB基因已在烟草(Nicotiana tabacum)毛状根基因组中整合并得到表达.用改进的HPLC法测定烟草毛状根中的茄尼醇含量,其结果为对照根(种子萌发产生的幼苗根)的1.12倍,但仍比废弃烟叶中茄尼醇含量低43.2%. 相似文献
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Krasnovsky Jr AA 《Photosynthesis research》2003,76(1-3):389-403
This paper covers major events of the early history of chlorophyll research in the Russian Empire and the Soviet Union from
1771 until 1952, when the modern period of studies on photosynthesis began in full swing. Short biographical sketches of key
scientists, reviews of their major research contributions and some selected photographs are included.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
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应用石蜡切片法、荧光显微镜和紫外分光光度法,对不同年生巴戟天根组织结构的变化进行了观察、对蒽醌类化合物在根中的分布场所及其积累动态进行了研究。结果表明:巴戟天根的结构类似一般多年生草本植物,薄壁细胞是巴戟天根中蒽醌类化合物的分布储存场所,蒽醌类化合物含量随着根生长年限的增加而增加。由以上研究总结出巴戟天以四年或四年以上采收为好,并以根皮厚、木心细者为上品。 相似文献
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The effects of adding lysine, arginine and ammonia to gluten on the self-selection of protein and energy by the weanling rat simultaneously offered a choice of two diets differing only in gluten concentration (15 and 55%) were tested. Previous studies have shown that while lysine (6 g/100 g) additions to gluten decreased the amount of gluten selected by the rat from 40 to 20 g per 100 g of food eaten, selection was not related to the nutritional quality of the gluten. When graded levels of arginine (1.8, 3.6 or 7.2 g/100 g) were added to the gluten with or without lysine (0 or 6 g/100 g) the dietary protein selection was unaffected. The addition of ammonia (1.4 g/100 g as NH4Cl) to gluten had initially the same effect as lysine (6 g/100 g) but with time protein intake returned to control levels. This effect of ammonia was unaltered by arginine additions. It is concluded that the mechanisms which lead to decreases in gluten selection caused by lysine or ammonia are not similar, and that the effects of lysine on gluten selection are not caused by an increased arginine requirement for urea cycle activity. 相似文献
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生长因子(Growth Factors,GFs)对于调节哺乳动物胚胎的早期发育和分化起着重要作用,这些GFs存在于雌性生殖道,也可由胚胎自身合成。正是由于这种自分泌GFs的存在,使我们可以通过改变胚胎培养密度或添加外源性GFs来定性或定量研究GFs对胚胎发育和分化的影响,对于了解GFs在分子水平上的作用途径和机制有着重要的意义。 相似文献
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描述了棘豆属(豆科)刺叶柄棘豆(Oxytropis acipblla Ledeb.)的一个新变型:白花刺叶柄棘豆O.aciphylla Ledeb.f.albiflora Z.Y.Chang,Z.H.Wu et L.R.Xu。原变型的花冠为红紫色或蓝紫色,而新变型的花冠为白色。 相似文献
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Two trials were conducted to study the effects of intrauterine infusions of prostaglandin E(2) (PGE(2)) on luteal function in nonpregnant gilts. Cannulae were surgically implanted on day 9 postestrus into the lumen of each horn with a cephalic vein cannula inserted for collection of peripheral blood. Intrauterine infusions of 0, 25, 75 or 200 mug of PGE(2) were initiated at 0900 h on day 12 and administered thereafter every 12 hr until estrus or day 22 in the first trial. The second trial protocol included an increase in the dose of PGE(2) administered as well as the frequency of infusion. Infusion of 0, 200, 300 or 400 mug PGE(2) was begun at 0300 h on day 12 and continued every 6 hr until estrus or day 22. Cephalic plasma samples for progesterone analysis were collected every six hours from 0300 h on day 11 to 2100 h on day 26 in both trials. In Trial 1 mean plasma progesterone concentrations for all treatments were not different (P>0.05) from the controls on any given day of the estrous cycle. Interestrous interval was unaffected by intrauterine infusion of PGE(2). The mean plasma progesterone concentrations for all treatments were not different (P>0.05) from the controls on days 11-18 of the estrous cycle in Trial 2. However, plasma progesterone concentrations for the 200-mug and 300-mug PGE(2) groups appeared to be greater than the controls on days 14 and 15, indicating a possible delay in the decline of progesterone for these groups. The mean plasma progesterone concentrations for the treatment groups were lower (P<0.05) than the controls on days 20-26 of the cycle. treatment cycle length did not differ (P>0.05) from previous cycle length; thus treatment with PGE(2) had no effect on interestrous interval. PGE(2) may have retarded the decline of progesterone secretion by the corpus luteum in some cases, but at these dosages and frequencies of administration PGE(2) was ineffective in prolonging luteal maintenance. 相似文献