联合调控对中国红豆杉细胞关键酶基因表达的影响

红豆杉悬浮培养细胞可以持续提供抗癌药物紫杉醇及一些紫杉烷类。在中国红豆杉悬浮培养细胞中,云南紫杉烷C(Tc)是主要的紫杉烷。为了更理性地调控紫杉醇或有用紫杉烷的生产,有必要深入了解其生物合成过程。采用实时定量PCR(Real-time Quantitative PCR,即RQPCR)技术考察经调控后紫杉醇及紫杉烷代谢中关键酶基因—TASY,T5αH,TDAT,T10βH,TαH,T14βH表达水平的变化。在细胞培养的第7天和12天,分别以100μmol/L2,3-二羟丙基茉莉酸(DHPJA)诱导,同时在细胞培养第7天进行20g/L蔗糖饲喂、100g/LXAD-7HP的原位吸附。该联合调控处理使得细胞培养第30天时,Tc产量高达1517±37mg/L,是对照处理的11.1倍,是DHPJA重复诱导联合蔗糖饲喂处理的1.7倍。RQ-PCR结果显示:DHPJA的加入可使6个基因表达水平显著提高,但在12小时后快速下降,需补充DHPJA以再次提高基因表达水平。吸附剂同时引入会延缓基因表达水平的提高速度,但却能维持基因表达处于一个较高的水平,表现为在细胞培养中后期,基因表达水平将显著高于无吸附剂的调控体系。与13α-羟化相对应的TαH基因有所不同,吸附剂的存在更显著地抑制其表达,但仍有维持表达的功能。     

中国红豆杉细胞经重复诱导和蔗糖饲喂后云南紫杉烷C生产的相应基因表达变化

红豆杉悬浮培养细胞具有可持续生产抗癌药物紫杉醇及其他紫杉烷的潜力。在中国红豆杉悬浮培养细胞中,云南紫杉烷 C(Tc) 是主要的次生代谢产物。为促使代谢前体由生成其他紫杉烷的代谢支路转到生产紫杉醇,实验采用实时定量PCR技术 (RQ-PCR) 揭示细胞培养过程中紫杉醇及紫杉烷合成关键基因的动态变化。在细胞培养的第7天和第12天,以100 μmol/L 2,3-二羟丙基茉莉酸 (DHPJA) 进行诱导,同时在第7天饲喂20 g/L的蔗糖,在此过程中考察6个关键基因 (TASY,TDAT,T5αH,TαH,T10βH和T14βH) 的表达变化。上述联合调控手段使得Tc产量在第1次诱导8 d后达 (554.46±21.28) mg/L,第2次诱导9 d后高达 (997.72±1.51) mg/L。代谢早期基因TASY和TDAT在第1次诱导后表达量分别提高了182和98倍,在第2次诱导后表达量分别提高了208和131倍。在每次诱导后基因表达量提高约持续24 h,之后下降。其他4个基因 (T5αH、TαH、T10βH和T14βH) 的情况有所不同。基因TαH在2次诱导后表达量分别提高了3 061和1 016倍。其他3个基因T5αH、T10βH、T14βH在第1次诱导后表达量分别提高13、38、20倍,在第2次诱导后分别提高7、16、6倍。RQ-PCR结果表明基因表达和Tc积累之间存在紧密相关性：基因表达的变化与Tc产量的变化相一致,诱导可提高6个基因的表达量。基因的高表达随着培养过程逐渐衰减,再次诱导可再次促使基因的高表达。     

摇瓶培养条件下雷公藤不定根生长及次生代谢产物含量的研究

以雷公藤(Tripterygium wilfordii Hook. f.)不定根为材料,研究摇瓶悬浮培养条件下接种密度、装液比例、逐级放大、消泡剂、大孔吸附树脂种类及浓度对雷公藤不定根增长量、不定根及培养基中雷公藤内酯醇、雷公藤吉碱、雷公藤次碱含量的影响。结果显示,接种密度在15 g/L (FW)时较适合不定根的继代培养和次生代谢产物的积累。250 m L摇瓶中装入100 m L培养基,即装液量为2/5时,培养基利用率最高。随着摇瓶体积的逐渐放大,不定根增长量和3种次生代谢产物含量略有下降,5 L摇瓶中不定根增长量为对照的91.6%,内酯醇、吉碱和次碱的含量分别为对照的91.8%、91.7%和96.9%。6种大孔吸附树脂中,XAD-7处理对不定根的生长有明显促进作用,培养结束时,3种次生代谢产物产量显著提高,当XAD-7浓度为0.5 g/瓶时不定根增长量为对照的1.2倍,内酯醇、吉碱和次碱产量最高,分别为对照的2.9、2.4和2.2倍。培养基中添加消泡剂后不定根增长量、3种次生代谢产物总产量均不同程度下降,其中,LX-603处理后,虽然不定根增长量为对照的85%,内酯醇、吉碱和次碱产量分别为对照的78%、64%和87%,但明显抑制了培养过程中泡沫的产生。研究结果表明筛选的摇瓶逐级放大培养雷公藤不定根的方法效果较好,可为雷公藤不定根生物反应器放大培养奠定基础。     

均匀设计法优化发菜细胞悬浮培养条件

通过摇瓶发酵实验研究了培养温度、光照强度等培养条件对发菜细胞悬浮培养生物量和代谢产物发菜多糖累积的影响,通过均匀设计试验对培养条件进行了优化。结果表明:在培养温度24℃、培养基初始pH8.0、光照强度60μmol/(m2.s)、转速150r/min的条件下培养20d,发菜细胞生物量(细胞质量浓度)达到1.34g/L,胞外多糖产量达到208.32mg/L;与优化前相比,发菜细胞生物量和胞外多糖产量分别提高27.3%、111.17%。     

前体饲喂、诱导子和光照联合使用对葡萄细胞培养合成花青素的影响

苯丙氨酸前体饲喂分别和环糊精、葡聚糖、茉莉酸甲酯、黑曲霉和直喙镰孢菌提取液五种诱导子联合作用,其中以与茉莉酸甲酯的联合作用对葡萄细胞培养生产花青素的影响最大,可使单位鲜细胞花青素含量提高2.7倍,花青素产量提高3.4倍,实验证明两者在培养后第4天加入效果最好。在30μmol/L苯丙氨酸、218μmol/L茉莉酸甲酯和3000~4000lx光照条件下,不同花青素产量的细胞株都能显著提高花青素产量,但低产株VV06比高产株VV05具有更大的产率提高潜力。该条件下VV05和VV06花青素产量分别达到2975和4090CV/L,是对照组的2.5倍和5.2倍。     

四种前体对胀果甘草细胞悬浮培养生产甘草黄酮的调控效果评价

在胀果甘草细胞悬浮体系中加入苯丙氨酸、酪氨酸、肉桂酸和乙酸钠来研究前体对甘草细胞生产甘草黄酮的影响。结果显示,4种前体在合适的浓度下对细胞的生长没有明显的抑制作用,而且均能促进细胞内甘草黄酮的生物合成,但高浓度的肉桂酸对细胞的生长有一定的抑制作用。苯丙氨酸的最佳添加浓度为20 mg/L,酪氨酸、肉桂酸、乙酸钠的最佳添加浓度都是5 mg/L。此时,均可使培养体系的甘草黄酮产量高达100 mg/L以上,其中酪氨酸的添加使得产量高达对照的1.43倍。苯丙氨酸、肉桂酸和乙酸钠3种前体的添加时间均以第10天为宜,酪氨酸添加时间以第5天为最佳。而且,在添加苯丙氨酸和乙酸钠后的第3天收获细胞,此时细胞的生物量和甘草黄酮产量最大。此外,苯丙氨酸、乙酸钠的添加可以增加黄酮合成的关键酶之一——苯丙氨酸裂解酶的活性。酪氨酸对苯丙氨酸裂解酶影响不大,而肉桂酸的添加却导致其活性显著降低。     

茉莉酸甲酯、水杨酸和一氧化氮诱导怀槐悬浮细胞合成异黄酮及细胞结构变化

本文对比研究了茉莉酸甲酯(MeJA)、水杨酸(SA)和一氧化氮(NO)三种激发子对怀槐悬浮培养物异黄酮合成及细胞结构变化的影响。结果表明,在三种激发子的作用下怀槐细胞异黄酮合成量显著提高:200μmol/L MeJA、100μmol/L SA及50μmol／L SNP处理培养细胞9d后,异黄酮含量分别为同期对照的417．18％、185．45％和222．45％。同时细胞内发现染色很深的电子致密小体(EDB),其数量随着异黄酮含量的升高而增加,亦在第九天达到最多,与异黄酮积累呈现正相关性。推测激发子可能诱导植物细胞结构变化来响应次生代谢产物的合成。     

溶藻细菌L7对水华鱼腥藻氮代谢的影响

【目的】进一步探明藻菌关系,研究溶藻细菌对藻类氮代谢的影响及其作用机制。【方法】将水华鱼腥藻和溶藻细菌L7按两种比例接种入BG11培养液中,在室内进行共培养(藻细胞初始密度为1.21×108cells/L;溶藻细菌L7初始密度分别为1.75×107、1.75×108CFU/mL)。连续7 d测定藻细胞数、异形胞频率和藻细胞内的硝酸还原酶(NR)活性、谷氨酰胺合成酶(GS)活性、谷氨酸合成酶(GOGAT)活性、蛋白质含量、丙二醛(MDA)含量。【结果】低密度溶藻细菌L7能够促进藻生长(第7天藻细胞密度是对照组的1.58倍),增加异形胞频率(第7天高于对照组66.67%);高密度则会抑制藻生长(第7天藻细胞密度相比对照组下降98.84%),降低异形胞频率(第7天为0)。在藻细胞内氮代谢关键酶活性方面,接种后2 5 d,两处理组中藻细胞内NR和GOGAT活性均极显著高于对照组(P<0.01);接种后0 5 d,高密度处理组的GS活性极显著高于对照组(P<0.01),而低密度处理组的则在大部分时间内极显著低于对照组(P<0.01)。在整个实验期内,低密度处理组中藻细胞内蛋白质含量一直极显著高于对照组(P<0.01);而在高密度处理组中,除第5天外,细胞内蛋白质含量则全部极显著低于对照组(P<0.01)。接种后2 4 d,高密度处理组中藻细胞内MDA含量呈现上升趋势,并极显著高于其余两组(P<0.01)。【结论】低密度溶藻细菌L7能够提高水华鱼腥藻对氮源的需求,加速蛋白质合成,促进氮代谢;而高密度溶藻细菌L7会对藻细胞产生过氧化伤害,阻碍蛋白质合成和氮代谢过程。     

褪黑素激活大鼠大脑中动脉BKCa通道的受体依赖和非受体依赖途径

目的：研究褪黑素通过大电导Ca²⁺激活K⁺（BK_Ca）通道介导大脑中动脉张力变化的作用机制。方法：8周龄雄性Wistar大鼠,麻醉后取大脑中动脉,酶消化法急性分离脑中动脉平滑肌细胞,采用膜片钳技术全细胞记录模式检测细胞外液加入褪黑素前后BK_Ca通道和电压门控钾（K_V）通道的电流密度,褪黑素受体抑制剂2-苯基-N-乙酰色胺（luzindole）孵育后,全细胞记录模式记录加入褪黑素后BK_Ca通道电流幅值和贴附式单通道记录模式记录加入褪黑素后BK_Ca通道Po值,内面向外记录模式检测加入褪黑素后BK_Ca通道电导（G）,开放概率（Po）,平均开放时间（To）和关闭时间（Tc）。结果：①褪黑素（100 μmol/L）显著增加全细胞BK_Ca通道电流密度,但对K_V通道电流密度无显著影响;②luzindole （1 μmol/L）显著抑制褪黑素引起的BK_Ca通道电流密度增加;③贴附式单通道记录模式下,褪黑素（100 μmol/L）增加BK_Ca单通道Po值,luzindole （1 μmol/L）显著抑制褪黑素引起的Po增加;④内面向外单通道记录模式下,褪黑素（1 μmol/L,100 μmol/L）缩短BK_Ca单通道的To和Tc值,且Tc较To显著缩短;结论：褪黑素通过受体依赖和非受体依赖途径激活BK_Ca通道,介导大脑中动脉血管舒张。     

谷氨酸对花生四烯酸产生菌被孢霉发酵的影响

研究了不同浓度谷氨酸对被孢霉生产花生四烯酸的影响,发现当加入谷氨酸浓度为0.8g/L时总油脂和花生四烯酸产量达最高,选择0.8g/L谷氨酸进行花生四烯酸产生菌被孢霉发酵动力学研究的结果表明,在培养基中加入0.8g/L谷氨酸可以明显促进被孢霉的生长,加速基质代谢,提高单位被孢霉中的油脂和花生四烯酸产量,尤其在发酵第7d时生物量、油脂和花生四烯酸产量达到最大,分别为24.43、9.21、1.41g/L,分别是对照组第7d所得的1.13、1.15和1.69倍。     

Significantly improved taxuyunnanine C production in cell suspension cultures of <Emphasis Type="Italic">Taxus chinensis</Emphasis> by process intensification of repeated elicitation,sucrose feeding,and in situ adsorption

A highly efficient process intensification strategy was developed to enhance the taxuyunnanine C (Tc) production in Taxus chinensis (T. chinensis) by combining repeated elicitation with a synthesized jasmonate analog, 2,3-dihydroxypropyl jasmonate (DHPJA), sucrose feeding and in situ adsorption. Suspension cultures of a high Tc-producing cell line of T. chinensis were supplemented twice, on day 7 and day 12, with 100 μM DHPJA. The cultures were also supplemented by feeding 20 g sucrose/l and 100 g Ambelite XAD-7/l on day 7. This strategy had a synergistic effect on Tc synthesis, causing a significant increase in the Tc yield to 1,715.13 ± 124.12 mg/l on day 21. The yield was 3.28-fold above that produced by repeated DHPJA elicitation combined with sucrose feeding. When XAD-7 was replaced by Amberlite XAD-7 HP, the result was slightly different. The highest Tc yield of 1,728.84 ± 50.37 mg/l was achieved on day 27. The Tc yield achieved here is greater than twice the highest yield reported previously, the sole reported taxoid production yield above the gram per liter level. Given the pharmaceutical importance of taxoids, the results of this study will greatly contribute to the potential industrial production of Tc and other taxoids by plant cell cultures.     

Highly efficient strategy for enhancing taxoid production by repeated elicitation with a newly synthesized jasmonate in fed-batch cultivation of Taxus chinensis cells

A highly efficient bioprocessing strategy was developed for enhancing the production of plant secondary metabolites by repeatedly eliciting a fed-batch culture with a newly synthesized powerful jasmonate analog, 2,3-dihydroxypropyl jasmonate (DHPJA). In suspension cultures of a high taxuyunnanine C (Tc)-producing cell line of Taxus chinensis, 100 microM DHPJA was added on day 7 to fed-batch cultures with feeding of 20 g L(-1) sucrose on the same day. The synergistic effect of elicitation and substrate feeding on Tc biosynthesis was observed, which resulted in higher Tc accumulation than that by elicitation or sucrose feeding alone. More interestingly, both specific Tc yield (i.e., Tc content) and volumetric yield was further improved by a second addition of 100 microM DHPJA (on day 12) to the fed-batch cultures. In particular, with repeated elicitation and sucrose feeding the Tc volumetric yield was increased to 827 +/- 29 mg L(-1), which was 5.4-fold higher than that of the nonelicited batch culture. Furthermore, the above novel strategy was successfully applied from shake flask to a 1-L airlift bioreactor. A high Tc production and productivity of 738 +/- 41 mg L(-1) and 33.2 +/- 1.9 mg L(-1) d(-1), respectively, was achieved, which is higher than previous reports on Tc production in bioreactors. The results suggest that the aforementioned bioprocessing strategy may potentially be applied to other cell culture systems for efficient production of plant secondary metabolites.     

Elicitation and in situ adsorption enhanced secondary metabolites production of Tripterygium wilfordii Hook. f. adventitious root fragment liquid cultures in shake flask and a modified bubble column bioreactor

The experiments of elicitation and in situ adsorption were conducted in shake flasks and then tested in a modified bubble column bioreactor for enhancing the productions of three active metabolites in Tripterygium wilfordii Hook. f., triptolide, wilforgine and wilforine. Methyl jasmonate was screened out as the elicitor and the non-ionic polymeric ion-exchange resin of Amberlite^® XAD-7 was used for in situ product removal and protecting the alkaloids from degradation in the medium. In shake flask experiments, 3.55-fold, 49.11-fold, and 10.40-fold of triptolide, wilforgine, and wilforine, respectively, could be recovered from the medium and XAD-7 resin by elicitation and in situ product removal, compared with the control. The modified 10 L bubble column bioreactor had similar productions of the three active metabolites but needed a further optimization of parameters for better growth of adventitious roots.     

A combination of elicitation and precursor feeding leads to increased anthocyanin synthesis in cell suspension cultures of <Emphasis Type="Italic">Vitis vinifera</Emphasis>

Both elicitation and precursor feeding are effective strategies for improving secondary metabolite production in plant cell suspension cultures. In this study, cell suspension cultures of Vitis vinifera subjected to methyl jasmonate treatment resulted in a significant increase in levels of anthocyanin production. Moreover, a combination of 5 mg/L phenylalanine and 50 mg/L methyl jasmonate promoted the highest level of anthocyanin biosynthesis, resulting in 4.6- and 3.4-fold increases in anthocyanin content and yield, respectively, over the control. The optimum period for elicitation of anthocyanin synthesis was 4 days following incubation in the presence of elicitors, at the beginning of the exponential growth phase. V. vinifera cell lines of different anthocyanin-producing capabilities responded differently to elicitation and precursor feeding. Anthocyanin production of a low-producing cell line, VV06, could be enhanced with addition of elicitors and precursor feeding. Methyl jasmonate was the only elicitor that increased anthocyanin production of the high-producing cell line VV05, but contributed to moderate enhancement of anthocyanin production compared with VV06. For cell line VV06, synergistic effects were observed for all treatment combinations of methyl jasmonate along with other elicitors and precursors. In addition, 6.1- and 4.6-fold increases in anthocyanin content and yield, respectively, were obtained in the presence of 5 mg/L phenylalanine, 50 mg/L methyl jasmonate, and 1 mg/L dextran. However, none of these treatment combinations exhibited synergistic effects in cell line VV05.     

Novel synthetic jasmonates as highly efficient elicitors for taxoid production by suspension cultures of Taxus chinensis

Suspension cultures of Taxus chinensis were used as a model plant cell system to evaluate novel synthetic jasmonates as elicitors for stimulating the biosynthesis of secondary metabolites. Significant increases in accumulation of taxuyunnanine C (Tc) were observed in the presence of newly synthesized 2-hydroxyethyl jasmonate (HEJA) and trifluoroethyl jasmonate (TFEJA) without their inhibition on cell growth. Addition of 100 microM HEJA or TFEJA on day 7 led to a high Tc content of 44.3 +/- 1.1mg/g or 39.7 +/- 1.1 mg/g (at day 21), while the Tc content was 14.0 +/- 0.1 mg/g and 32.4 +/- 1.6 mg/g for the control and that with addition of 100 microM methyl jasmonate (MJA), respectively. The superior stimulating ability of HEJA and TFEJA over MJA, which was generally considered as the best chemical for eliciting taxoid biosynthesis, suggests that the novel jasmonate analogues may have great potential in application to other cell culture systems for effcient elicitation of plant secondary metabolites.     

诱导子对藏红花悬浮培养细胞生产藏红花色素的影响

考察壳聚糖（chitosan）、壳寡糖（chitosanoligosaccharides,COS）、茉莉酸甲酯（methyljasmonate,MJ）、水杨酸（salicylicacid,SA）和Cu2＋等诱导子对藏红花悬浮培养细胞生长和藏红花色素合成的影响。结果表明：在实验考察浓度范围内,壳寡糖（1～500mg／L）和较低浓度壳聚糖（≤10mrdL）、MJ（≤10μmol／L）、SA（≤10μμmol／L）和Cu2＋（≤1μmoL／L）对细胞生长无显著影响;较高浓度壳聚糖（≥100mg／L）、MJ（≥100μmol／L）、SA（≥100μmoL／L）和cu“（≥10μmoL／L）显著抑制细胞生长。5种诱导子对藏红花色素合成的诱导效果不同,并且与诱导子作用浓度和添加时间有关。MJ诱导效果最好,在细胞培养第0天添加终浓度100仙moL／LMJ,藏红花色素含量（以1克干细胞计）达到28．57mg,比对照提高177．9％。其次是cu“,在细胞培养第4天添加终浓度500μmoL／LCu2＋,色素含量达到19．82mg,比对照提高108．2％。再次是壳聚糖和壳寡糖,在细胞培养第14天分别添加终质量浓度100mg／L壳聚糖和壳寡糖,色素含量分别达到18．33和17．39mg,比对照提高69．1％和69．0％。最后是SA,在细胞培养第14天添加终浓度10μmoL／LSA,色素含量达到14．65mg,比对照提高45．4％。     

NO和茉莉酸甲酯对黄芩悬浮细胞生长及黄芩苷合成的影响

以硝普钠(sodium nitroprusside, SNP)为一氧化氮(nitric oxide, NO)的供体, 向黄芩(Scutellaria baicalensis)悬浮培养细胞系中添加SNP和茉莉酸甲酯(methyl jasmonate, MJ), 考察这两种诱导子在不同的添加时间、添加浓度及混合配比使用对黄芩悬浮细胞系生长和黄芩苷含量的影响。研究结果表明：低浓度的外源NO有利于细胞的生长, 但对黄芩苷积累无作用, 而MJ有利于黄芩苷的合成, 但抑制细胞生长,且两者的适用浓度范围和添加时间存在差异。在细胞培养初期(0天)添加0.05 mmol.L-1 SNP, 而在细胞生长对数中期(8天)添加10 μmol.L-1的MJ, 细胞鲜重可达到对照的1.2倍, 黄芩苷总量达到对照的2.96倍。     

茉莉酸甲酯与水杨酸对肉苁蓉悬浮细胞中苯乙醇甙合成的影响

向肉苁蓉悬浮细胞培养系中添加茉莉酸甲酯(MJ)和水杨酸(SA) ,分别考察了这两种诱导子的添加浓度及添加时间对肉苁蓉悬浮细胞系中苯乙醇甙含量的影响。研究结果表明:MJ和SA能够促进肉苁蓉悬浮细胞系中苯乙醇甙(PeG)和松果菊甙(Echinacoside)的合成,但两者的适用的浓度范围和最佳添加时间存在差异。与未经诱导子处理的细胞培养结果相比,MJ在对数生长初期(培养14d) ,添加浓度为5 μmol L条件下,可使肉苁蓉悬浮细胞系中PeG含量提高2 5 9倍,Echin含量提高3 82倍;而SA在对数生长后期(培养2 8d) ,添加浓度为5 0 μmol L条件下,可使PeG含量提高2 71倍,Echin含量提高3 16倍。     

Novel chemically synthesized hydroxyl-containing jasmonates as powerful inducing signals for plant secondary metabolism

Novel hydroxyl-containing jasmonate derivatives were chemically synthesized and evaluated by bioassay as potential elicitors for stimulating the biosynthesis of plant secondary metabolites. A suspension culture of Taxus chinensis, which produces a bioactive taxoid, taxuyunnanine C (Tc), was taken as a model plant cell system. Experiments on the timing of addition of jasmonates and dose response indicated that day 7 and 100 microM was the optimal elicitation time and concentration, respectively, for both cell growth and Tc accumulation. Tc accumulation was increased more in the presence of novel hydroxyl-containing jasmonates compared to that with methyljasmonate (MJA) addition. For example, addition of 100 microM 2,3-dihydroxypropyl jasmonate on day 7 led to a very high Tc content of 47.2 +/- 0.5 mg/g (at day 21), whereas the Tc content was 29.2 +/- 0.6 mg/g (on the same day) with addition of 100 microM MJA. Quantitative structure-activity analysis of various jasmonates suggests that the optimal lipophilicity and the number of hydroxyl groups may be two important factors affecting their elicitation activity. In addition, the jasmonate elicitors were found to induce plant defense responses, including oxidative burst and activation of L-phenylalanine ammonia lyase (PAL). Interestingly, a higher level of H(2)O(2) production and PAL activity was detected with elicitation by the synthesized jasmonates compared with that by MJA, which corresponded well to the superior stimulating activity in the former. This work indicates that the newly synthesized hydroxyl-containing jasmonates can act as powerful inducing signals for secondary metabolite biosynthesis in plant cell cultures.