Effects of sucrose on betacyanin accumulation and growth in suspension cultures of Phytolacca americana

The effects of sucrose on betacyanin accumulation and growth in suspension cultures of Phytolacca americana L. were investigated. Maximal betacyanin accumulation was observed at 88 m M sucrose on cell number basis and at 175 m M sucrose on fresh weight basis. This is because cell size decreased as the initial sucrose concentration was increased. Supplementary studies using mannitol indicated that sucrose itself caused increased cell number and that cell size was affected by both sucrose concentration and water potential. Betacyanin accumulation per cell and per fresh weight at a constant concentration of sucrose (88 m M ) decreased with decreasing water potential. When sucrose concentration increased at a constant water potential (–0.7 MPa), betacyanin accumulation per fresh weight increased up to 88 m M and remained at constant level at higher concentrations, while betacyanin accumulation per cell decreased remarkably, due to a dramatic increase in cell number.     

Effects of nitrogen source on betacyanin accumulation and growth in suspension cultures of Phytolacca americana

In suspension cultures of Phytolacca americana L., betacyanin accumulation per cell increased with increasing total nitrogen concentration (initial NH⁺₄:NO⁻₃ ratio 1:2) in the range 0–40 m M and then remained almost constant in the range 40–80 m M . Increasing ammonium increased growth while betacyanin accumulation was reduced. On the other hand, betacyanin accumulation increased when nitrate was increased while growth was almost constant in the concentration range examined. A time-course study of ammonium and nitrate concentration changes in the medium showed that betacyanin accumulation was associated with nitrate uptake.     

Stimulation by 2,4-dichlorophenoxyacetic acid of betacyanin accumulation in suspension cultures of Phytolacca americana

2,4-Dichlorophenoxyacetic acid (2,4-D) strongly promoted betacyanin accumulation in suspension cultures of Phytolacca americana L. The betacyanin accumulation attained a maximum at 5 μ M 2,4-D, when betacyanin content per cell reached 252% as compared to the control (2,4-D free). 2,4-D elevated the level of free tyrosine, which is the precursor of betacyanin. The addition of 1 m M tyrosine to the medium partially reversed the reduction of betacyanin accumulation caused by the removal of 2,4-D. Tracer experiments using labelled tyrosine showed that 2,4-D activated the biosynthetic pathway from tyrosine to betacyanin. These results indicate that a sufficient supply of tyrosine and the activation of biosynthesis of betacyanin from tyrosine by 2,4-D elevate the level of betacyanin.     

Regulatory mechanisms of biosynthesis of betacyanin and anthocyanin in relation to cell division activity in suspension cultures

Regulatory mechanisms of betacyanin biosynthesis in suspension cultures of Phytolacca americana and anthocyanin in Vitis sp. were investigated in relation to cell division activity.Betacyanin biosynthesis in Phytolacca cells clearly shows a positive correlation with cell division, as the peak of betacyanin accumulation was observed at the log phase of batch cultures. Incorporation of radioactivity from labelled tyrosine into betacyanin also showed a peak at early log phase. Aphidicolin, an inhibitor of DNA synthesis, and propyzamide, an antimicrotubule drug, reduced betacyanin accumulation and inhibited the incorporation of radioactivity from labelled tyrosine into betacyanin at concentrations which were inhibitory to cell division. Both inhibitors reduced the incorporation of radioactivity from labelled tyrosine to 3,4-dihydroxyphenylalanine (DOPA), but the incorporation of labelled DOPA into betacyanin was not affected. These results suggest that the conversion of tyrosine to DOPA is coupled with cell division activity.In contrast, the anthocyanin accumulation in Vitis cells showed a negative correlation with cell division. Accumulation occurred at the stationary phase in batch cultures when cell division ceased. Aphidicolin or reduced phosphate concentration induced a substantial increase in anthocyanin accumulation as well as the inhibition of cell division. Chalcone synthase (CHS) activity increased at the time of anthocyanin accumulation. Northern blotting analysis indicated that changes in CHS mRNA levels corresponded to similar changes in enzymatic activity. The pool size of endogenous phenylalanine was low during active cell division, but increased before anthocyanin began to accumulate and concomitantly with increasing levels of CHS mRNA. Exogenous supply of phenylalanine at the time of low endogenous levels induced the elevation of CHS mRNA and anthocyanin accumulation. These results indicate that the elevation of endogenous phenylalanine levels, when cell division ceases, may cause the increase in CHS mRNA levels, resulting in increased CHS activity and subsequently in anthocyanin accumulation in Vitis suspension cultures.Abbreviations CHS chalcone synthase - CHFI chalcone flavanone isomerase - DOPA 3,4-dihydroxyphenylalanine - PAL phenylalanine ammonia lyase     

气体成分对植物细胞悬浮培养的影响

气体成分对植物悬浮培养细胞的生长和次生代谢物的产量有深刻的影响。就有关氧、二氧化碳、乙烯和一些未知成分作用的研究进行了综述。     

Accumulation and detoxification of manganese in hyperaccumulator Phytolacca americana

Pokeweed ( Phytolacca americana ) has recently received much attention because of its ability to hyperaccumulate manganese (Mn). The internal mechanism of detoxification of Mn, however, is not fully understood. In the present study, we investigated Mn accumulation, subcellular distribution, chemical speciation and detoxification through oxalate in pokeweed. The plant accumulated excess Mn in the leaves, mainly in the water-soluble fraction, and over 80% of Mn was in a water-soluble form, while accumulation of excess Mn in the cellular organelle and membrane fraction caused phytotoxicity. In addition, pokeweed has an intrinsically high oxalate content. In all experiments, there was sufficient oxalate to chelate Mn in leaf water extracts at all different levels of Mn application. Phase analysis of X-ray diffraction detected oxalate–Mn chelate complexes, and gel chromatography further confirmed the chelation of Mn by oxalate. In conclusion, pokeweed accumulates excess Mn in the soluble fraction of leaf cells, most likely in vacuoles, in which detoxification of Mn could be achieved by chelation with oxalate.     

Medicinal plant cell suspension cultures: pharmaceutical applications and high-yielding strategies for the desired secondary metabolites

The development of plant tissue (including organ and cell) cultures for the production of secondary metabolites has been underway for more than three decades. Plant cell cultures with the production of high-value secondary metabolites are promising potential alternative sources for the production of pharmaceutical agents of industrial importance. Medicinal plant cell suspension cultures (MPCSC), which are characterized with the feature of fermentation with plant cell totipotency, could be a promising alternative “chemical factory”. However, low productivity becomes an inevitable obstacle limiting further commercialization of MPCSC and the application to large-scale production is still limited to a few processes. This review generalizes and analyzes the recent progress of this bioproduction platform for the provision of medicinal chemicals and outlines a range of trials taken or underway to increase product yields from MPCSC. The scale-up of MPCSC, which could lead to an unlimited supply of pharmaceuticals, including strategies to overcome and solution of the associated challenges, is discussed.     

Changes in the pattern of phospholipid synthesis during the induction by cytokinin of cell division in soybean suspension cultures

A method is described for preparing fully viable, cytokinin-starved soybean (Glycine max (L.) Merr. cv. Acme) cells from a suspension-culture of callus tissue. The cells respond to kinetin treatment by re-initiating cell division. We present evidence, from the pattern of incorporation of ³²P-labelled inorganic phosphate into individual phospholipids during the first hour of this response, that the synthesis of phosphatidylinositol (PI) and of phosphatidic-acid head-groups is affected within 15 min. The polyphosphoinositide phosphatidylinositol 4-phosphate, but not phosphatidylinositol 4,5-bisphosphate, was detected in the tissue. The characteristics of cytokinin-induced PI synthesis in cytokinin-starved soybean cells appear to resemble the PI response of animal cells.Abbreviations DPG diphosphatidylglycerol - PA phosphatidic acid - PC phosphatidylcholine - PE phosphatidylethanolamine - PG phosphatidylglycerol - PI phosphatidylinositol - PIP phosphatidylinositol 4-phosphate - PIP₂ phosphatidylinositol 4,5-bisphosphate - PS phosphatidylserine - Pi inorganic phosphate - TLC thin-layer chromatography     

Shear stress effects on plant cell suspension cultures in a rotating wall vessel bioreactor

A rotating wall vessel, designed for growth of mammalian cells under microgravity, was used to study shear effects on Taxus cuspidata plant suspension cell cultures. Shear stress, as quantified by defined shear fields of Couette viscometers, improved specific cell growth rates and was detrimental to volumetric product formation rates. Received 5 January 1998/ Accepted in revised form 8 December 1998     

Production of aroma compounds from strawberry cell suspension cultures by addition of precursors

The potential of using short-chain fatty acids and -keto-acid as precursors for the production of typical fruit-type aroma compounds by strawberry cell suspension cultures was investigated. Analysis of the headspace by gas chromatography revealed that supplemented strawberry cell suspension cultures were capable of producing low concentrations of ethyl butyrate and butyl butyrate, and converting -ketovalerate to butanal and butanol. No aroma compounds were produced in unsupplemented or heat-treated cell suspension cultures. The results indicated that esterase, decarboxylase, and alcohol dehydrogenase might exist in strawberry cell cultures. Increasing temperature, illumination and addition of mannitol favoured the production of butyl butyrate. No difference was found between one- and two-week-old cultures in the ability to convert precursors to corresponding aroma compounds.     

A method for growing stationary plant suspension cell cultures

Summary Stationary culture of plant cell suspensions has been achieved. Slurries, produced when small amounts of agar (0.1–0.4%) were added to culture media, were used to suspend plant cells. Growth proceeded more slowly than in standard shake culture, but cells remained viable for months of culture. This method of growing plant cells in stationary culture should be useful for general applications including long-term cell culture, shipment of cultures, and physiological, molecular biological, and pathological studies. Mention of a trademark, proprietary product, or vendor does not constitute a guarantee or warranty of the product by the U.S. Department of Agriculture and does not imply its approval to the exclusion of other products or vendors that may also be suitable. Editor’s Statement This procedure for growing stationary suspension cultures in an agar slurry should be useful for shipping suspensions and for long-term maintenance of little used or back-up cultures.     

刺激剂对植物细胞悬浮培养的影响

对刺激剂对植物细胞悬浮培养的影响及如何提高刺激剂的诱导率进行了综述。刺激剂对细胞悬浮培养的影响主要表现为酶活化、蛋白质含量改变、氧迸发、细胞程序性死亡、pH值改变、次生代谢产物积累等防御反应。提高刺激剂对悬浮培养细胞的诱导效率必须优化刺激剂的种类,刺激剂的浓度和加入时间,创建更好的诱导模式。     

Cell cycle analysis of Taxus suspension cultures at the single cell level as an indicator of culture heterogeneity

Single cell growth and division was measured via flow cytometry in order to characterize the metabolic variability of Taxus cuspidata suspension cultures, which produce the valuable secondary metabolite Taxol. Good agreement was observed between the cell cycle distribution and biomass accumulation over the batch culture period. Specific growth rates of 0.13 days(-1) by fresh weight and 0.15 days(-1) by dry weight were measured. Elicitation with methyl jasmonate (MJ) significantly decreased both cell cycle progression and biomass accumulation, as the specific growth rate decreased to 0.027 days(-1) by fresh and dry weight. Despite the decrease in biomass accumulation for MJ elicited cultures, sucrose utilization was not significantly different from control cultures. MJ elicitation also increased the accumulation of paclitaxel and other taxanes. The accumulation of upstream taxanes (baccatin III and 10-deactylbaccatin III) increased during exponential growth, reached a maximum around day 12, and then declined throughout the stationary phase. The paclitaxel concentration increased during both exponential growth and stationary phase, reaching a maximum around days 20-25. Throughout the culture period, greater than 70% of the cells were in G(0)/G(1) phase of the cell cycle. Studies using bromodeoxyuridine (BrdU) incorporation showed that approximately 65% of the Taxus cells are noncycling, even during exponential growth. Although the role of these cells is currently unknown, the presence of a large, noncycling subpopulation can have a significant impact on the utilization of plant cell culture technology for the large-scale production of paclitaxel. These results demonstrate that there is a high degree of metabolic heterogeneity in Taxus cuspidata suspension cultures. Understanding this heterogeneity is important for the optimization of plant cell cultures, particularly the reduction of production variability.     

美洲商陆中新发现的一种抗菌蛋白基因的克隆和表达

自美洲商陆(PhytolaccaamericanaL.)的种子中发现了一种具有38个氨基酸残基的蛋白(PaAFP),它有明显抑制立枯丝核菌(RhizoctoniasolaniKiihn)作用。依此蛋白的氨基酸序列合成引物,从该种子的mRNA中,通过逆转录PCR,获得了这一基因的具有65个氨基酸的前体蛋白cDNA序列(已在GenBank注册),将这一成熟蛋白的cDNA克隆在pGEX4T1上,并转化到大肠杆菌(E.coli),融合蛋白被大量表达。表达产物经谷胱甘肽Sepharose4B亲合层析,融合蛋白被纯化。纯化后的融合蛋白经凝血酶(thrombin)作用,将谷胱甘肽S转移酶降解,从而获得这一抗真菌蛋白     

Phenolic synthesis in Perilla cell suspension cultures

Suspension cultures of Perilla ocymoides accumulate caffeic acid, both in free and ester forms, as the only phenylpropanoid end metabolite. Increased levels of growth substances influenced the levels of PAL activity and phenolic accumulation so that cytokinin stimulated, while auxin repressed both parameters. The regulatory role of caffeyl compounds is discussed in relation to their accumulation during the early exponential phase of culture growth.     

Cloning and Expression of a New Gene Encoding an Antifungal Protein in Phytolacca americana

protein (Pa-AFP) with molecular weight about 4 kD was purified from the seeds of Phytolacca americana L. , which obviously inhibits the growth of Rhizoctonia solani Kiihn in vitro. The authors isolated mRNA from the seeds of pokeberry and designed a degenerate PCR primer according to the N-terminal sequence of the purified protein. The full-length cDNA encoding Pa-AFP was cloned by RT-PCR and 5'-RACE and sequenced. The deduced amino acid sequence indicates that a preprotein with 65 amino acid residues is firstly translated and then processed to a mature protein with 38 amino acids. The DNA encoding the mature protein was subcloned into expression vector pGEX-4T1, and expressed efficiently in E. coli BL21 as a GST- Pa-AFP fusion protein. The fusion protein was purified by glutathione-Sepharose 4B affinity colmnn chromatography. The purified fusion protein was specifically digested by thrombin and the Pa-AFP was further purified by filtration column chromatography.     

光对商陆发状根生长和PAP基因表达的影响

利用发根农杆菌菌株Ar1334与美洲商陆(Phytolacca americana)叶片外植体共培养转化体系,共获得58个发状根无性系(SL-1~58).以发根农杆菌Ri质粒TL-DNA上的rol C基因设计特异引物,对发状根进行PCR检测,得到了预期的560 bp目的片段,表明Ri质粒T-DNA整合到发状根基因组中.将筛选出的株系SL-7接种在MS培养基上分别置于光、暗条件下进行培养.结果发现:SL-7在暗培养条件下呈乳白色,具有多分枝、多根毛、无向地性等典型的发状根特性;在光培养条件下,发根呈粉红色,少分支且生长缓慢;以商陆抗病毒蛋白(pokeweed antiviral protein,PAP)cDNA片段为探针,分别对光、暗条件下的发状根进行Northern blot检测,发现光对PAP基因的转录具有一定抑制作用;将发状根粗蛋白提取液与TMV病毒液混合后,摩擦接种于心叶烟(Nicotiana glutinosa)离体叶片,发现暗培养的发状根粗蛋白提取液对TMV抗性明显提高.表明商陆发状根的生长及PAP基因的表达都受到光的负向调控.该结果为商陆发状根的规模化培养和PAP蛋白的离体合成优化体系的建立奠定了基础.     

Isolation and Some Properties of the Antimicrobial Peptide (Pa-AMP) from the Seeds of Pokeweed (Phytolacca americana).

An antimicrobial peptide, designated Pa-AMP, was purified by gel filtration on Sephadex G-75 followed by S-Sepharose, Cosmosil-SP, and reverse-phase HPLC from the seeds of pokeweed (Phytolacca americana). Pa-AMP is a basic peptide having an isoelectric point of over 10 and its extinction coefficient at 280 nm of 1% aqueous solution was 7.7. Pa-AMP has a molecular mass of 4 kDa and 3.4 kDa on tricine SDS-PAGE under nonreducing and reducing conditions, respectively. The N-terminal amino acid of Pa-AMP was blocked. The concentrations of peptide required for 50% inhibition (IC₅₀) of the growth of plant pathogenic fungi, Gram-positive, and Gram-negative bacteria were 3 to 41 μg/ml. Differing from other peptides, Pa-AMP inhibited the growth of some Gram-negative bacteria.     

Comparison of Phytolacain G,a Cysteine Protease from Fruit of Phytolacca americana,with Phytolacain R

The enzymatic properties of phytolacain G, a protease isolated from green fruit of pokeweed, were compared with those of phytolacain R, a protease obtained from ripe fruit. The optimum pH of phytolacain G was 7.5-8.0 at 37°C using casein as the substrate. The enzyme was strongly inhibited by iodoacetic acid and p-chloromercuribenzoic acid, but not by diisopropyl fluorophosphate or EDTA. These results indicated that phytolacain G was a cysteine protease, like phytolacain R. Nine sites of oxidized insulin B-chain were cleaved by phytolacain G during 20 h of hydrolysis. The six sites cleaved by phytolacain G were also cleaved by phytolacain R. The substrate specificity of phytolacain G was broad, but the preference for hydrophobic residues at the P₂ position was similar to the substrate specificity of papain. The amino-terminal sequence of phytolacain G was not identical with that of phytolacain R; however, the amino acid residues conserved in the papain family were also conserved in this enzyme.