Biosynthesis of myo-inositol and its role as a precursor of cell-wall polysaccharides in suspension cultures of wild-carrot cells

The biosynthesis of myo-inositol (MI) and its role as a precursor of cell-wall polysaccharides was studied in supension cultures of wild carrot (Daucus carota L.) cells. Suspension cultures, grown in the presence or absence of 2,4-dichlorophenoxyacetic acid for 7 and 14d were incubated with [U-¹⁴C]glucose and [2-³H]MI in the presence of different concentrations of unlabeled MI. Synthesis of [¹⁴C]MI from [U-¹⁴C]glucose occurred under all conditions. The amount of MI synthesized from glucose was sharply reduced when 10 mM MI was provided in the medium. Substantial quantities of ³H were incorporated in arabinose, xylose and galacturonic acid isolated and purified from the cell-wall polysaccharides of the cell cultures in various stages of growth or embryogenesis. No ³H was present in the glucose or galactose units of cell-wall polysaccharides. At the four stages of growth and states of development of the carrot cultures used, the MI oxidation pathway contributed to the synthesis of pentosyl and galacturonosyl units of the cell wall. However, the data indicate that the contribution of the MI oxidation pathway to pentosyl and galacturonosyl units is small.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - MI myo-inositol     

L-丙氨酸对海南粗榧悬浮细胞合成三尖杉酯类碱的影响

该研究在海南粗榧悬浮细胞培养的不同阶段(5、10、15、20 d),分别添加不同剂量的L-丙氨酸(10、30、50、100 mg·L~(-1)),测定细胞生长、细胞活力及产物含量,确定L-丙氨酸最佳的添加时间及添加剂量。结果表明:添加L-丙氨酸对细胞生长和细胞活力均有抑制作用;在海南粗榧悬浮培养第15天、添加30 mg·L~(-1)L-丙氨酸时,产物含量最高(4.853 6 mg·L~(-1)),是对照(2.853 8 mg·L~(-1))的1.7倍。同时,为了探讨添加L-丙氨酸对海南粗榧悬浮细胞糖代谢的影响,对培养基糖耗程度、细胞内糖酵解途径(glycolytic pathway,EMP途径)关键酶丙酮酸激酶(Pyruvate kinase,PK)活力、磷酸戊糖途径(hexose monophosphate pathway,HMP途径)关键酶6-磷酸葡萄糖脱氢酶(glucose 6-phosphate dehydrogenase,G6PDH)活力进行了测定,结果显示添加L-丙氨酸后,植物细胞培养液中总耗糖速度与对照相比无明显差异,丙酮酸激酶(PK)活力与对照(25.37 U·g~(-1))相比下降了29.10%,G6DPH活力是对照组(53.49 U·g~(-1))的1.33倍。以上结果说明,糖代谢途径中碳通量在一定程度上由EMP途径转向了HMP途径,三尖杉酯类碱合成的前体物PEP积累,E4P合成量增加,均有利于产物三尖杉酯类碱含量的增加。     

Increase in anthraquinone content in Rubia cordifolia cells transformed by rol genes does not involve activation of the NADPH oxidase signaling pathway

It has been reported that rol plant oncogenes located in Ri-plasmids of Agrobacterium rhizogenes activated synthesis of secondary metabolites in the transformed plant cells. The activator mechanism is still unknown. In this work, we studied whether the NADPH oxidase-signaling pathway, which regulates the synthesis of defense metabolites in plants, is involved in the activator function of the rol genes. It was demonstrated that the transformation of Rubia cordifolia cells by the rolB and rolC genes caused an induction of biosynthesis of anthraquinone-type phytoalexins. Inhibition studies revealed a striking difference between the rolC and rolB transformed cultures in their sensitivity to Ca²⁺ channel blockers and calcium deficiency. The rolC culture displayed lowered resistance to the inhibitors compared to the non-transformed culture, while the rolB culture was more resistant to the treatment. The assumption was made that the oncogenic potential of rol genes is realized through the alteration of calcium balance in the plant cells. Anthraquinone production was not inhibited in the non-transformed and transformed cultures by Ca²⁺ channel blockers, as well as by diphenylene iodonium, an inhibitor of NADPH oxidase, and by the protein kinase inhibitor staurosporine. These results indicate that the induction of anthraquinone production in transgenic cultures does not involve the activation of Ca²⁺-dependent NADPH oxidase pathway.     

Inhibitory effect of the Agrobacterium rhizogenes rolC gene on rabdosiin and rosmarinic acid production in Eritrichium sericeum and Lithospermum erythrorhizon transformed cell cultures

Rabdosiin and related caffeic acid metabolites have been proposed as active pharmacological agents demonstrating potent anti-HIV and antiallergic activities. We transformed Eritrichium sericeum and Lithospermum erythrorhizon seedlings by the rolC gene, which has been recently described as an activator of plant secondary metabolism. Surprisingly, the rolC-transformed cell cultures of both plants yielded two- to threefold less levels of rabdosiin and rosmarinic acid (RA) than respective control cultures. This result establishes an interesting precedent when the secondary metabolites are differently regulated by a single gene. We show that the rolC gene affects production of rabdosiin and RA irrespective of the methyl jasmonate (MeJA)-mediated and the Ca²⁺-dependent NADPH oxidase pathways. Cantharidin, an inhibitor of serine/threonine phosphatases, partly diminishes the rolC-gene inhibitory effect that indicates involvement of the rolC-gene-mediated signal in plant regulatory controls, mediated by protein phosphatases. We also show that the control MeJA-stimulated E. sericeum root culture produces (–)-rabdosiin up to 3.41% dry weight, representing the highest level of this substance for plant cell cultures reported so far.     

Valepotriates accumulation in callus, suspended cells and untransformed root cultures of Valeriana glechomifolia

Summary Valeriana glechomifolia is an endemic species of southern Brazil, capable of accumulating, in all of its organs, the terpene derivatives known as valepotriates, the presumed sedative components of the roots of pharmaceutically used species of Valeriana. In vitro cultures of the plant were established and the accumulation of acevaltrate, didrovaltrate, and valtrate in callus, cell suspension, and untransformed root cultures was studied. Leaves of in natura plants and roots of micropropagated plantlets were used as the explants for callus induction and root culture establishment, respectively, on Gamborg B5 basal medium supplemented with 2,4-dichlorophenoxyacetic acid (2,4-D) alone or with kinetin (KIN). Culture growth and secondary metabolite yields were enhanced with 2,4-D (4.52μM) and KIN (0.93μM). Maximum valepotriate contents, quantified by HPLC, of acevaltrate (ACE) 2.6mg g⁻¹ DW, valtrate (VAL) 10.2mgg⁻¹ DW, and didrovaltrate (DID) 2.9mg g⁻¹ DW were observed in root cultures after 7–8wk of culture.     

An enclosed-chamber labeling system for the safe <Superscript>14</Superscript>C-enrichment of phytochemicals in plant cell suspension cultures

Summary Various plant secondary products have been implicated in the promotion of good health or the prevention of disease in humans, but little is known about the way they are absorbed in the gut, or in which tissues they are deposited throughout the body. While these issues could be studied if the phytochemicals were isotopically labeled, generating labeled molecules often is problematic because many compounds of interest can be synthesized only in planta at present. In order to generale ¹⁴C-labeled phytochemicals of high radioactive enrichment, we developed an enclosed-chamber labeling system in which cell suspension cultures can be safely and efficiently grown when supplied with ¹⁴C-enriched precursors. The system is designed to hold culture flasks within a clear, polyacrylic compartment that is affixed to the top of a rotary shaker. The flow-through gas exchange nature of the system allows for O₂ replenishment and complete capture of respired ¹⁴CO₂ throughout the entire period of cell culture. Air is circulated internally with the aid of a small fan, and chamber air temperature is monitored continuously with an internal temperature probe and data logger. Production runs of 12–14 d with Vaccinium pahalae (ohelo berry) and Vitis vinifera (grape) suspension cultures, using [¹⁴C]sucrose as the carbon source, demonstrated a 20–23% efficiency of ¹⁴C incorporation into the flavonoid-rich fractions. Further studies with ohelo cell cultures showed that flavonoids were produced with either sucrose or glucose as the carbohydrate source, although flavonoid productivity (measured as anthocyanins) was higher with sucrose. This comprehensive chamber system should have broad applicability with numerous cell types and can be used to generate a wide array of labeled phytochemicals.     

Production of yeastolates for uniform stable isotope labelling in eukaryotic cell culture

Preparation of stable isotope-labelled yeastolates opens up ways to establish more cost-effective stable isotope labelling of biomolecules in insect and mammalian cell lines and hence to employ higher eukaryotic cell lines for stable isotope labelling of complex recombinant proteins. Therefore, we evaluated several common yeast strains of the Saccharomycetoideae family as a source of high-quality, non-toxic yeastolates with the major aim to find a primary amino acid source for insect and mammalian cell culture that would allow cost-effective uniform stable isotope labelling (¹³C, ¹⁵N). Strains of the facultative methylotrophic yeasts Pichia pastoris and Hansenula polymorpha (Pichia angusta) as well as a strain of the baker’s yeast Saccharomyces cerevisiae were compared as a source of yeastolate with respect to processing, recovery and ability to sustain growth of insect and mammalian cell lines. The best growth-supporting yeastolates were prepared via autolysis from yeast obtained from fed-batch cultures that were terminated at the end of the logarithmic growth phase. Yeastolates obtained from H. polymorpha performed well as a component of insect cell cultures, while yeastolates from S. cerevisiae and H. polymorpha both yielded good results in mammalian cell cultures. Growth of yeasts in Heine’s medium without lactic acid allows relatively low concentrations of ¹³C and ¹⁵N sources, and this medium can be reused several times with supplementation of the ¹³C source only.     

Enhancement of phenylethanoid glycosides biosynthesis in cell cultures of <Emphasis Type="Italic">Cistanche deserticola</Emphasis> by osmotic stress

The effect of osmotic stress on cell growth and phenylethanoid glycosides (PeGs) biosynthesis was investigated in cell suspension cultures of Cistanche deserticola Y. C. Ma, a desert medicinal plant grown in west region of China. Various initial sucrose concentrations significantly affected cell growth and PeGs biosynthesis in the suspension cultures, and the highest dry weight and PeGs accumulation reached 15.9 g l⁻¹-DW and 20.7 mg g⁻¹-DW respectively at the initial osmotic stress of 300 mOsm kg⁻¹ where the sucrose concentration was 175.3 mM. Stoichiometric analysis with different combinations of sucrose and non-metabolic sugar (mannitol) or non-sugar osmotic agents (PEG and NaCl) revealed that osmotic stress itself was an important factor for enhancing PeGs biosynthesis in cell suspension cultures of C. deserticola. The maximum PeGs contents of 26.9 and 23.8 mg g⁻¹-DW were obtained after 21 days at the combinations of 87.6 mM sucrose with 164.7 mM mannitol (303 mOsm kg⁻¹) or 20 mM PEG respectively, which was higher than that of C. deserticola cell cultures grown under an initial sucrose concentration of 175.3 mM after 30 days. The stimulated PeGs accumulation in the cell suspension cultures was correlated to the increase of phenylalanine ammonium lyase (PAL) activity induced by osmotic stress.     

Enhancing the productivity of hybrid yellow-poplar and hybrid sweetgum embryogenic cultures

Summary High-frequency embryogenesis systems were established for hybrid yellow-poplar (Liriodendron tulipifera×L. chinense) and hybrid sweetgum (Liquidambar styraciflua×L. formosana) by modifying a medium originally developed for embryogenic yellow-poplar cultures. Embryogenic cultures of both hybrids, consisting of proembryogenic masses (PEMs), were initiated from immature hybrid seeds on an induction-maintenance medium (IMM) supplemented with 2,4-dichlorophenoxyacetic acid (2,4-D), benzyladenine (BA), and casein hydrolyzate (CH). For hybrid yellow-poplar, as many as 2100 germinable somatic embryos per 4000 cells or cell clumps were produced when PEMs were grown in liquid IMM lacking CH, at a pH that varied with genotype (3.5 or 5.6), followed by size fractionation and plating on semisolid embryo development medium (DM; IMM lacking 2,4-D and BA) without CH, but supplemented with 4.0 mgl⁻¹ (15 μM) abscisic acid. For hybrid sweetgum, up to 1650 germinable somatic embryos per 4000 cells or cell clumps were produced when PEMs were grown in liquid IMM without CH, but with 550 mgl⁻¹ l-glutamine, 510 mg l⁻¹ asparagine, and 170 mg l⁻¹ arginine at pH 5.6. Somatic embryos developed from cell clumps on DM without any plant growth regulators or other supplements. Hundreds of somatic embryos of both hybrids were germinated on DM without CH, transferred to potting mix, and hardened off in a humidifying chamber for transfer to the greenhouse.     

Metabolic discrimination of sucrose starvation from<Emphasis Type="Italic">Arabidopsis</Emphasis> cell suspension by<Superscript>1</Superscript>H NMR based metabolomics

Whole cell extracts ofArabidopsis cell cultures maintained on various sucrose concentrations (0,3, and 6%) were analyzed by¹H NMR spectroscopy to determine the comprehensive metabolic change in these cultures during sucrose starvation. The amount of sucrose, glucose, and fructose in the cells decreased to almost nothing after 12 h of culture in medium without sucrose. In contrast, the total free amino acid content of the cells increased as the culture proceeded. Among the free amino acids, phenylalanine and malic acid increased the most, followed by asparagine and alanine, whereas glutamic acid did not change significantly. These results are in agreement with previous studies using HPLC.¹H NMR spectroscopy enabled measurement of changes in the sugar and free amino acid content of whole cell extracts without fractionation and complicated sample preparation. These results indicate that comprehensive metabolic changes in the cells can be determined by a simple, rapid method using whole cell extracts and¹H NMR spectroscopy.     

Growth, metabolism and baculovirus production in suspension cultures of an Anticarsia gemmatalis cell line

The UFL-AG-286 cell line, established from embryonic tissue of the lepidopteran insect Anticarsia gemmatalis, has been identified as a good candidate to be used as a cellular substrate in the development of a process for in vitro production of the Anticarsia gemmatalis multicapsid nucleopolyhedrovirus, a baculovirus widely used as bioinsecticide. In order to characterize the technological properties of this cell line and evaluate its feasibility to use it for the large-scale production of Anticarsia gemmatalis multicapsid nucleopolyhedrovirus, UFL-AG-286 cells were adapted to grow as agitated suspension cultures in spinner-flasks. Batch suspension cultures of adapted cells in serum-supplemented TC-100 medium grew with a doubling time of about 29 h and reached a maximum cell density higher than 3.5 × 10⁶ viable cells ml⁻¹. At the end of the growth period glucose was completely depleted from the culture medium, but l-lactate was not produced. Amino acids, with the exception of glutamine, were only negligibly consumed or produced. In contrast to other insect cell lines, UFL-AG-286 cells appeared to be unable to synthesize alanine as a metabolic way to dispose the by-product ammonia. The synchronous infection of suspension cultures with Anticarsia gemmatalis multicapsid nucleopolyhedrovirus in the early to medium exponential growth phase yielded high amounts of both viral progenies per cell and reduced the specific demands of UFL-AG-286 cells for the main nutrients.     

Potential for introducing cold tolerance into papaya by transformation with C-repeat binding factor (CBF) genes

Papaya (Carica papaya L.) production is affected by low temperatures that occur periodically in the subtropics. The C-repeat binding factor (CBF) gene family is known to induce the cold acclimation pathway in Arabidopsis thaliana. Embryogenic papaya cultures were induced from hypocotyls of “Sunrise Solo” zygotic embryos on semisolid induction medium. The CBF 1/CBF 3 genes along with the neomycin phosphotransferase (NPT II) gene were placed under the control of the CaMV 35 S promoter and introduced into a binary vector pGA 643. Embryogenic cultures were transformed with Agrobacterium strain GV 3101 harboring pGA 643. After selection of transformed embryogenic cultures for resistance to 300 mg l⁻¹ kanamycin, somatic embryo development was initiated and transgenic plants were regenerated. The presence of the CBF transgenes in regenerated plants was confirmed by Southern blot hybridization. The papaya and the related cold-tolerant Vasconcella genomes were probed for the presence of cold inducible sequences using polymerase chain reaction (PCR). Possible cold inducible sequences were present in the Vasconcella genome but were absent in the Carica genome.     

洛伐他汀工业菌株土曲霉HZ01的次级代谢产物合成分析

【目的】分析洛伐他汀工业生产菌株土曲霉HZ01的次级代谢产物合成能力,为后期的遗传改造、次级代谢产物及其基因簇挖掘提供指导。【方法】对洛伐他汀发酵条件下的样品进行了转录组分析,同时运用色谱分离技术及波谱学方法对主要次级代谢产物进行了分离和结构鉴定。【结果】洛伐他汀合成相关基因转录水平非常高,还有4个聚酮合酶(PKS)、6个非核糖体多肽合成酶(NRPS)和1个PKS-NRPS杂合酶基因进行了转录,其他PKS和NRPS基因都处于沉默状态。此外,从该菌的发酵产物中分离鉴定了10个主要副产物并确定了其结构。【结论】土曲霉HZ01是一株优良的洛伐他汀生产菌株,在构建次级代谢产物异源合成细胞工厂和鉴定次级代谢产物生物合成途径方面具有很好的应用潜力。     

Influence of agitation and aeration on growth and antibiotic production by <Emphasis Type="Italic">Xenorhabdus nematophila</Emphasis>

The effect of agitation and aeration on the growth and antibiotic production by Xenorhabdus nematophila YL001 grown in batch cultures were investigated. Efficiency of aeration and agitation was evaluated through the oxygen mass transfer coefficient (K _L a). With increase in K _L a, the biomass and antibiotic activity increased. Activity units of antibiotic and dry cell weight were increased to 232 U ml⁻¹ and 19.58 g l⁻¹, respectively, productivity in cell and antibiotic was up more than 30% when K _L a increased from 115.9 h⁻¹ to 185.7 h⁻¹. During the exponential growth phase, DO concentration was zero, the oxygen supply was not sufficient. So, based on process analysis, a three-stage oxygen supply control strategy was used to improved the DO concentration above 30% by controlling the agitation speed and aeration rate. The dry cell weight and activity units of antibiotic were further increased to 24.22 g l⁻¹ and 249 U ml⁻¹, and were improved by 24.0% and 7.0%, compared with fermentation at a constant agitation speed and a constant aeration rate (300 rev min⁻¹, 2.5 l min⁻¹).     

Fatty-acid composition and biosynthesis in cell suspension cultures of Glycine max (L.) Merr., Catharanthus roseus G. Don and Nicotiana tabacum L.

The fatty-acid composition of C. roseus and N. tabacum cell suspension cultures was unaffected by subculture on Wood and Braun, Murashige and Skoog, or Gamborg B5C media. However, placing the cultures — which were normally grown at 25° C — at 15° C reduced growth but resulted in enhanced formation of oleic and linolenic acids in C. roseus cultures and increased levels of linoleic and linolenic acids in cultures of G. max and N. tabacum, respectively. The incorporation of [¹⁴C]acetate into [¹⁴C]linoleic acid was more rapid in N. tabacum cells than in G. max cells, but was very poor in C. roseus where the [¹⁴C] label was distributed mainly between palmitic and oleic acids.     

Comparison of two methods for detection of Mollicutes (Mycoplasmatales and Acholeplasmatales) in cell cultures in The Netherlands

A total of 1949 cell cultures was tested for contamination with mollicutes by cultivation on and in mycoplasma media, 25.7% of the cell cultures was positive, 243 strains of Mycoplasma hyorhinis were isolated. Furthermore, mainly M. arginini and M. orale were detected, less often Acholeplasma laidlawii, M. fermentans and M. pneumoniae. Optimal conditions for isolation were discussed. About one third of 217 hybridoma cultures and two third of 57 myeloma cultures proved to be contaminated, all with M. hyorhinis. A DNA fluorochrome staining method (DAPI-test) was compared to cultivation for testing 1039 cell cultures. The efficiency of the DAPI-test could be estimated to be about 96% that of cultivation about 89%, but cultivation is more specific. The highest assurance is obtained when both methods are applied.     

UDP-Glucuronosyltransferase activity is correlated to saponin production in Gypsophila paniculata root in vitro cultures

UDP-Glucuronosyltransferase (UGT, EC 2.4.1.17) activity was detected in excised root cultures of Gypsophila paniculata. The UGT activity (up to 0.8 nkat mg^–1 protein) correlated to the total saponin content (2 mg g^–1 dw) during the exponential phase of the batch culture. This gives rise to the hypothesis of a direct relationship in the biosynthetic pathway regulation between the enzyme activity and the saponin biosynthesis.     

Repetitive somatic embryogenesis in peanut cotyledon cultures by continual exposure to 2,4-d

Somatic embryos from immature cotyledons in peanut (Arachis hypogaea) were initiated on media supplemented with 2,4-dichlorophenoxyacetic acid (2,4-d). Over 90% primary embryogenesis and 41–46% repetitive embryogenesis were obtained 12 weeks after initiation by maintaining embryogenic cultures on medium containing 20 mg 1^-1 2,4-d. Maintenance of cultures on medium with 30 or 40 mg I^-1 2,4-d resulted in lower primary and secondary embryogenesis, and proliferation of nonembryogenic callus. Transfer of embryogenic cultures to a secondary medium with 10 or 20 mg I^-1 2,4-d significantly enhanced secondary embryogenesis compared to basal medium without the growth regulator. The use of Murashige & Skoog versus Finer's media had no significant effect on embryogenesis (85–95%), repetitive embryogenesis (11–37%) or mean embryo number. Secondary embryogenesis was also maintained for over one year by repeated subculture of isolated somatic embryos on medium with 20 mg I^-1 2,4-d.Abbreviations B5 Gamborg et al. medium (Gamborg et al. 1968) - 2,4-d 2,4-dichlorophenoxyacetic acid - FN Finer & Nagasawa medium (Finer & Nagasawa 1968) - MS Murashige & Skoog medium (Murashige & Skoog 1962)     

Characterization and in vitro selection for iron efficiency inPyrus andCydonia

Summary Responses to low Fe were characterized in tissue cultures ofPyrus amygdaliformis andCydonia oblonga (quince), two species used as rootstocks for pear. Cultured shoots and plantlets ofP. amygdaliformis had a higher chlorophyll concentration and Fe²⁺/total Fe ratio than those ofC. oblonga when grown under low Fe conditions. This tolerance to low Fe was correlated with high Fe³⁺-reducing ability and medium acidification. The adaptive responses were manifested in roots of plantlets, shoot bases, root cultures, and cell suspension cultures. Shoots were regenerated from leaves of quince and subjected to Fe-deficient conditions. Two somaclonal variants (IE-1 and IE-2) were recovered; each displayed higher ability to reduce Fe³⁺ and acidify the medium. These variants may be useful as rootstocks for regions with calcareous soils, which limit Fe availability.     

Enhanced colchicine production in root cultures of Gloriosa superba by direct and indirect precursors of the biosynthetic pathway

Excised root cultures of Gloriosa superba reached 7.5 g dry wt l^–1 and accumulated 240±40 g colchicine g^–1 cell dry wt after 4 weeks growth. While all precursors (except trans-cinnamic acid) enhanced colchicine content of root cultures without adversely affecting root growth, treatment with p-coumaric acid + tyramine (each at 20 mg l^–1) increased colchicine content to 1.9 mg g^–1 cell dry wt.