产藏红花素1(crocin)愈伤组织的诱导及其细胞系的筛选

对藏红花(Crocus sativus L.) 愈伤组织的诱导条件进行了优化。结果表明：MS 是藏红花芽愈伤组织的最佳诱导培养基,而B5是叶子和花愈伤组织的最佳培养基。藏红花芽、叶和花愈伤组织的最佳诱导温度分别是18℃、25℃和21℃。光照是叶子愈伤组织诱导的有利因素,但不利于芽和花愈伤组织的诱导。1.5～2.0 mg.L-1 NAA和0.25 mg.L-1 6-BA是愈伤组织诱导的最佳激素组合。通过目视法和HPLC方法, 从229株细胞系中筛选出细胞系Corm1,其藏红花素1 的含量是1 677 mg.g-1,生长较快,且不易褐化。为采用植物细胞工程法解决藏红花素1资源短缺问题打下了基础。     

Callus cultures for phytometabolism studies: phytometabolites of 3-trifluoromethylphenol in Lemnaceae plants and callus cultures

Plant callus cultures have the potential to advance phytoremediation science by allowing study of cellular phytometabolism in absence of sorption, translocation, microbial degradation, and other phytoremediation processes; however, studies demonstrating the applicability of results from callus cultures to whole plants are limited. The aim of this study was to evaluate the feasability and applicability of using callus cultures to study phytometabolism. This aim was accomplished through evaluation of induction and growth of Lemnaceae callus cultures and comparison of phytometabolism in callus cultures and whole plants. Four out of eight published methods for callus culture of Lemnaceae successfully induced callus cultures that exhibited doubling times of 1.7 to 23 wks. Callus cultures and whole plants of Landoltia punctata and Lemna minor metabolized 3-trifluoromethylphenol (3-TFMP) through conjugation with glucopyranoside, malonyl-glucopyranoside, and glucopyranosyl-apiofuranoside. However, concentrations of metabolites were approximately 10 times less in callus cultures than in plants. While results demonstrated applicability of callus cultures results to whole plants, the low success rate of callus induction procedures, length of time required to produce substantial callus mass, and the low accumulation of metabolites in callus cultures may limit the feasibility of callus cultures for assessing phytometabolism.     

产藏红花素1(crocin)愈伤组织的诱导及其细胞系的筛选

对藏红花(cfocus sativus L)愈伤组织的诱导条件进行了优化.结果表明:Ms是藏红花芽愈伤组织的最佳诱导培养基,而B5是叶子和花愈伤组织的最佳培养基.藏红花芽、叶和花愈伤组织的最佳诱导温度分别是18℃、25℃和21℃.光照是叶子愈伤组织诱导的有利因素,但不利于芽和花愈伤组织的诱导.1.5～2.0 mg·L-1NAA和0.25 mg·L-6-BA是愈伤组织诱导的最佳激素组合.通过目视法和HPLC方法,从229株细胞系中筛选出细胞系Corml,其藏红花素1的含量是1 677 mg·g-,生长较快,且不易褐化.为采用植物细胞工程法解决藏红花素1资源短缺问题打下了基础.     

Sorbitol as the Primary Carbon Source for the Growth of Embryogenic Callus of Maize

The effects of various carbon sources on initiation and maintenance of embryogenic callus of maize (Zea mays L.) and on the regeneration of plants from embryogenic callus were studied. Growth of embryogenic callus tissue on media containing sucrose was typified by the subsequent growth of both embryogenic (regenerable) and nonembryogenic (nonregenerable) callus. Growth of embryogenic callus on sorbitol was unique among the carbon sources tested in that sorbitol supported the subsequent growth of only embryogenic callus. Further experiments demonstrated that embryogenic callus grown on sorbitol had a greater regenerative capacity (more plants produced per gram fresh weight of callus) than callus grown on sucrose. Sorbitol dehydrogenase was detected in embryogenic callus of maize at a specific activity roughly equivalent to that found in zygotic embryos of developing seeds. Nonembryogenic callus did not contain significant levels of sorbitol dehydrogenase activity.     

In vitro selection and characterization of polyethylene glycol (PEG) tolerant callus lines and regeneration of plantlets from the selected callus lines in sugarcane (Saccharum officinarum L.)

A system for in vitro selection of drought tolerant callus lines in sugarcane was developed. High molecular weight PEG was used as selective agent. Selected callus line grew better than non-selected callus when grown on different concentrations of PEG. The activity of antioxidant enzymes like CAT, POX, APX and SOD were high in selected callus than in non-selected callus. Osmolytes like proline and ascorbic acid were at higher levels in selected callus than in non-selected callus, however at higher concentrations (20–30 %) of PEG, levels of proline and ascorbic acid decreased. The frequency of organogenesis and number of plantlets decreased in selected callus than in non-selected callus. The results can be used for in vitro screening and manipulations of sugarcane for improvement of drought tolerance     

激素等外源物质对马铃薯愈伤组织花色苷积累的影响

从来源于马铃薯(Solanum tuberosum cv.Chieftain)茎的愈伤组织中分离到白色和红色2种愈伤组织,用鲜重法和分光光度法分别测量愈伤组织的生长量和花色苷的含量,并对激素、抗菌素和糖对马铃薯愈伤组织生长和花色苷积累的影响进行研究。结果表明:低浓度的2,4-D有利于红色愈伤组织的花色苷积累,高浓度的2,4-D促进其生长而不利于花色苷的积累;高浓度的6-BA能促进红色愈伤组织中花色苷的积累并诱导白色愈伤组织花色苷的合成,但抑制其生长;卡那霉素能使白色愈伤组织变红并积累花色苷,高浓度的卡那霉素严重抑制愈伤组织的生长并最终变褐死亡;提高蔗糖浓度能促进愈伤组织花色苷的产生和积累,但超过70g/L时抑制生长。实验结果为今后花色苷生物合成机理研究和花色苷的工厂化生产奠定了基础。     

苜蓿愈伤组织盐适应过程中的溶质积累

通过一步筛选获得耐1.0％NaCl的苜蓿愈伤组织(S-1)。比较盐适应(S-1)和未经适应愈伤组织(S-0)在1.0％NaCl培养基上溶质积累的情况,渗透势的下降S-0略低于S-1;S-0细胞变小,S-1细胞无明显变化,含水量S-0比S-1下降多,Na~ 和Cl~-大量积累,S-0低于S-1,K~ 浓度升高,但含量下降,S-0比S-1下降多,脯氨酸和可溶性还原糖含量的增加S-0远高于S-1。对于含盐培养基上S-0和S-1渗透调节模式的差异及溶质积累与盐适应的关系,可以认为增加Na~ 和Cl~-积累是苜蓿愈伤组织盐适应的主要方面,脯氨酸和可溶性还原糖的增加在渗透适应上只起部分作用。     

Induction and characterization of embryonic callus types for the initiation of suspension cultures of leek (Allium ampeloprasum L.)

In this paper the development and characterization of a friable, embroyonic callus culture of leek is described. This callus type was initiated on immature embryos and differed in appearance from formerly induced compact, embryogenic callus [4]. The friable callus was comprised of numerous globular embryoids, embedded in a mucilaginous substance. The genotype of the donor plant and the embryo size were important parameters in the initiation of this callus type. Embryos of 0.5–2.5 mm gave the highest frequency of friable callus production. The basal media and inclusion of -proline into the media did not influence the friable callus production. Light microscopic comparison of compact and friable callus showed striking differences. Compact callus consisted of a meristematic zone and contained vascular elements. Friable callus was less differentiated and contained aggregates of embryonic cells, separated by intercellular spaces, and somatic embryos. Ten independently induced friable callus cultures were tested for their amenability to form suspension cultures. From one of these, two highly embryonic suspension cultures were selected.     

尾叶桉的不同类型愈伤组织芽分化与某些相关生理生化指标的关系

切取8d苗龄的尾叶桉幼苗下胚轴,培养7d后愈伤组织的诱导率达100%。8周后,愈伤组织分化成褐色、白色和浅绿色3种类型。其中只有浅绿色愈伤组织能分化出不定芽,分化率达57%。浅绿色愈伤组织的过氧化物酶（POD）、超氧化物歧化酶（SOD）、过氧化氢酶（CAT）和多酚氧化酶（PPO）的活性最高。除SOD外,浅绿色愈伤组织的POD、CAT和PPO活性与其他两类愈伤组织相比具有显著性差异（P〈0.05）。H2O2和丙二醛含量则是褐色愈伤组织的最高。     

A Comparative Study on Protein Metabolism During Subculture and Differentiation of Tobacco Callus

Comparative study on the subcultured callus of tobacco (Nicotiana tabacum L. cv. Willow leaf) has revealed that protein contents and pr otease activities slowly decreased in the callus during differentiation and bud formation. The synthetic rates of fraction Ⅱ protein (water soluble protein and enzymes) and ribosomal hist one, the levels of total ribosomes, especially the levels of polyribosomes which function the protein synthesis, were higher in the differentiating callus than those in the subcultured callus. This indicates that protein synthesis in differentiating callus is greater than that in non-differentiating callus, and that the protein pattern synthesized in differentiating callus may differ from that in non-differentiating callus. During the late period of culture, the protease activities in subcultured callus rapidly increased, and the levels of polyribosomes, protein synthetic rates and protein contents apparently declined, which may be the result of metabolic changes in callus senescence. Meanwhile in the differentiating callus the protein contents, protein synthesis rates and polyribosome levels although somewhat declined accempanying the growth of formed bud, were still much higher than those in the subcultured callus.     

杜仲愈伤组织中次生代谢产物积累动态研究

以杜仲愈伤组织为材料,研究了不同接种量及培养时间、不同来源的愈伤组织及其继代次数对愈伤组织生长和次生代谢产物含量的影响。结果表明,愈伤组织继代培养时接种量在0．35g左右比较合适。愈伤组织的生长曲线大致呈S形,在20d时达到最大值,而总黄酮和绿原酸的含量均在16d时达到最大值。在继代培养中,茎和叶愈伤组织的增长量、绿原酸和总黄酮含量均在第三代达到最大值;下胚轴诱导的愈伤组织的增长量、绿原酸和总黄酮含量均在第四代达到最大值;子叶愈伤组织的增长量和总黄酮含量在第五代达到最大值,绿原酸含量于第四代达到最大值。不同来源的愈伤组织中,叶愈伤组织中绿原酸含最最高,下胚轴愈伤组织中总黄酮含量最高。     

烟草愈伤组织继代培养与分化期间核酸代谢的比较研究

Changes in the contents of DNA and RNA, RNA species, the synthesis rates of DNA and RNA, and the activity of DNase and RNase were investigated in the callus of tobacco (Nicotiana tabacum L. cv. Willow Leaf) during subculture and differentiation. The contents of DNA and RNA were higher in differentiating callus than that in subcultured callus. After day 12, the contents of DNA and RNA in differentiating callus rose continuously while the contents of DNA and RNA in subcultured callus remained constant. Changes in RNA species and its relationship to total RNA level were also analyzed. At the stage of shoot primordium formation in differentiating callus, the activity of RNase increased markedly and the synthesis rate of RNA increased continuously; while the RNase activity and the synthesis rate of RNA in subcultured callus were much lower during the same period. During the period of shoot growth, the synthesis rate of DNA in differentiating callus was elevated compared to that in subcultured callus. The results above suggested that the metabolism of nucleic acids in differentiating callus was more active than that in subcultured callus.     

Darkness improves growth and delays necrosis in a nonchlorophyllous habituated sugarbeet callus: Biochemical changes

The transfer of light-cultured green normal (N) and white habituated (HNO) sugarbeet callus to darkness reduced the growth of N callus and improved growth and delayed necrosis in the HNO callus. The decrease of dry matter of N callus under darkness was accompanied by a reduced content of carotenoids and by decreased CO₂ fixation, which was compensated by an increased dependency on externally supplied sucrose. The levels of some organic nitrogen compounds such as glutamate, proline, and free polyamines were not affected by transfer to darkness of N or HNO callus. Darkness decreased ethylene emissions in both callus types. In the HNO callus, the sucrose growth dependency and the CO₂ fixation were unaffected by darkness. Chlorophylls were absent both in light and darkness, whereas some carotenoids were accumulated in the HNO callus only in dark conditions. In another connection, a significant increase of peroxidase activity, which did not occur in the N callus, was induced by darkness in the HNO callus. A decreased content of thio-barbituric acid (TBA)-reactive substances was measured in the HNO callus transferred to darkness, whereas an increase was noticed in the N callus placed in the same conditions. These metabolic changes and the reduction of cellular damage in darkness revealed light-induced stress reactions leading to necrosis and to reduced growth of HNO callus. It appeared that darkness allowed the HNO callus to avoid the photooxidation stress. Therefore, the favorable effect of darkness on HNO growth might be explained by the suppression of photooxidative damage due to the absence of carotenoids. The higher peroxidase activity in the HNO callus maintained in darkness raised the problem of heme synthesis in this heterotrophic callus.     

Significance of different carbon sources and sterilization methods on callus induction and plant regeneration of Miscanthus x ogiformis Honda `Giganteus'

Different carbon sources, sterilized by autoclaving or filter-sterilization, were tested during induction, maintenance, and plant regeneration of embryogenic Miscanthus x ogiformis Honda `Giganteus' callus, derived from various explant types. Explants from small immature inflorescences, between 2.5 and 8 mm, produced more embryogenic callus than explants from shorter or longer inflorescences, shoot apices or leaf explants. On medium containing mannitol or sorbitol, only small amounts of callus were induced and no embryogenic callus was formed. Callus induction and embryogenic callus formation on shoot apices and immature inflorescences did not differ significantly between media containing sucrose, glucose, fructose, maltose or a mixture of glucose and fructose. However, callus induction and embryogenic callus formation from leaf explants were best on glucose. A higher percentage of leaf explants formed callus on autoclaved sucrose, as opposed to the other carbon sources where filter-sterilization in general resulted in a higher callus percentage. The growth rate of embryogenic callus was influenced both by carbon source and sterilization method when less than 1 g of callus was inoculated. None of the tested carbon sources could considerably improve plant regeneration from M. `Giganteus' callus, but a higher number of plants tended to be regenerated per callus piece from filter-sterilized carbon sources. This revised version was published online in June 2006 with corrections to the Cover Date.     

籼型杂交稻亲本成熟胚愈伤组织再生体系的建立

本文给出了6个籼型杂交稻亲本成熟胚愈伤组织再生体系建立优化措施。采用6个有重要育种价值的杂交籼稻亲本成熟胚盾片诱导愈伤组织作为分化再生的外植体,通过调节2,4-D浓度、培养基成分、接种方式、激素组合和愈伤组织分化途径,建立适合籼稻遗传转化的再生体系。结果表明,MB培养基是较为合适的愈伤组织诱导培养基类型,6个品种在MB培养基上的愈伤组织诱导率均在60％-80％之间。半粒米的接种方式能够明显提高愈伤组织诱导率,提高幅度达到28．2％。通过调节2,4-D浓度和激素组合,愈伤组织诱导率最高可达到97．9％,两步分化法和适当干燥处理能够提高愈伤组织的分化效率,6品种愈伤组织分化率均在50％-90％之间。初步建立了6个杂交籼稻亲本品种成熟胚愈伤组织的再生体系,为以后遗传转化奠定基础。     

Embryogenic Callus Formation and Plantlet Regeneration of Piragmites communis

The present paper reports the embryogenic callus formation and plantlet regeneration of Phragmites communis. The results have been obtained as follows: The efficiency of callus induction was much higher, if reed seeds were used as explants. No dedifferentiation was observed by using leaf sheath and leaf blade as explants. The optim, um concentration of sucrose was 4% in medium. VB group and inositol had beneficial effects on callus growth. But yeast extract inhibited callus induction and callus growth markedly. For this inhibited reaction, the higher concentration, the more obviously the callus growth was inhibited. Higher levels of 2,4-D had unfavourable effects on callus growth in callus subculture. The concentration of 2,4-D in dedifferentiation medium had relation to embryogenic callus formation. Embryogenic callus had higher frequency of differentiation for long-term subculture. On the other hand, nonembryogenic callus most often lost their morphogenetic competence. Authors found that the surface structure of the two types of calluses was different by means of observation by scanning electron microscope. The peroxidase and the esterase isoenzyme pat- terns, as well as the soluble protein of both types of calluses were different too.     

芦苇胚性愈伤组织的形成及植株的再生

以芦苇种子为外植体,其愈伤组织的诱导率最高。叶鞘和叶片不发生脱分化。培养基中最合适的蔗糖浓度为4%。维生素 B 类、肌醇对愈伤组织的生长起促进作用。而酵母提取物对愈伤组织的诱导和生长具有明显的抑制作用。这种抑制效应,将随酵母提取物浓度的提高而增大。愈伤组织的继代培养,随培养基中2,4-D 浓度的提高,其平均鲜重明显降低。脱分化培养基中2,4-D 浓度对胚性愈伤组织的诱导形成具有一定的相关性。胚性愈伤组织经30代继代培养依然具有90%的分化频率,只是每块愈伤组织的分化苗数减少。反之,非胚性愈伤组织则完全丧失形态发生的能力。对两类愈伤组织进行扫描电镜的观察,发现其表面结构有很大差异。其过氧化物酶、酯酶同工酶谱以及可溶性蛋白的含量均有明显的差别。     

The effect of light and 2,4-D on anthocyanin production in Oxalis reclinata callus

In vitro cultures of O. reclinata accumulate red anthocyanin pigments. Two callus lines were established from O. reclinata, one red and the other non-pigmented. The red callus accumulated cyanidin-3-glucoside as a major pigment. Light irradiation induced anthocyanin synthesis in white callus, resulting in a heterogenous red callus line being formed. The incubation of red and white callus cultures in the dark or at low-light resulted in the repression of red pigment accumulation. The application of 2,4-D (1.0 mg l^-1) inhibited pigment production in the white callus and decreased anthocyanin accumulation in the red callus. The polypeptide composition of the red and white callus lines from O. reclinata were compared using two-dimensional electrophoresis. The red callus had a larger subset of neutral and acidic polypeptides.     

草莓愈伤组织的超弱发光及活性氧代谢变化的研究

草莓外植体在不同激素组合的培养基上诱导产生3类愈伤组织。Ⅰ型愈伤组织的生长速率约是Ⅱ型和Ⅲ型的2倍,UBE强度是Ⅱ型和Ⅲ型的1．5倍和1．8倍,但Ⅱ型和Ⅲ型愈伤组织的活性氧代谢水平较强,Ⅲ型中H2O2和O2^--的水平分别是Ⅰ型的9倍和4倍。Ⅲ型愈伤组织的分化培养过程中,UBE强度不断增加,HQ的含量呈现出由弱到强再到弱的变化曲线,O2^--则表现出一直下降的趋势;而可溶性蛋白质含量、SOD及POD也呈现出一定的变化趋势。结果表明：愈伤组织中UBE与活性氧代谢之间无明确相关性,而都与愈伤组织形态建成过程密切相关。     

Synthesis and secretion of alpha-amylase by rice callus: evidence for differential gene expression

Rice seed callus expressed and secreted alpha-amylase at high levels. Twenty percent of the protein secreted by the callus was alphaamylase. The callus secreted about 840 mug alpha-amylase with 10.9 x 10(3) units of activity per gram dry weight callus per day. The alpha-amylase from callus exhibited a more complex isoform pattern than the germinating seed alpha-amylase. In addition, the level of mRNA expression by the five alpha-amylase gene groups was markedly different between callus and the germinating seed. The rice callus culture has features which it attractive as a potential system for expression proteins in plant cell fermentation systems.