Somatic Embryogenesis and Analysis of Peroxidase in Cultured Lettuce (Lactuca sativa L.) Cotyledons

Somatic embryos were induced in lettuce cotyledons culturedon Murashige and Skoog's (MS) medium containing either 2 mgl^–1 6-benzylaminopurine (BA) and 0.2 mg l^–1 naphthaleneaceticacid (NAA) or 0.2 mg l^–1 BA and 2 mg l^–1 NAA. Bothcombinations induced a frequency of over 70%. The explants culturedonly in the presence of 2,4-dichlorphenoxyacetic acid (2,4-D)did not produce somatic embryos. The development of the embryoidswas studied histologically and by scanning electron microscopy.Peroxidase activity was assayed and the isoenzyme pattern ofcalluses was determined by polyacrylamide gel electrophoresis.Callus from an embryogenic line showed a much higher peroxidaseactivity than that from a non-embryogenic line, one extra peroxidaseisozyme band being present and typical of the embryogenic callus.No qualitative differences were detectable between the embryogeniccalluses. Lactuca sativa L, lettuce, somatic embryogenesis, peroxidases, isoenzymes     

NAA-Induced Organogenesis and Embryogenesis in Hypocotyl Callus of Solarium melongena L.

Hypocotyl explants of S. melongena showed three types of regenerationthrough callus formation depending on the concentration of NAAin the medium. At 0.8 mg l^–1, only callus was produced.Lower concentrations resulted in callus, adventitious roots(optimum, 0.016 mg 1^–1 NAA), and adventitious shoots (noNAA). Roots and shoots developed during the early stages ofculture. Higher concentrations of NAA depressed callus growthand stimulated embryoid formation (optimum 8.0 mg 1^–1NAA), Embryoids were identifiable after about 6 weeks as greenspots on the surface of callus: Addition of 6-BA enhanced shootproduction but inhibited both root and embryoid production.Whole plants were obtained from embryogenic callus after transferto NAA free medium. Genotypic differences in response were observed. In general,the potential for embryogenesis was independent of or inverselyrelated to the potential for organogenesis.     

Somatic Embryogenesis and Plant Regeneration from Cultured Leaf Explants of Zea mays

Young leaf segments of Zea mays L. seedlings were cultured onMurashige and Skoog's basal nutrient medium supplemented with2 mg l^–1 2, 4-D and sub-cultured on medium containing8 mg l^–1 2,4-D. Two types of callus tissues appeared—embryogenicand non-embryogenic. The embryogenic callus tissue producednumerous somatic embryos which on transfer to media containinglow amounts of 2,4-D or ABA produced plantlets. Callus tissuesexhibited embryogenic potential for more than 1 year. Zea mays L. cv. Ageti-76, Zea mays L. cv. N-L-D-Comp., maize, leaf, callus, somatic embryogenesis, regeneration     

玉米幼穗两种愈伤组织的比较研究

本文应用显微、超微及电泳方法,通过对玉米幼穗两种不同愈伤组织的比较观察,研究了两种愈伤组织在形态结构和同工酶方面的差异,结果表明,胚性愈伤组织不仅具有明显的胚性结构,而且比非胚性愈伤组织具有较强的生长能力、胚胎发生能力和相对较高的同工酶活性。同时本文还对植物体细胞胚胎发生的机理及研究该机理的方法进行了初步探讨。     

麻栎茎段体胚发生和组织学观察初报

分别于2010年4月和6月采集同一麻栎母株的成熟茎段,在培养基MS+6-BA 1 mg·L^-1+IBA 1 mg·L^-1+谷氨酰胺1 000 mg·L^-1+脯氨酸500 mg·L^-1上诱导体胚发生,选出较好的外植体采集时间。通过组织学和扫描电镜观察,研究麻栎体胚的起源和愈伤组织结构特征。结果表明,外植体较好的采集时间为4月。组织切片表明,麻栎体胚具有三种不同的起源方式,起源于愈伤组织内部、表皮或者初生胚性复合体表面;胚性愈伤组织的细胞较小,细胞质浓厚,染色较深,和非胚性组织细胞明显不同。扫描电镜(SEM)观察表明,胚性愈伤组织细胞呈球形,大小均一,多以细胞团形式存在;非胚性愈伤组织细胞无规则形状,细胞间隙较多,大多分散存在,这些可以作为区分两类愈伤组织的典型特征。     

红皮云杉胚性愈伤组织诱导技术研究

以红皮云杉未成熟胚为外植体进行胚性愈伤组织诱导实验,利用L₁₆(4²×2)混合水平正交设计研究基础培养基、光照条件、未成熟胚采集时期对胚性愈伤组织诱导的影响,以此为基础对不同的培养温度梯度进行了筛选。结果表明：改良RJW基本培养基为最适宜的基础培养基,光照条件以暗培养为宜,未成熟胚的最适宜的采集时间7月20日,适宜培养温度为22℃。当未成熟胚在添加1.0 mg·L^-1 BA,5.0 mg·L^-1 NAA,20 g·L^-1蔗糖,450 mg·L^-1 L-谷氨酰胺、750 mg·L^-1水解酪蛋白的改良RJW培养基,22℃下暗培养时,胚性愈伤组织诱导率最高,达到81.3%。     

Peroxidase activity in non-embryogenic and embryogenic calli and in developing somatic embryos of white fir (Abies concolor Gord. et Glend)

ABSTRACT

Peroxidase activity was monitored during somatic embryogenesis of white fir (Abies concolor Gord. et Glend) starting from a non-embryogenic callus. Results revealed profound differences between non-embryogenic and embryogenic calli with an elevated level of enzyme activity in non-embryogenic ones. Precotyledonary, early cotyledonary and late cotyledonary stages of somatic embryogenesis were characterized by a substantially reduced peroxidase activity compared to callus tissues and regenerated plantlets. Changes in peroxidase activity are as a rule paralleled by variation in isoenzyme composition. The utility of the enzyme in the induction stage of somatic embryogenesis in white fir is proposed.     

Studies on the Formation of Roots and Shoots in Wheat Callus Cultures

Callus tissues were initiated from root, embryo and inflorescenceexplants of wheat. These callus cultures were used to studythe formation of roots and shoots in the absence and presenceof selected plant hormones. On a basal medium alone, only newly-initiatedembryo callus formed both roots and shoots while root callusonly formed roots. Inflorescence callus showed no signs of differentiation.The regenerative capacity of root and embryo callus tissueson medium lacking hormones decreased with increasing periodsof culture. Calluses which failed to differentiate in the absenceof hormones were selected for studies on hormone-mediated differentiation.NAA (1 mg 1^–1) was effective in inducing roots from allcalluses irrespective of their origin or age. In contrast, shootformation was elicited by incubating newly-formed callus onbasal medium supplemented with kinetin (5 mg 1^–1) andNAA (1 mg 1^–1) but rapidly decreased with longer periodsof culture. The differences observed in differentiation of thecallus in the absence and presence of hormones is discussed.     

Callus induction,plant regeneration,and long-term maintenance of embryogenic cultures in <Emphasis Type="Italic">Zoysia matrella</Emphasis> [L.] Merr

An efficient protocol of callus induction, plant regeneration and long-term maintenance of embryogenic cultures for manilagrass was developed. Callus induction and embryogenic callus formation were influenced by cytokinins and nodal positions. Murashige and Skoog (MS) medium with 2 mg l⁻¹ 2,4-dichlorophenoxyacetic acid (2,4-D), 0.02 mg l⁻¹ kinetin (KT) or 6-benzyladenine (BA) gave the highest frequency for both callus induction and embryogenic callus formation compared with 0.02 mg l⁻¹ thidiazuron (TDZ) or N⁶-(2-isopenteny) adenine (2iP). The frequency of callus induction of different nodes (from the first to the sixth node) varied from 22.5 to 92.1%, and the embryogenic callus formation frequencies ranged from 13.3 to 25.7%. The highest frequencies of callus induction and embryogenic callus formation (92.1 and 25.7%, respectively) were observed in the fourth node group. During subculture on callus induction and maintenance medium, somatic embryos formed on the surface of the embryogenic callus. On regeneration medium, the regeneration rates of embryogenic callus varied from 96.8 to 100% during the 4-year period of subculture. The results also indicate that preservation of manilagrass callus is stable at low-temperature (4°C) over a period of 11 months. No significant differences were found in the activities of superoxide dismutase (SOD), peroxidase (POD) and proline content of the plants regenerated from the 4-year subcultured callus on different regeneration media.     

Comparative analysis of callus formation and regeneration on cultured immature maize embryos of the inbred lines A188 and A632

Induction, maintenance, differentiation and embryogenic capacity of callus obtained from immature embryos by culture on induction medium, proliferation medium, maturation medium and regeneration medium, respectively, were compared for two inbred lines of maize, i.e. A188 and A632. The callus of inbred line A188 was embryogenic and maintained embryogenic capacity for at least 1 year. Immature embryos of inbred line A632 formed callus that was not embryogenic. It only produced roots. When sucrose was replaced by sorbitol to induce or improve embryogenesis, again only A188 formed embryogenic callus. Subculture of this callus, however, allowed 4 week intervals in stead of 2 week intervals without loss of embryogenic capacity. When A188 was pollinated with A632 pollen, embryogenic callus was obtained from cultured immature "F₁" embryos, showing that embryogenic capacity was inherited, maternally. The callus did not differ from the embryogenic callus generated on selfed A188 embryos. When A632 was pollinated with A188 pollen, embryogenic callus was obtained too, showing that embryogenic capacity was also inherited paternally, though the embryogenic capacity diminished quickly, and the stability of the callus was lower than in the reciprocal cross. This revised version was published online in June 2006 with corrections to the Cover Date.     

Proteins related with embryogenic potential in callus and cell suspensions of sugarcane (Saccharum sp.)

Summary Previous results have shown that some proteins secreted in the culture medium are involved with the formation of embryogenic cells and can modify somatic embryo differentiation. Undifferentiated cell suspensions grown in the presence of 13 μM 2,4-dichlorophenoxyacetic acid (2,4-D) and obtained from embryogenic and non-embryogenic callus were used to study these events in sugarcane plants (cv.PR-62258). The cell suspension growth curves were determined and soluble proteins were extracted from embryogenic and non-embryogenic callus and culture medium from cell suspensions. In embryogenic callus we detected 1.43 times more protein than in non-embryogenic callus and the electrophoretic protein patterns show specific polypeptides for both callus types. In embryogenic callus we detected a cluster of four polypeptides in the range of 38–44 kDa and another polypeptide of 23 kDa that were not observed in non-embryogenic callus. In nonembryogenic callus there is a 35-kDa polypeptide that was not detected in embryogenic callus. In the case of extracellular proteins, the medium from embryogenic cell suspensions contained four polypeptides of 41, 38, 34 and 28 kDa that were slightly detected in the medium from non-embryogenic cell cultures; we also detected a band at 15 kDa that could not be observed in the medium from non-embryogenic cell suspensions. These results suggest that the development of embryogenic callus and cell suspensions is related to the type and amount of intracellular proteins in the callus cells and to the secreted proteins from these cells into the medium.     

Friable embryogenic callus and somatic embryo formation from cotyledon explants of African marigold (Tagetes erecta L.)

Embryogenic callus and somatic embryos were induced from cotyledonary explants of African marigold (Tagetes erecta L.). Cotyledons were first cultured on MS medium supplemented with 2.0 mg l^–1 2,4-D and 0.2 mg l^–1 kinetin. After 5 weeks, calli were transferred to MS medium supplemented with 0.02 mg l^–1 thidiazuron where compact embryogenic callus developed. Friable embryogenic callus developed when the compact embryogenic callus was transferred to medium containing 2,4-D and subcultured every 2 weeks. Friable embryogenic callus has been maintained for more than 2 years without losing the capacity to generate embryos. Embryo development was obtained when friable embryogenic callus was transferred to MS medium supplemented with 3 mg l^–1 ABA and 60 g l^–1 sucrose. The addition of 10–30 mM l-glutamine improved embryo development. Received: 13 May 1997 / Revision received: 24 February 1998 / Accepted: 28 March 1998     

Embryogenic callus induction and plant regeneration media for bentgrasses and annual bluegrass

Summary Embryogenic callus induction and plant regeneration systems have long been established for creeping bentgrass (Agrostis palustris Huds.), but little research has been reported on optimal medium for embryogenic callus induction and plant regeneration in velvet bentgrass (Agrostis canina L.), colonial bentgrass (Agrostis capillaries L.), and annual bluegrass (Poa annua L.). The present study compared 14 callus induction media and eight regeneration media for their efficacies on embryogenic callus induction and plant regeneration in these four species. The embryogenic callus initiation media contained the Murashige and Skoog inorganic salts and vitamins supplemented with 2,4-dichlorophenoxyacetic acid or 3,6-dichloro-anisic acid and 6-benzyladenine. l-Proline or casein hydrolyzate was included in some media to stimulate embryogenic callus formation and plant regeneration. The frequencies of embryogenic callus formation ranged from 0% to 38% and exhibited medium differences within each of the four species. Callus induction media, plant regeneration media, and genotypes affected plant regeneration rates, which varied between 0% and 100%. The embryogenic callus induced on Murashige and Skoog medium supplemented with 500 mgl⁻¹ casein hydrolyzate, 6.63 mg l⁻¹ (30 μM) 3,6-dichloro-anisic acid and 0.5–2.0 mg l⁻¹ (2–9 μM) 6-benzyladenine had much higher regeneration rates than those formed on other callus induction media. Embryogenic callus of annual bluegrass had higher regeneration rates than those of bentgrass species. MSA2D, a media containing 2 mgl⁻¹ (8 μM) 2,4-dichlorophenoxyacetic acid, 100 mgl⁻¹ myo-inositol, and 150 mgl⁻¹ asparagine, was effective in promoting embryogenic callus formation in creeping bentgrass but not in colonial and velvet bentgrasses and annual bluegrass.     

Genetic analysis of short term callus culture and morphogenesis in pearl millet,Pennisetum glaucum

Genetic analysis of five in vitro characters was made through a 5 × 5 diallel analysis using callus derived from immature inflorescence segments of pearl millet (Pennisetum glaucum). The characters studied were: — volume of total callus, — frequency of embryogenic calli, — embryogenic callus volume, — growth rate in terms of increase in fresh weight, and — frequency of regeneration. High heritability values and heterosis were noticed for all these characters except for E callus frequency. Additive gene action was predominant for callus growth rate and frequency of regeneration. Of the five inbreds, IP 1346 (= P5) was found to be the best genetic background for embryogenic callus volume, embryogenic growth rate and frequency of regeneration. This revised version was published online in June 2006 with corrections to the Cover Date.     

Efficient plant regeneration from embryogenic suspension cultures of sweetpotato

Summary Using 15 Chinese and Japanese cultivars of sweetpotato, Ipomoea batatas (L.) Lam., we succeeded in developing an efficient plant regeneration system from embryogenic suspension cultures. The embryogenic callus derived from shoot apices of the 15 cultivars was used to initiate embryogenic suspension cultures in Murashige and Skoog (MS) medium containing 9.05 μM 2,4-dichlorophenoxyacetic acid (2,4-D). Rapidly proliferating and well-dispersed embryogenic suspension cultures were established. Cell aggregates 0.7–1.1 mm in size from embryogenic suspension cultures were transferred to solid MS medium supplemented with 9.05 μM of 2,4-D and formed embryogenic callus with somatic embryos. The embryogenic callus with somatic embryos was further transferred to MS medium supplemented with 3.78 μM of abscisic acid, resulting in the germination of somatic embryos. Within 20 wk after the initiation, the frequencies of cell aggregates forming plantlets reached approximately 100% for the 15 tested cultivars. These plantlets, when transferred to soil, showed 100% survival. No morphological variations were observed.     

Development of a plant regeneration system based on friable embryogenic callus in the ornamental Alstroemeria

 Stem segments of seedlings from two Alstroemeria breeding lines, cultured on media supplemented with 4 mg/l 2,4-dichlorophenoxyacetic acid and 0.5–1.0 mg/l 6-benzylaminopurine (BA), initiated soft callus, which became compact after subculture on a medium with only 0.5 mg/l BA. Friable embryogenic calli were initiated from compact callus on a medium supplemented with 10 mg/l picloram. Proembryos developed from friable embryogenic calli via embryos into plants after subculture on medium supplemented with 0.1 mg/l BA. The proembryos formed friable embryogenic calli again after culture on medium supplemented with 10 mg/l picloram. The total time needed to regenerate a complete plantlet from friable callus was approximately 6 months. This system for the production of embryogenic material is considered to have valuable applications for genetic transformation in Alstroemeria. Received: 22 April 1999 / Revision received: 16 July 1999 · Accepted: 20 July 1999     

Production of transgenic plants via Agrobacterium rhizogenes-mediated transformation of Panax ginseng

 Hairy roots of Panax ginseng were obtained after root disks were infected with wild-type strain Agrobacterium rhizogenes 15834. Three lines of hairy roots with different pigmentation were selected. Embryogenic callus was induced on Murashige and Skoog medium containing 1.0 mg/l 2,4-D. The frequency of embryogenic callus formation was 37.4% in a line with red pigmentation. Somatic embryo development from embryogenic callus was efficiently achieved by lowering the concentration of 2,4-D (0.5 mg/l). After the germination of somatic embryos on medium with 10 mg/l GA₃, the embryos were transferred to 1/2-MS medium without GA₃. The transformed ginseng plantlets had an actively growing root system with abundant lateral roots. The phenotypical alteration of transformed ginseng plants might be valuable character for increasing root yield. Received: 27 March 1999 / Revision received: 18 May 1999 / Accepted 8 July 1999     

Effects of Auxin and Phenobarbital on Morphogenesis and Production of Digitoxin in Digitalis Callus

Pieces of callus obtained from seedlings of Digitalis purpureawere grown on solid Murashige-Skoog's medium supplemented with1 mg liter^–1 BA and 0.1 mg liter^–1 IAA or NAA, withor without phenobarbital (40 mg liter^–1). The replacementof the natural auxin IAA by the synthetic auxin NAA increasedcallus growth and inhibited organogenesis, whereas the additionof phenobarbital had the opposite effect. Morphometric measurementsrevealed a high ratio of vacuole to cytoplasm (v/v) in calluscells. This ratio was affected by the different treatments inthe same way as the fresh weight. The activity of mitochondrialcytochrome P450scc (the enzyme that provides the precursor,pregnenolone, for the biosynthesis of cardenolide in foxgloveplants) was detected in the relevant fraction of callus grownunder all experimental conditions, and its activity was increasedby the addition of phenobarbital. The different treatments testedincreased the cardenolide content and quantifiable amounts ofdigitoxin were detected in all callus tissues. It is of specialinterest that phenobarbital added to the culture medium increasedthe accumulation of digitoxin. The mechanism affecting the developmentand production of cardenolide in callus tissues of D. purpureaby phenobarbital and the replacement of IAA by NAA is discussed. (Received July 18, 1994; Accepted December 14, 1994)     

红豆草体细胞胚胎发生早期过氧化物酶和酯酶同工酶酶谱变化

红豆草下胚轴切段接种于含1mg/l BA,1mg/l KT的LS培养基上,通过筛选和繁殖由一块外植体而来的淡黄色愈伤组织,而得到生理状态比较一致具有较高胚性发生能力的非胚性愈伤组织,将其转移到含1mg/l BA的LS培养基上后可诱导体细胞胚眙发生。在体细胞胚胎发生早期发现过氧化物酶同工酶和酯酶同工酶酶谱均有规律性变化。过氧化物酶同工酶酶谱在胚性培养的第10天,两条明显的A_1、A_2带消失。酯酶同工酶各酶带之间酶活性比例在胚性培养过程中变化很大,培养后期酶带变得不明显或酶带数下降。说明胚性发生过程遗传信息的表达有选择性并为激素所调控。     

Plant regeneration from callus cultures in two ecotypes of reed (Phragmites communis Trinius)

Summary Different ecotypes of reed (Phragmites communis Trinius) provide an ideal resource for studies on plant environmental adaptations and presence of genes relating to stress resistance. Dune reed is a drought-tolerant reed ecotype growing in the desert regions of north-west China. In this work, in vitro culture systems of dune reed and local swamp reed (as control) were established by optimizing the culture conditions for each of them. Bright yellow calluses were induced on a Murashige and Skoog medium containing 4.5 μM 2,4-dichlorophenoxyacetic acid (2,4-D), 5.4 μM naphthaleneacetic acid and 2.2μM benzyladenine. Benzyladenine promoted callus induction, but was not required for callus maintenance. Four types of callus have been identified from each of the reed ecotypes. Two types of callus, i.e. type A (formed normal green shoots) and type C (formed albino plants), were both found as embryogenic calluses. The optimal concentrations of 2,4-D to maintain embryogenic callus were 2.3–4.5 μM for dune reed and 9.0–13.5 μM for swap reed. Plant regeneration was achieved from types A and C callus in a hormone-free medium. The embryogenic calluses of swamp reed have been maintained for over 2 yr and still retain their strong embryogenic potential; however, those of dune reed gradually lost their embryogenic potential after only 7 mo. of culture. Regenerated plants from the two reed ecotypes showed, after a growth season, similar morphology and the same chromosome number (2n=8x=96, octoploid) as the wild plants.