Biochemical differences between embryogenic and nonembryogenic callus of Picea abies (L.) Karst

Both embryogenic and nonembryogenic calli of Picea abies (L.) Karst. were initiated from the hypocotyl region of immature embryos. The two callus phenotypes were manually separated and subsequently maintained independently, but under identical culture conditions. Biochemical analysis of the two phenotypes revealed significant differences in ethylene evolution rate and in concentrations of glutathione and total reductants. Due to the constancy of the genetic background, age and growth conditions of the two callus types, differences in the measured quantities are not likely to be traceable to the genetic origin of the callus and serve to highlight biochemical changes associated with somatic embryogenesis in Norway spruce.Abbreviations GSH glutathione - 2,4-D 2,4-dichlorophenoxyacetic acid - BA N⁶-benzyl adenine - E embryogenic - NE nonembryogenic - NS Norway spruce     

Enhancement of somatic embryogenesis in Norway spruce (Picea abies L.)

Summary Embryogenic callus developed in 55% of the mature embryo explants of Norway spruce (Picea abies L.) growing on a LP medium minus the amino acids and sugars (except sucrose). This is the highest reported yield of embryogenic callus from mature embryos of P. abies that has ever been reported. Callus induction from either the middle or the end of the hypocotyl of the embryos began after 2–3 weeks. Three types of calli were recovered: (a) globular, (b) light green-compact, (c) white mucilaginous. Only the white mucilaginous calli were embryogenic. The globular and light green-compact calli never become embryogenic, even after several subcultures. The development of somatic embryos was accomplished on half-strength macro-elements of NSIII medium containing 1 M -naphthaleneacetic acid, 1 M abscisic acid, and 3% sucrose. The addition of 10^–7 M buthionine sulfoximine to the medium increased the development of somatic embryos by three fold. These results suggest that there is a great potential for increasing the frequency and development of somatic embryos in P. abies. Careful selection of the genotype and modification of the culture medium is required.     

Tissue position,explant orientation and naphthaleneacetic acid (NAA) affect initiation of somatic embryos and callus proliferation in Norway spruce (Picea abies)

Sections from mature zygotic embryos of Norway spruce exhibited different capacities for somatic embryo initiation. The upper hypocotyl part (Zone 2) was the most embryogenic, followed by the lower hypocotyl (Zone 3) and the apical zone (Zone 1); the root part (Zone 4) never initiated embryonal-suspensor masses (ESM). The embryogenic capacity of mature zygotic embryo is narrowly located in the vicinity of Zone 2. The frequency of embryos differentiating simultaneously ESM on Zones 1 and 3 is very low (0.6%) compared to those initiating ESM on Zones 1 and 2 (7%) or Zones 2 and 3 (16%). Elevated concentrations of naphthalene acetic acid (40 and 80 M) reduced ESM initiation and callus proliferation on all sections but Zone 1. Highest initiation rate was obtained when explants were cultured with an apical-end-up orientation. Placing the explant basal-end-up partially inhibited the expression of embryogenic capacity, as well as decreasing the callus proliferation on Zone 3. A weak positive correlation (r=0.19, p < 0.001) was found between embryogenic capacity of the explant and proliferation rate of the derived callus.     

Somatic embryogenesis in European black pine (Pinus nigra Arn.)

Embryogenic callus was initiated from immature zygotic embryos of black pine on medium DCR supplemented with 2 mg 1^-1 2,4-D and 0.5 mg 1^-1 BAP. The diploid number of chromosomes confirmed the origin of callus from zygotic embryos. The callus was white, glossy, mucilaginous and contained somatic embryos consisted of an embryonic region with densely cytoplasmic cells and suspensor region with long vacuolated cells. Although somatic embryos with green cotyledons were recognisable after ABA treatment and subsequent transfer to growth-regulator free media whole plants have not yet been obtained.     

栓皮栎体细胞胚胎发生的细胞组织学观察

以栓皮栎未成熟合子胚为外植体,在添加0.25mg/L 2,4-D和0.5mg/L 6-BA的MS培养基上6周可诱导产生2种类型的胚性愈伤组织,一种表面具光泽、白色;另一种表面光滑湿润具光泽,色泽淡黄或无色透明。组织切片表明,胚性愈伤组织的细胞体积小,细胞核大,细胞质浓,细胞排列紧密;非胚性愈伤组织细胞的体积大,细胞核小,细胞质稀薄。胚性细胞团培养在不含激素的培养基上可诱导产生体细胞胚。体细胞胚直接起源于胚性细胞团表皮或近表皮的单细胞,经历与合子胚相似的球形胚、心形胚、鱼雷胚和子叶胚发育阶段。所有发育时期的体细胞胚的胚轴、子叶均产生次生体胚,它们起源于细胞质较浓的表皮单细胞。     

An embryogenic cell suspension culture of Picea glauca (White spruce)

A cell suspension culture of Picea glauca (White spruce) which continuously produces somatic embryos has been established. Embryogenic callus derived from cultured zygotic embryos was used to initiate the culture. Numerous embryos at various early stages of development were recognized; they exhibited a meristematic embryonic region and suspensor consisting of elongate, vacuolated cells. The culture also contained clumps of meristematic cells and large irregular — shaped cells. The culture could be readily re-established on solid medium.     

A method for quantification of the level of somatic embryogenesis among Norway spruce callus lines

A method for quantitative determination of the level of somatic embryogenesis in Norway spruce embryogenic callus is described. Embryogenic callus was dispersed in liquid by agitation and plated in a thin layer of medium containing 0.6% low melting point agarose. The number of embedded somatic embryos per mg of callus ranged from 0.2 to 1.5 among 11 embryogenic callus lines surveyed. Each callus line was derived from an individual immature embryo explant. Further development occurred as somatic embryos grew out of the agarose layer. This method was useful for identifying highly embryogenic callus lines among phenotypically similar lines, and should be useful for quantitatively determining the effect of medium and growth regulator modifications on somatic embryo density and developmental capacity.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - BAP 6-benzylaminopurine - IBA indole-3-butyric acid - ABA abscisic acid     

Biochemical differences between embryogenic and nonembryogenic calli of conifers

Summary Embryogenic and nonembryogenic calli of loblolly pine (Pinus taeda), Eastern white pine (P. strobus), pond pine (P. serotina), white spruce (Picea glauca), and European larch (Larix decidua) were analyzed for biochemical parameters previously shown to be indicative of an embryogenic state in Norway spruce (Picea abies). Concentrations of glutathione and total reductants as well as rates of ethylene evolution and incorporation of radioactive leucine into protein in the two callus types were consistent with the Norway spruce observations. Embryogenic potential of loblolly pine and pond pine callus was predicted by biochemical analysis in advance of the appearance of somatic embryos. Other parameters such as isozyme patterns and SDS-PAGE of soluble proteins could also be used to distinguish embryogenic from nonembryogenic conifer callus. Among the species investigated, white spruce was the most difficult to sort by these methods.     

Long-term optimized embryogenic cultures in durum wheat (Triticum durum Desf.)

Five varieties of durum wheat: Appulo, Ofanto, Latino, Creso, and Castello (Triticum durum Desf.) adapted to the semi-arid mediterranean environment have been tested for their in vitro response. Compact, embryogenic, highly regenerable calli originated from primary callus derived through proliferation of the scutellum of immature embryos explanted in the presence of 2,4 dichlorophenoxyacetic acid. Selective subculture of the white, compact, embryogenic sectors led to the establishment of long-term cultures. Regeneration occurred on hormone-free medium either via germination of somatic embryos, or via multiple-shoot formation probably due to precocious germination of somatic embryos. The three varieties, Ofanto, Creso and Appulo, were the best responding genotypes. Callus fragmentation and two subsequent transfers onto fresh medium at 7-day intervals yielded a frequency of plant regeneration of some 25–40 plantlets per gram fresh weight callus in 21 days on Murashige and Skoog's hormone-free medium. Plantlets could be efficiently established in soil, thus confirming the possibility of biotechnological approaches with varieties of this crop species.Abbreviations E embryogenic - NE non embryogenic - MS Murashige and Skoog's (1962) medium - 2,4-D 2,4 dichlorophenoxyacetic acid - DAA days after anthesis - FWT fresh weight tissue     

Embryogenic culture initiation and somatic embryo development in hybrid firs (Abies alba×Abies cephalonica,and Abies alba×Abies numidica)

Summary Embryogenic cultures were established from silver fir (Abies alba Mill.) female megagametliophytes with developing embryos and from excised mature embryos after pollination with Abies cephalonica Lond. or Abies numidica DeLann pollea The frequency of embryogenic callus formation was dependent on genotype, collection time, medium and explants used. The embryogenic callus initiation potential of megagamethophytes with developing embryos in both hybrids was higher in early July and dropped as the zygotic embryos matured. Excised cotyledonary embryos were less suitable for induction of embryogenic cultures. SH medium supplemented with 1mg/l BAP was the most efficient for callus induction and maintenance. Cultures were composed of early somatic embryos with an embryonal mass formed of highly cytoplasmic cells, rich in cell organelles and a suspensor built up by vacuolated, strongly elongated cells. Maturation of embryos was detected with the formation of bipolar structures with shoot and root apices. Nutrition reserves were observed in cells of embryos cultured on DCR medium containing 1 or 10 mg/l ABA. Cotyledon formation, hypocotyl elongation and low frequency germination occured following transfer of the embryos to the same medium without ABA.     

Purification and immunohistochemical detection of an embryogenic cell protein in carrot

An embryogenic cell protein from carrot (Daucus carota L.), designated ECP31 for embryogenic cell protein and with a relative mass of 31,000, was purified by sequential column chromatographies. Its apparent relative mass was estimated to be 120,000 by gel filtration. Immunoblotting and immunohistochemical studies showed that ECP31 was preferentially localized in the peripheral cells of clusters of embryogenic cells in the presence of 2,4-dichlorophenoxyacetic acid (2,4-D) and disappeared during the course of somatic embryogenesis in the absence of 2,4-D. ECP31 began to accumulate on the 33rd day after initiation of cultures of hypocotyl segments on Murashige-Skoog medium with 2,4-D, when callus began to appear on the segments. In dry seeds, lower amounts of ECP31 were located throughout the entire zygotic embryos but not in endosperm. ECP31 was also detected in provascular tissue of malformed somatic embryos.     

Somatic embryogenesis and plantlet formation from a rare and endangered tree species,Oplopanax elatus

We tested the possibility of plantlet formation via somatic embryogenesis with leaf segments and mature zygotic embryos from a rare and endangered tree species,Oplopanax elatus. To induce calli, expiants were cultured under darkness in a solid MS medium containing 3% sucrose, 1g L^-1 glutamine, and 0.3% gelrite. Treatment supplements included 2,4-D alone or in combination with thidiazuron. Generally, callus induction and growth were good from leaf expiants, whereas embryogenic calli could be induced only from zygotic embryos. These embryogenic calli were white or pale yellow and very friable. ABA and activated charcoal appeared to be important factors when inducing somatic embryos, with optimum levels being 0.1 mg L^-1 and 0.02%, respectively. Many somatic embryos showed abnormalities during their development on the germination medium, but 35% could be converted if placed on a medium containing gibberellic acid (GA₃). The germinating embryos sometimes formed secondary embryos at the lower portion of the hypocotyls. Normal or converted plantlets were acclimatized in an artificial soil mixture; their survival was about 60% after two months. This culturing system provides a feasible approach for regenerating plants, via somatic embryogenesis, from mature zygotic embryos.     

Histological comparison of single somatic embryos of maize from suspension culture with somatic embryos attached to callus cells

An embryogenic suspension culture of Zea mays, genotype 4C1, was obtained from friable callus that was cultured on solid medium and had been obtained from zygotic embryos. The suspension contained non-dividing elongated cells, clusters of dividing isodiametric cells, and globular, ovoid, and polar stages of somatic embryos. The single somatic embryos were blocked in shoot meristem formation: when transferred to regeneration medium they developed a root and, at the shoot side, a green cap with meristematic cells, but a scutellum and leaf primordia were not formed. In medium containing 2,4-dichlorophenoxy acetic acid, somatic embryos formed embryogenic callus aggregates, consisting of globular stage somatic embryos attached to each other via undifferentiated callus cells. These somatic embryos developed into mature embryos with the zygotic histological characteristics, such as scutellum and leaf primordia, in maturation medium, and then regenerated into plants in regeneration medium. By omitting the maturation phase, regeneration occurred via organogenesis. Polyembryos, i. e. embryos attached to each other without callus tissue in between, behaved as single somatic embryos. It is concluded that the attached callus tissue provides a factor that stimulates scutellum and leaf primordia formation.Abbreviations CMM callus maintenance medium - 2,4D 2,4-dichlorophenoxy acetic acid - PCV packed cell volume - MS Murashige and Skoog medium     

Plant regeneration through somatic embryogenesis from callus induced on immature embryos of Alstroemeria spp. L.

Summary The plant regeneration ability of callus obtained from zygotic embryos of the monocot Alstroemeria spp. was studied. The best explants for somatic embryogenesis were immature zygotic embryos in half-ovules when the endosperm was still soft and white. For 2 genotypes embryogenic callus was induced on callus induction medium with a success rate of 54%. The best callus induction period was 10 weeks. The morphology of embryogenic callus was nodular. Somatic embryos were formed after transfer of the callus to regeneration medium. These somatic embryos revealed later on the typical features of zygotic Alstroemeria embryos. The total duration of the plant regeneration protocol, from inoculation till rooted plantlets ready for transfer to the greenhouse, was 28 weeks.Abbreviations BAP 6-benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetic acid - MS Murashige and Skoog (1962) - NAA -naphthaleneacetic acid     

Plant regeneration through somatic embryogenesis from mature seed and young inflorescence of wild rice (Oryza perennis Moench)

Somatic embryogenesis in the wild rice species (Oryza perennis) was induced from cultured mature seeds and young inflorescences. Murashige and Skoog's (MS) medium supplemented with 2 mg/l 2,4-D and 0.2 mg/l BAP was used for induction of a compact, white nodular callus and somatic embryos. Plant regeneration occurred with the tranfer of the nodular callus to MS basal medium containing 0.5 mg/l IAA, 0.5 mg/l NAA, 4 mg/l BAP and 500 mg/l casein hydrolysate. The embryogenic nature of the callus from both explants was maintained over 10 subcultures for about 12 months. Plant regeneration with respect to the number of calli plated from the 6th to 10th passage varied from 80% to 60% for young inflorescence derived callus and from 75% to 69.8% for seed-derived callus.Abbreviations MS Murashige and Skoog medium - BAP 6-benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indole-3-acetic acid - NAA naphthalene acetic acid - CH casein hydrolysate     

Formation of wheat (<Emphasis Type="Italic">Triticum aestivum</Emphasis> L.) embryogenic callus involves peroxide-generating germin-like oxalate oxidase

In wheat ( Triticum aestivum L.), embryogenic callus formation comprises suppression of precocious germination by the zygotic embryo and the initiation of dedifferentiated cellular proliferation within it. Embryogenic calli are induced by treating immature embryos with 2,4-dichlorophenoxyacetic acid (2,4-D). Upon withdrawal from 2,4-D, somatic embryos develop from the periphery of the callus. Prior to visible callus formation, there is a striking induction of "germin-like" oxalate oxidase ("gl-OXO": EC 1.2.3.4) gene expression. Accumulation of gl-OXO mRNA is rapidly stimulated upon auxin treatment, with a consequent development of apoplastic enzyme activity producing H(2)O(2) within the cell wall. Within the dedifferentiated calli, gl-OXO enzyme activity becomes widespread over the surface of embryogenic calli. Differentiation of somatic embryos is initiated in regions of densely cytoplasmic, meristematic cells that are marked by highly localised expression of gl-OXO activity within these embryogenic cell masses. We suggest that this localised generation of H(2)O(2) by gl-OXO promotes peroxidative cross-linking of cell wall components, thereby preventing cellular expansion and maintaining these cell masses in an embryogenically competent condition.     

A novel regeneration system for a wild passion fruit species (<Emphasis Type="Italic">Passiflora cincinnata</Emphasis> Mast.) based on somatic embryogenesis from mature zygotic embryos

The objective of the present work was to induce somatic embryogenesis from zygotic embryos of Passiflora cincinnata Masters. Zygotic embryos formed calli on media with different concentrations of 2,4-dichlorophenoxyacetic acid (2,4-D) and 4.5 μM benzyladenine (BA) after 30 days of in vitro culture. A concentration of 18.1 μM 2,4-D resulted in the largest number of somatic embryos. Embryogenic calli were yellowish and friable, forming whitish proembryogenic masses. Morphologically, embryogenic cells were small and had large nuclei and dense cytoplasm, whereas non-embryogenic cells were elongated, with small nuclei and less dense cytoplasm. Calli cultured under white light on basal Murashige and Skoog’s medium with activated charcoal produced embryos in all developmental stages. There were differences among the treatments, with some leading to the production of calli with embryos and some only to callus formation. Some abnormalities were associated with somatic embryos, including fused axes, fused cotyledons and polycotyledonary embryos. Production of secondary somatic embryos occurred in the first cycle of primary embryo development. Secondary embryos differentiated from the surface of the protodermal layer of primary embryos with intense cell proliferation, successive mitotic divisions in the initial phase of embryoid development, and a vascular system formed with no connection to the parental tissue. This secondary embryogenic system of P. cincinnata is characterized by intense proliferation and maintenance of embryogenic competence after successive subcultures. This reproducible protocol opens new prospects for massive propagation and is an alternative to the current organogenesis-based transformation protocol.     

Induction of somatic embryogenesis in Pinus roxburghii Sarg.

Embryogenic calli were initiated from embryonic explants of Pinus roxburghii using female gametophytes containing immature pre-cotyledonary embryos. Zygotic embryos were collected at different developmental stages and cultured on various media. Initiation of embryogenic calli was achieved in pre-cotyledonary zygotic embryos of a 0.1-mm to 1.2-mm embryonal head on Douglus fir cotyledon revised medium (DCR) medium supplemented with 2,4-D or NAA and BA. Embryogenic callus development was initiated from the suspensor region of immature embryos. The method of immature embryo culture was significant as rapid embryogenic callus development occurred in megagametophytes where the suspensor was stretched onto the medium from the cut micropylar end. Sixty embryogenic lines were established from 2500 explants cultured during one season. A pro-embryo with six to eight meristematic cells and suspensor of six to ten long, vacuolated cells dominated the early phase of the callus development. Cleavage polyembryony occurred in proliferating callus, constituting a method of multiplication of these somatic embryos. Somatic embryos developed to stage-I and stage-II embryos on DCR medium supplemented with 5 μM 2,4-D or 10 μM NAA. Received: 30 June 1999 / Revision received: 15 November 1999 / Accepted: 3 December 1999     

2,4-Dichlorophenoxyacetic acid affects mode and frequency of regeneration from hypocotyl protoplasts ofBrassica oleracea

Summary The effect of 2,4-dichlorophenoxyacetic acid (2,4-D) on the regeneration from hypocotyl protoplasts ofBrassica oleracea was studied by varying the 2,4-D concentration in the protoplast culture medium, 8 p, and the callus proliferation medium, K3. When hypocotyl protoplasts of the inbred line BL12 were cultured in the complete absence of 2,4-D, they divided and produced embryogenic calli. Moreover, these calli generated somatic embryos which were easily recognized by red cotyledons due to the presence of anthocyanin. When 2,4-D was present either in 8p medium or K3 medium the formation of somatic embryos was reduced. On the other hand, the number of shoot-forming calli increased considerably. We therefore conclude that 2,4-D directs the mode of regeneration by suppressing somatic embryogenesis in favour of shoot regeneration. Secondly, 2,4-D increases the regeneration efficiency. Furthermore, the callus proliferation phase on K3 medium is most important with respect to the determination of either somatic embryogenesis or shoot regeneration.Abbreviations BA benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indole acetic acid - NAA naphthalene acetic acid - PE plating efficiency     

Somatic embryogenesis in Asparagus officinalis can be an in vitro selection process leading to habituated and 2,4-D dependent embryogenic lines

Long-term embryogenic lines were repeatedly obtained from nine asparagus (Asparagus officinalis L.) genotypes by the selection of rare events, which consisted of the emergence of either a few somatic embryos or an embryogenic callus from a restricted area of a primary callus. In the first case, somatic embryos emerged from 1 % of calli induced with naphtaleneacetic acid and transferred to a medium without auxin. Isolated and subcultured on hormone free medium, these embryos developed habituated embryogenic lines (H lines) growing by adventive embryogenesis. In the second case, 3 % of primary calli developed then subcultured on 2,4-dichlorophenoxyacetic acid (2,4-D) produced a new type of friable and yellowish-white callus, constituted of clusters of globular somatic embryos which can be continuously maintained on 2,4-D (2,4-D lines). Among 2,4-D lines, two types were identified by subculturing them on hormone–free medium. Half of the 2,4-D lines were habituated and half were 2,4-D dependent. Most plants regenerated from H lines exhibited a strong increase in embryogenic capacity compared to control plants, unlike plants regenerated from the 2,4-D dependent lines. This increased embryogenic capacity was transmitted to the progeny as a monogenic dominant trait. H lines would therefore be issued from mutation(s) occurring in vitro, conferring both the embryogenic and habituated phenotypes. On the contrary, in the 2,4-D dependent lines, the embryogenic processes appeared to remain under exogenous auxin control and no evidence of a mutational origin could be inferred from the behaviour of regenerated plants.