A novel pathway for rapid shoot regeneration from the proximal zone of the inpocotyl of melon (Cucumis melo L.)

Summary Hypocotyl explants of melon (Cucumis melo L.) are capable of regenerating multiple shoots on Murashige and Skoog (1962) medium, augmented with 4.4 μM benzylademne. Regeneration from the hypocotyl is much more rapid than the more commonly reported regeneration from cotyledonary explants, producing shoots within 2 wk compared to more than a month required for cotyledon explants. The rapid regeneration response depends on the presence of a fragment of the cotyledon remaining attached to the hypocotyl. Controls were performed to ensure that the regeneration was not due to the presence of the shoot apical bud of the melon seedling after explant production. Scanning electron microscopy revealed that microsurgery to remove the apical bud left no excess bud material. Regeneration from the proximal part of the hypocotyl was due to production of a new shoot apical meristem, observed by histology. The apical meristem can be produced before leaf primordia in regeneration from the hypocotyl, in contrast to the regeneration process from the melon cotyledon.     

Thidiazuron-induced high-frequency axillary and adventitious shoot regeneration in Vigna radiata (L.) Wilczek

Summary Prolific shoot regeneration was achieved in mungbean Vigna radiata (L.) Wilczek from 3-d-old in vitro cotyledonary node and hypocotyl explants from seedlings derived from mature seeds on Murashige and Skoog (MS) medium supplemented with thidiazuron (TDZ) (0.9 μM). An initial exposure to TDZ for 20 d and three successive transfers to fresh medium with reduced thidiazuron levels (0.09 μM) resulted in the regeneration of 104 shoots/explant from the cotyledon and 30 shoots/explant from the hypocotyl. Thidiazuron-associated abnormalities such as short compact shoots, fasciation and leaf growth in the form of rosettes were observed in shoots regenerated from hypocotyl explants. Both axillary and adventitious shoot formation from the explants were confirmed by histology. Through repectitive cycles of regeneration in the presence of TDZ, the number of shoots that could be obtained from the two explant classes within 80 d was significantly higher than with previous reports in mungbean     

Effect of thidiazuron in germinating tamarind seedlings

Summary Tamarind, a multipurpose tropical tree species, is economically important for sustainable development of wasteland due to its hardy nature and adaptability to various agroclimatic ocnditions. Reports on in vitro morphogenesis in this species are limited, due to its recalcitrant and callogenic nature. To overcome these limitations, an attempt was made to induce meristematic activity in seedling explants. Seedlings were germinated in medium with or without thidiazuron (4.54, 9.08, 13.12, 18.16 μM). This growth regulator restricted the differentiation of the apical meristem to form shoots. It triggered proliferation of the meristematic tissue at the cotyledonary node and a large number of meristematic buds appeared in a ridial pattern around the node. The meristematic activity extended to the junction of the epicotyl and hypocotyl, giving rise to buds in the form of protuberances in all sides of the junction. These buds differentiated to form shoot primordia and subsequently to shoots in medium devoid of growth regulators. Plants developed by micrografting of these shoots on seedling-derived rootstocks survived in soil.     

Localization of cytokinins in somatic and zygotic embryos of Tilia cordata using immunocytochemistry

Immunofluorescent and immunogold labeling was used to study the localization of cytokinins in developing somatic and zygotic embryos of Tilia cordata Miller. Broad-specificity polyclonal antibodies active against dihydrozeatin riboside (DHZR)/zeatin riboside (ZR)-type and isopentenyladenosine (iPR)-type cytokinins were used for immunolabeling. Immunofluorescent microscopy showed that these cytokinins were concentrated in highly cytoplasmic cells showing meristematic character. Cotyledon initials and primary meristems of heart-stage somatic embryos, as well as heart-stage zygotic embryos, were labeled. During elongation of embryos, cytokinin immunoreactive material was concentrated to areas having meristematic character. Root apex, shoot meristem, and cotyledon cells of somatic and zygotic cotyledonary embryos, as well as epidermal and subepidermal cell layers of the hypocotyl, showed the strongest immunoreaction. The nucleoli, especially, had a very strong signal. Results at the ultrastructural level with gold-conjugated protein A supported these conclusions. Gold particles were distributed in the nuclei, especially in the nucleoli and throughout the ground cytoplasm. They were occasionally associated with plastids and mitochondria, but seldom with other organelles.     

Improved shoot organogenesis from hypocotyl segments of lingonberry (<Emphasis Type="Italic">Vaccinium vitis-idaea</Emphasis> L.)

Summary An improved protocol for shoot regeneration from hypocotyl segments of seedlings from open-pollinated seeds of lingonberry (Vaccinium vitis-idaea L.) cultivars, ‘Ida’, ‘Splendor’, and ‘Erntesegen’, and a native clone from Newfoundland was developed. The effect of thidiazuron (TDZ) on adventitious bud and shoot formation from apical, central, and basal segments of the hypocotyl was tested. Highly regenerative callus was obtained from hypocotyl segments on modified Murashige and Skoog (MMS) medium containing 5–10 μM TDZ. A maximum of 10 buds and 12 shoots per apical segment for seedlings of cultivar ‘Ida’ regenerated on MMS containing 10 μM TDZ. Callus and bud regeneration frequency, callus growth, and number of buds and shoots per regenerating explant depended not only on the specific segment of the hypocotyl, but also on parental genotype. Inhibition of shoot elongation by TDZ was overcome by transferring shoot cultures to a shoot proliferation medium containing 1–2 μM zeatin. The optimal concentration of sucrose for shoot elongation was 20 gl⁻¹. Shoots were rooted ex vitro on a 2 peat: 1 perlite (v/v) medium after dipping in 0.8% indole-3-butyric acid, and rooted plants acclimatized readily under greenhouse conditions.     

Combination of thidiazuron and basal media with low salt concentrations increases the frequency of shoot organogenesis in soybeans [Glycine max (L.) Merr.]

A successful, efficient system for multiple soybean shoot induction of soybean [Glycine max (L.) Merr.] is reported. Multiple shoots were induced from cotyledonary nodes and hypocotyl segments cultured on media supplemented with 2 mg/l thidiazuron (TDZ) or 1.15 mg/l benzyladenine (BA). It was found that TDZ induced adventitious shoots more efficiently than BA and that hypocotyl segments promoted more adventitious shoots than cotyledonary nodes. The optimal TDZ concentrations for shoot organogenesis from hypocotyl segments were between 1 and 2 mg/l. Basal media also influenced the efficiency of shoot organogenesis. The frequency of adventitious shoot formation tended to increase when the salt concentration in the basal media supplemented with 2 mg/l TDZ was reduced. Two media (1/2B5 and 1/2L2) stimulated shoot organogenesis efficiently from hypocotyl segments. This method can thus be advantageously applied in the production of transgenic soybean plants. Received: 3 July 1996 / Accepted: 9 May 1997     

Propagation of Dalbergia sissoo Roxb. through in vitro shoot proliferation from cotyledonary nodes

A protocol is presented for micropropagation of an economically important timber-yielding forest tree, Dalbergia sissoo Roxb. (Sissoo). Multiple shoots were induced from cotyledonary nodes derived from 1-week-old axenic seedlings on Murashige and Skoog's medium containing either N ⁶-benzyladenine (BA), kinetin (Kn), isopentenyladenine (2iP) or thidiazuron (TDZ), with BA being the most effective growth regulator. High-frequency shoot proliferation (99%) and maximum number of shoots per explant (7.9 shoots) were recorded with BA at an optimum level of 8.9 μM. Concentrations of all cytokinins tested above the optimum level markedly reduced the frequency of shoot proliferation. A proliferating shoot culture was established by repeatedly subculturing the original cotyledonary node on shoot multiplication medium after each harvest of the newly formed shoots. Primary shoots were multiplied as nodal explants, and from each stem node 2 or 3 shoots developed. Thus, 60–70 shoots were obtained in 3 months from a single cotyledonary node. About 91% of the shoots developed roots following transfer to half-strength MS medium containing a combination of 5.7 μM indole-3-acetic acid, 4.9 μM indole-3-butyric acid and 5.3 μM indole-3-propionic acid. Eighty percent of the plantlets were successfully acclimatized and established in soil. Received: 1 October 1997 / Revision received: 31 March 1998 / Accepted: 7 April 1998     

Micropropagation of mature <Emphasis Type="Italic">Pongamia pinnata</Emphasis> Pierre

Murashige and Skoog’s (MS) basal medium with benzylaminopurine (BA), kinetin (KN), zeatin (Z), and thidiazuron (TDZ) were tested for induction of multiple shoots from mature-tree-derived axillary meristems of Pongamia pinnata. Sprouting of buds was 64% on medium devoid of plant growth regulators (PGR). Incorporation of BA, KN, or Z was ineffective in enhancing sprouting frequency or induction of multiple shoots. Sprouting was completely suppressed in the presence of TDZ. Caulogenic buds appeared in nodal meristems of these explants after withdrawal of TDZ. The number of shoot buds was more on explants precultured in higher concentrations. At higher concentrations of this PGR, a swelling developed at the axil. Multiple shoot primordia appeared and differentiated from this swelling after culturing these explants on MS medium for six passages of 2 wk each. Shoots were harvested and cultured on 0.45 μM TDZ for further proliferation. Primary explants after harvesting of shoots were identified as ‘stump’. Reculturing of stumps on 0.45 μM TDZ produced more shoots. This step was followed for six cycles to obtain additional shoots in each cycle. Shoots maintained on 0.45 μM TDZ elongated and rooted (70%) on growth regulator-free medium. Rooted shoots (65%) survived transfer to a sand/soil mixture. This report describes the protocol for micropropagation of P. pinnata using mature-tree-derived nodal meristems. Recycling of mature stock to produce a stream of useable shoots for subculturing and eventual stabilization is of great value and can possibly be generalized as an isolation protocol especially for woody species. Repeated proliferation of caulogenic buds from the same origin may also find application in rescue of endangered germplasm.     

Organogenic regeneration of soybean from hypocotyl explants

Summary Thirteen soybean genotypes representing maturity groups IV−VI were compared for organogenic responses on three media cultured under two lighting conditions with hypocotyl sections excised from 7-d-old seedlings. All soybean lines responsed by producing adventitious shoots on the acropetal end of the hypocotyl explants, confirming genotype-independence of shoot initiation. Media containing 6-benzyladenine (BA; 5.0–10 μM) induced the greatest numbers of shoots. Histological studies confirmed the adventitious nature of arising shoots by indicative formation of meristematic zones and shoot primordia from parenchymatous tissues of central pith and plumular trace regions of the hypocotyl. Incompletely excised cotyledonary buds also contributed to shoot initiation. Degrees of responses were media-dependent and varied with regard to genotype. Centennial, Epps, and Lyon gave the greatest individual responses. Between cultivars (across all treatments), the regeneration potential (percentage of explants producing meristem-like structures or shoot primordia) 4 wk after initiation ranged from 47 to 75%. Four wk later, regenerative ability (number of shoots produced per responding explant) and regeneration efficiency (number of shoots produced per explant plated) yielded 1.4–7.1 and 1.0–5.0 shoots, respectively. The optimized protocol included initiation on a medium containing 5.0 μM BA for 4 wk, then transfer onto a shoot elongation medium (0.36 μM BA) for 4 wk. For 11 genotypes tested, 66–100% of excised shoots produced roots after 4 wk on media containing 12.5–29.2 μM indole-3-butyric acid. Of 109 regenerants transplanted to soil, 94% survived and no sterility has been observed on those mature enough to flower.     

Induction of high-frequency somatic embryogenesis in geranium (Pelargonium x hortorum Bailey cv Ringo Rose) cotyledonary cultures

Summary The cv Ringo Rose of hybrid seed geranium (Pelargonium x hortorum Bailey), previously shown to be recalcitrant in culture, produced somatic embryos when cotyledonary explants were cultured on regeneration medium containing thidiazuron (TDZ), forchlorfenuron (CPPU), or a combination of indole-3-acetic acid and N⁶ benzylaminopurine (IAA+BAP). Amendment of the basal medium with TDZ (0.5 M) was the most effective treatment. Addition of amino acids to the medium promoted the growth of somatic embryos. Retention of the proximal region of the cotyledon was crucial for regeneration, but the removal of the distal 1/3 to 1/2 cotyledon had no significant effect on somatic embryogenesis. Cotyledonary explants formed somatic embryos in higher frequency and much earlier than hypocotyl explants cultured on the same medium. The somatic embryos induced on cotyledonary explants were germinated on basal medium. More than 70% of the somatic embryos were converted into plants and transferred to soilAbbreviations BAP N⁶-benzylaminopurine - CPPU N-(2-chloro-4-pyridyl)-N'-phenylurea (forchlorfenuron) - IAA indole-3-acetic acid - TDZ N-phenyl-N'-1,2,3,-thiadiazol-5ylurea (thidiazuron)     

Hormonal and cell division analyses in Watsonia lepida seedlings

The regeneration ability, cell division activity, auxin and cytokinin content of seedling regions and hypocotyl subsections of Watsonia lepida were studied. A total of 21 different cytokinins or conjugates were found in seedlings, with the highest cytokinin content in meristematic regions (root and shoot apical meristems). The greatest contribution to the cytokinin pool came from the biologically inactive cZRMP, suggesting that significant de novo synthesis was occurring. Five different auxins or conjugates were detected, being concentrated largely in the shoot apical meristem and leaves, IAA being the most abundant. Analysis of hypocotyl subsections (C1–C4) revealed that cell division was highest in subsection C2, although regeneration in vitro was significantly lower than in subsection C1. Anatomically, subsection C1 contains the apical meristem, and hence has meristematic cells that are developmentally plastic. In contrast, subsection C2 has cells that have recently exited the meristem and are differentiating. Despite high rates of cell division, cells in subsection C2 appear no longer able to respond to cues that promote proliferation in vitro. Auxin and cytokinin analyses of these subsections were conducted. Possibly, a lower overall cytokinin content, and in particular the free-base cytokinins, could account for this observed difference.     

<Emphasis Type="Italic">In vitro</Emphasis> regeneration,flower and plant formation from petiolar and nodal explants of culantro (<Emphasis Type="Italic">Eryngium foetidum</Emphasis> L.)

Summary A procedure for plant regeneration, flower and plant formation from petiolar and inflorescence nodal explants of culantro is discribed. Leaf petioles were excised from young leaves of non-flowering plants while nodal explants were excised from the inflorescence. Explants were cultured in Murashige and Skoog (MS) medium alone or supplemented with 0.5μM naphthaleneacetic acid (NAA) and 0.9, 1.8, 4.5, or 9 μM thidiazuron (TDZ). All explants produced multiple shoots. In addition, nodal explants formed flowers. Shoot number, flower number and shoot length were influenced by TDZ and NAA. Rooted shoots from both types of explants were transferred to soil where plants were successfully established.     

In vitro studies on the anatomy and morphology of bud regeneration in melon cotyledons

Summary The anatomy and morphology of bud regeneration were investigated in melon (Cucumis melo L.) cv. Galia, which regenerates in vitro only by direct organogenesis from the cotyledon explant. Explants were cut from the cotyledon proximal to the apex from 3-d-old in vitro seedlings. After 3 d on Murashige and Skoog medium with N⁶-benzyladenine, cell division can be observed in the epidermal layer on the adaxial side in the center of the explant, near the most proximal (wounded) cut edge. Over the next week, the area of the meristem increases laterally. Additional cell layers are added to the meristematic area by cell division in the epidermis. In places the epidermis remains active in cell division. Alongside those active areas there are zones where the epidermis has become inactive, although the subepidermal layers continue to divide. In transverse section, the explant now has small protuberances on the adaxial surface. After 10 d on cytokinin-containing medium, the first signs of development are visible on the adaxial surface adjacent to the proximal cut edge. The protuberances observed after 10 d are neither primordia nor buds, although some meristematic bulges are observed. The first regenerated shoot buds are observed histologically after 15 d, by which time the surface has many protuberances and some small leaves. The first shoot is found by histology after 22 d. By this time the surface is covered with protrusions and leaves, mostly without accompanying buds. The leaves may be produced from the protrusions initially visible after 10 d.     

In vitro morphogenetic responses from obligatory apomictic Taraxacum belorussicum Val. N. Tikhom seedlings explants

Taraxacum belorussicum Val. N. Tikhom, a poorly known and obligatory apomictic species, is an attractive plant material for studying the embryological, genetic and molecular mechanisms of apomixis. This work aims to obtain an efficient protocol for Taraxacum belorussicum regeneration. Four types of explants (cotyledons, hypocotyls, meristems and roots) that were taken from 2-weeks-old seedlings were used for in vitro cultures, and a fast and efficient protocol of T. belorussicum regeneration was obtained. Various ½ MS-based media containing IAA (5.71 µM), TDZ (4.54 µM) and PSK (100 nM) were chosen to assess the morphogenetic abilities of selected T. belorussicum explants. Studies on the role of PSK were done in three independent experiments, where the most significant factors were always light and darkness. All explants produced callus by the third day of culture and adventitious shoots after 7 days, although in an asynchronous indirect manner, and with different intensities for all explant types. The most preferred medium culture for hypocotyl, cotyledon and meristem explants was ½ MS?+?TDZ, and ½ MS?+?IAA?+?TDZ?+?PSK for roots which were the only explant sensitive to PSK. A short darkness pretreatment (8 days) in PSK medium was found suitable to enhance organogenesis. Secondary organogenesis was observed for regenerated plants on meristem explants from the ½ MS?+?IAA?+?TDZ?+?PSK medium. A weak somatic embryogenesis was observed for hypocotyl and cotyledon explants from ½ MS?+?IAA?+?TDZ and ½ MS?+?IAA?+?TDZ?+?PSK media. Histological and scanning electron microscope images (SEM) of T. belorussicum confirmed indirect organogenesis and somatic embryogenesis. Plant material treated with aniline blue solution revealed the presence of callose in the cell walls of cotyledon and hypocotyl explants. The presence of extracellular matrix (ECM) and heterogenic structure of callus was also verified by scanning electron microscopy and light microscopy, confirming the high morphogenetic ability of T. belorussicum.

     

Modes of regeneration in <Emphasis Type="Italic">Pelargonium × hortorum (Geraniaceae)</Emphasis> and three closely related species

Summary Modes of regeneration from hypocotyl explants were studied in Pelargonium × hortorum ‘Scarlet Orbit,’ and three wild relatives, P. zonale, P. alchemilloides, and P. inquinans, on different cytokinin treatments [1 μM thidiazuron (TDZ), 4 μM TDZ, or 8 μM N⁶-benzylaminopurine (BA) and 1 μM indole-3-acetic acid (IAA)]. P. × hortorum ‘Scarlet Orbit’ and P. zonale showed similar high numbers of easily detached, embryo-like structures in response to 1 μM TDZ; P. alchemilloides and P. inquinans showed weak embryogenic responses to all treatments. To revisit whether P. × hortorum produces somatic embryos, and to examine modes of regeneration in the wild species, the histology of regenerating structures on hypocotyl explants in 1 μM TDZ was examined. Both P. × hortorum and P. zonale produced embryo-like structures from single cell derivatives of epidermal cells. Globular-shaped structures transitioned into heart-shaped structures that had loose attachments to explant surfaces and no vascular connection to the explant. Roots with direct vascular connections to the rest of the embryo-like structures were never observed; root organogenesis appeared to be secondary. We propose that P. × hortorum and P. zonale exhibit partial somatic embryogenesis, in which all of the criteria for somatic embryos are met except formation of a root pole. In both species, explants forming embryo-like structures could also undergo shoot organogenesis, where shoots exhibited a broad base of attachment to the explant and a vascular connection to vascular nodules within the explant. Epidermally derived embryo-like structures were not observed in P. alchemilloides or P. inquinans in response to 1 μM TDZ. Shoot organogenesis occurred in P. alchemilloides but not in P. inquinans.     

In vitro induction of multiple shoots and plant regeneration inVigna

Summary Cotyledonary nodes, excised cotyledons, and hypocotyl segments of six varieties ofVigna mungo andV. radiata have been tested for their morphogenic potential on media containing a range of hormonal combinations including benzyladenine, kinetin, thidiazuron (TDZ), and zeatin. Multiple shoots developed on cotyledonary node explants in all varieties tested on basal medium containing cytokinin. Presence of both the cotyledons, either full or half, resulted in a maximum number of shoots produced. Shoot bud regeneration was achieved via meristem formation on excised cotyledons on Murashige-skoog basal medium with B₅ vitamins supplemented with TDZ. Mature plants had normal phenotypes.V. mungo var. PS1 andV. radiata var. Pusa 105 were found to be the most responsive varieties for shoot regneration. The histology ofin vitro organogenesis was studied.     

In vitro propagation of Cleome spinosa (Capparaceae) using explants from nursery-grown seedlings and axenic plants

Summary Two independent experiments were performed to establish micropropagation of Cleome spinosa from stem segments. In the first experiment, direct shoot organogenesis on hypocotyl explants from 2-mo.-old nursery-grown seedlings was obtained on Murashige and Skoog medium with different combinations of benzyladenine (BA) and 6-furfurylaminopurine, added either individually or in combination. Best proliferation rates occurred in the presence of 2.2 and 4.4 μM BA and the highest mean number of shoots was produced in response to 4.4 μM BA. In the second experiment, regeneration via direct organogenesis was also obtained from nodal and internodal segments of axenic plants cultured in the presence of BA (4.4 and 8.8 μM) in association with indole-3-acetic acid (IAA) (0.57 and 1.14 μM). Internodal explants were the most responsive on all media tested. The best mean number of shoots per explant was achieved on medium with 4.4 μM BA in association with 0.57 μM IAA. Histological studies of the globular structures formed at the apical portion of the explants revealed direct shoot regeneration and adventitious shoot differentiation from meristematic centers around the vascular bundles of the primary regenerants. All shoots elongated and rooted on MS0 medium. The acclimatization rates ranged between 70 and 84%. Plants reached to maturity and flowered 4 mo. after transfer to ex vitro conditions.     

The origin, initiation and development of axillary shoot meristems in Lotus japonicus

BACKGROUND AND AIMS: Lotus japonicus 'Gifu' develops multiple axillary shoots in the cotyledonary node region throughout the growth of the plant. The origin, initiation and development of these axillary meristems were investigated. METHODS: Morphological, histological and mRNA in situ analyses were done to characterize the ontogeny of cotyledonary axillary shoot meristems in Lotus. Morphological characterization of a putative Lotus shoot branching mutant (super-accessory branches) sac, is presented. KEY RESULTS: By using expression of an L. japonicus STM-like gene as a marker for meristematic tissues, it was demonstrated that groups of cells maintained in the meristematic state at the cotyledonary axil region coincide with the sites where additional axillary meristems (accessory meristems) form. A Lotus shoot branching mutant, sac, is a putative Lotus branching mutant characterized by increased proliferation of accessory shoots in all leaf axils including the cotyledons. CONCLUSION: In Lotus, axillary shoot meristems continually develop at the cotyledonary node region throughout the growth of the plant. These cotyledonary primary and accessory axillaries arise from the position of a meristematic zone of tissue at the cotyledonary node axil region.     

Regeneration of salvia (<Emphasis Type="Italic">Salvia officinalis</Emphasis> L.) via induction of meristematic callus

Nodular meristematic callus was induced on the basal cut surface of apical shoot explants of salvia cultured on Murashige and Skoog (MS) medium supplemented with 4.5, 13.5, or 22.5 μM thidiazuron (TDZ). Cultures were incubated in the dark for 1 wk and then transferred to light conditions for 4 wk. A higher percentage of explants developing callus was observed on medium containing either 4.5 or 13.5 μM TDZ, although explants on 4.5 μM developed larger calluses. The callus was maintained on medium containing 4.5 μM TDZ and 0.45 mM ascorbic acid. Shoot differentiation, after each of three successive maintenance passages, was induced from callus grown on medium containing either 4.4 or 8.8 μM benzyladenine (BA). A greater number of shoots were harvested from callus differentiated on BA (4.4 or 8.8 μM) medium with 0.45 mM ascorbic acid added. Shoots developed roots on MS medium supplemented with 4.9 μM of indole-3-butyric acid. The addition of ascorbic acid to the shoot differentiation medium enhanced rooting, number of roots per shoot, and survival rate. Approximately 75% in vitro plantlets were acclimatized to ex vitro conditions. Histological investigations confirmed both adventitious meristem initiation during the callus induction phase, and subsequent organogenic shoot development on the differentiation medium. The novel protocol for the meristematic callus induction and plant regeneration in this study may be useful for biotechnological applications for salvia improvement via genetic transformation or mutagenesis and in vitro propagation approaches.     

Proliferation and maintenance of embryogenic capacity in elm embryogenic cultures

Summary This paper investigates maintenance and proliferation of somatic embryogenesis systems for Ulmus minor and U. glabra. Proliferation occurred with subculture of embryogenic calluses. The calluses were mainly formed by friable nodules composed of meristematic cells organized into proembryogenic cell masses (PEMs) and thin-walled vacuolated parenchymatic cells. Cotyledonary embryos, with procambial strands and differentiation of their vascular tissues as well as visible root meristems, were identifiable after 18d of culture on a proliferation medium with 0.44 μM benzyladenine (BA). The shoot meristem was only occasionally well developed. Somatic embryo multiplication from elm embryogenic calluses is a clearly asynchronic system, and PEMs as well as embryos at all stages of development are observed simultaneously at the end of subculture period. Factors affecting the proliferation of elm embryogenic callus, such as culture medium, carbon source and genotype, were studied. Basal medium (MS) or medium supplemented with 0.44 μM BA produced the highest number of somatic embryos. Somatic embryo production was higher with sucrose or glucose than with maltose, and significant differences were also found among the four embryogenic lines tested. The use of liquid medium with filter paper support is an essential step for the survival of isolated somatic embryos during the germination stage. The addition of 0.22 μM BA′ to liquid MS medium was the best treatment for germination and plantlet conversion of elm somatic embryos.