Development of shoot inHydrangea macrophylla I. Terminal and axillary buds

The structure of shoots, in particular of winter buds, ofHydrangea macrophylla was examined. The non-flower-bearing shoot is usually composed of a lower and an upper part, between which a boundary is discernible by means of a distinctly short internode. This internode is the lowermost of the upper part, and it is usually shorter than the internodes immediately above and below, although the internodes tend to shorten successively from the proximal to the distal part of the shoot. Variations exist in the following characters among the terminal bud, the axillary bud on the lower part of the shoot and the axillary bud on the upper part: (1) length of bud; (2) character of the outermost pair of leaf primordia; (3) degree of development of secondary buds in the winter bud; and (4) the number of leaf primordia. Usually, the terminal bud contains several pairs of foliage leaf primordia with a primordial inflorescence at the terminal of the bud, but the axiallary bud contains only the primordia of foliage leaves in addition to a pair of bud scales.     

Shoot development ofAucuba japonica I. Morphological study

The shoot development ofAucuba japonica was studied morphologically. The shoot shows dichasial branching in connection with the formation of a terminal inflorescence and shows a decussate phyllotaxis even in the reproductive phase. The sequence of initiation of successive foliar appendages is very precise, hence the foliage leaf, scale leaf and bract can be compared with each other even at their stages of initiation. In the stage of proximal foliage leaf formation the shoot apex is flat, while in the stage of formation of distal foliage leaves, bud scales and proximal bracts, it becomes concave. In the stage of formation of distal bracts the apex becomes domed. Plastochron durations are relatively long in the vegetative phase in comparison with other plants, and the duration from initiation of the first pair of appendages to that of the second is about one and a half months. Both male and female inflorescences exhibit basically a thyrsoid type of monotelic synflorescence.     

Development of maize plants from cultured shoot apices

Excised shoot apices of maize (Zea mays L.), comprising the apical meristem and one or two leaf primordia, have been cultured and can form rooted plantlets. The plantlets, derived from meristems that had previously formed 7–10 nodes, develop into mature, morphologically normal plants with as many nodes as seed-grown plants. These culture-derived plants exhibited the normal pattern of development, with regard to the progression of leaf lengths along the plant and position of axillary buds and aar shoots. Isolation of the meristem from previously formed nodes reinitiates the pattern and number of nodes formed in the new plant. Thus, cells of the meristem of a maize plant at the seedling stage are not determined to form a limited number of nodes.     

A procedure for SEM of complex shoot structures applied to the inflorescence of snapdragon (Antirrhinum)

Summary An indirect procedure for the scanning electron microscopy of living complex shoot structures, e.g., an inflorescence tip, employs the polymerization of a dental impression plastic. Application of the plastic to exposed surfaces during prolonged dissection minimizes desiccation. The resulting complex mould is everted so that recesses representing surface detail can be filled with molten epoxy polymer. The mould is then allowed to revert to its original configuration; it is now filled with epoxy. After the epoxy hardens, the resulting cast is sputter-coated and imaged. Intricate structures up to 1 mm in dimension can be imaged with all components, e.g., flowers on an inflorescence, in situ.     

Indirect shoot organogenesis from leaves of Dieffenbachia cv. Camouflage

A novel protocol for indirect shoot organogenesis of Dieffenbachia cv. Camouflage was established using leaf explants excised from in vitro shoot cultures. The frequency of callus formation reached 96% for explants cultured on Murashige and Skoog (1962) basal medium supplemented with 5 μM thidiazuron and 1 μM 2,4-dichlorophenozyacetic acid. The number of shoots regenerated was high, with up to 7.9 shoots produced per callus cultured on basal medium supplemented with 40 μM N ⁶-(Δ²-isopentenyl)adenine and 2 μM indole-3-acetic acid. Regenerated shoots rooted well in a soilless substrate, acclimatized ex vitro at 100%, and grew vigorously under shaded greenhouse conditions. Somaclonal variations in leaf variegation, color, and morphology have been observed in regenerated plants.     

Effects of Cytokinins on In Vitro Seed Germination and Early Seedling Morphogenesis in Lotus corniculatus L.

We determined the effects of zeatin (ZEA), isopentenyl adenine (2iP), kinetin (KIN), benzyladenine (BA), and thidiazuron (TDZ) on seed germination, elongation of seedling shoots and roots, frequency of regeneration, and the number of regenerants per seedling in Lotus corniculatus L. Sterilized seeds were cultured in vitro on Murashige and Skoog (1962) medium containing 3% sucrose, 0.7% agar, and various cytokinins (0, 0.08, 0.22, 0.35, 0.80, 2.20, and 3.50 μM). After 30 days, seedlings were transferred to cytokinin-free medium for another 60 days. All cytokinins stimulated the rate and percentage of seed germination at least twofold in optimum concentrations; TDZ and ZEA were the most active, followed closely by BA, whereas KIN and 2iP stimulated germination in higher concentrations only. Elongation of shoots and roots was strongly inhibited at the lowest TDZ and BA concentrations, whereas ZEA, KIN, and 2iP exerted moderate, dose-dependent inhibition. The frequency of regenerant-producing seeds was highest on ZEA and BA, whereas the greatest number of regenerants per seedling was found on TDZ. It is concluded that the culture of seeds on cytokinin-containing media, followed by transfer to cytokinin-free medium, is a suitable procedure for rapid production of a large number of uniform regenerants. The presumed role of particular cytokinins is discussed.     

Developmental phases and STM expression during Arabidopsis shoot organogenesis

Shoot organogenesis in Arabidopsis thaliana wasstudied with regard to the timing of key developmental phases and expression ofthe SHOOTMERISTEMLESS (STM) gene.Shoot regeneration in the highly organogenic ecotype C24 was affected byexplanttype and age. The percentage of C24 cotyledon explants producing shootsdecreased from 90% to 26% when donor seedlings were more than 6 dold, but 96% of root explants produced shoots regardless of the age of thedonorplant. Using explant transfer experiments, it was shown that C24 cotyledonexplants required about 2 days to become competent and another 8-10 days tobecome determined for shoot organogenesis. A C24 line containing the promoterofthe SHOOTMERISTEMLESS (STM) genelinked to the -glucuronidase(GUS) gene was used as a tool for determining the timingofde novo shoot apical meristem (SAM) development incotyledon and root explants. Cotyledon and root explants from anSTM:GUS transgenic C24 line were placed on shoot inductionmedium and GUS expression was examined after 6-16 days ofculture. GUS expression could be found in localizedregionsof callus cells on root and cotyledon explants after 12 days indicating thatthese groups of cells were expressing the STM gene, hadreached the key time point of determination, and were producing an organizedSAM. This was consistent with the timing of determination as indicated byexplant transfer experiments. Root explants from anSTM:GUStransgenic Landsberg erecta line and a two-step tissue culture method revealedasimilar pattern of localized GUS expression duringde novo shoot organogenesis. This is the first studydocumenting the timing and pattern of expression of theSTMgene during de novo shoot organogenesis.     

High-frequency shoot multiplication in Artemisia vulgaris L. using thidiazuron

An in vitro propagation system for Artemisia vulgaris L., a traditional medicinal plant, has been developed. The best organogenic response, including adventitious shoot number and elongation, was obtained when hypocotyl segments were cultured onto MS medium supplemented with 4.54 μM TDZ (N-phenyl-N′-(1,2,3-thidiazol-yl) urea). Up to 28 shoots formed per explant for an optimal duration of exposure of 48 days. Regenerated shoots formed roots when subcultured onto a medium containing 8.56 μM IAA (indole-3-acetic acid). Healthy plantlets were transferred to a garden soil:farmyard soil:sand (2:1:1) mixture for acclimatization, which was successful, and subsequent maturity was achieved under greenhouse conditions over a six-month period. The survival rate of the plantlets varied under acclimatization. The regeneration protocol developed in this study provides a basis for germplasm conservation and for further investigation of medicinally active constituents of A. vulgaris. This optimized protocol has been successfully employed for genetic transformation studies in A. vulgaris, which are currently underway in our laboratory.     

Behavior of organelles and their nucleoids in the shoot apical meristem during leaf development in Arabidopsis thaliana L.

The behavior of organelle nucleoids and cell nuclei was studied in the shoot apical meristem and developing first foliage leaves of Arabidopsis thaliana. Samples were embedded in Technovit 7100 resin, cut into thin sections and stained with 4-6-diamidino-2-phenylindole to observe DNA. Fluorimetry was performed using a video-intensified microscope photon-counting system. The DNA content of individual mitochondria was more than 1 Mbp in the shoot apical meristem and the young leaf primordium, and decreased to approximately 170 kbp in the mature foliage leaf. In contrast, the DNA content of individual plastids was low in the shoot apical meristem and increased until day 7 after sowing. Application of 5-bromo-2-deoxyuridine, an analogue of thymidine, was usesd to investigate DNA synthesis in situ. The activities of DNA synthesis in the mitochondria and plastids changed according to the stage of development. Mitochondrial DNA was actively synthesized in the shoot apical meristem and young leaf primordia. This strongly suggests that the amount of mitochondrial DNA per mitochondrion, which has been synthesized in the shoot apical meristem and young leaf primordium, is gradually reduced due to continual divisions of the mitochondria during low levels of mitochondrial DNA synthesis. Synthesis of DNA in the plastid became active in the leaf primordia following DNA synthesis in the mitochondria, and the small plastids were filled with large plastid nucleotids. This enlargement of the plastid nucleoids occurred before the synthesis of ribulose-1,5-bisphosphate carboxylase/oxygenase and the development of thylakoids.Abbreviations BrdU 5-bromo-2-deoxyuridine - DAPI 4-6-diamidino-2-phenylindole - DiOC₆a 3,3-dihexyloxacarbocyanine - mtDNA mitochondrial DNA - mt-nucleoid mitochondrial nucleoid - ptDNA plastid DNA - pt-nucleoid plastid nucleoid - Rubisco ribulose-1,5-bisphosphate carboxylase/oxygenase This work was supported by grant No. 2553 to M.F. and Nos. 04454019, 03304005 and 06262204 to T.K. from the Ministry of Education, Science and Culture of Japan, and by a grant for a pioneering research project in biotechnology from the Ministry of Agriculture, Forestry and Fisheries of Japan.     

Transformation and regeneration of loblolly pine: shoot apex inoculation with Agrobacterium

Loblolly pine (Pinus taeda L.) is the mostimportant tree species in US commerce and has much to gain through geneticengineering. This species can be transformed using particle bombardment andAgrobacterium; however, the regeneration of plants fromtransgenic tissues has been difficult and the recovery of transgenic plants hasbeen rare. A shoot-based and genotype-independent transformation methodemploying Agrobacterium tumefaciens was used to facilitaterecovery of plants and permit the transformation of elite germplasm. Shootsfrom4–6 week old seedlings and adventitious shoots from culture wereinoculated with A. tumefaciens EHA101 (pGUS3), or EHA105(pSSLa.3), subjected to selection and regenerated. Shoots that survivedexhibited expression of the uidA gene (GUS) in a patterncharacteristic of the either the CaMV35S promoter (pGUS3), or the larch RbcSpromoter (pSSLa.3) transferred. Recovered plants were screened using PCRamplification. Southern DNA analyses and amplification of the T-DNA borderjunction confirmed genomic integration of both transferreduidA and nptII genes. In this proofofconcept study, the overall recovery of P. taeda shoots wasfair (10–20%), while recovery of intact rooted plants was poor (>1%)due to difficulty in rooting. Recovery of intact rooted plants from inoculatedshoots of P. eldarica and P. radiatawas more efficient (10–30%). The addition of a shoot multiplication stepand effective rooting protocols will improve the efficiency of this genotypeindependent transformation method in P. taeda, and inotherPinus spp.     

Endogenous gibberellin levels influence in-vitro shoot regeneration in Arabidopsis thaliana (L.) Heynh.

The regeneration of shoot buds from callus cells in vitro is an important technique in modern plant genetic manipulation. Whilst it is clear that genetic factors play a major role in determining the ability of callus cells to become organized into regenerating shoot buds, the precise nature of these factors remains unknown. Here we show that callus derived from mutants of Arabidopsis thaliana which have reduced levels of endogenous bioactive gibberellins (GAs), or reduced responsivity to GAs, regenerates shoot buds more readily than does callus derived from wild-type controls. In addition, exogenous GA reduces, and exogenous paclobutrazol (a GA-biosynthesis inhibitor) increases, the frequency of shoot bud regeneration from wild-type callus. These results show that GA levels play a role in regulating shoot bud regeneration from callus, and suggest that variation in endogenous GA levels or responsivity may account for a major component of the genetic variation in shoot bud regeneration frequency described in other species.     

Ageing of theSilene coeli-rosa L. shoot apex under non-inductive conditions: Changes in morphology,mitotic index,and polypeptide composition

Summary Ageing was studied in the shoot apex of the long day plant,Silene coeli-rosa by maintaining it in non-inductive short day conditions for 170 days. The dimensions, the zonation, and the polypeptidic pattern of the shoot apex, and the rate of leaf initiation were altered in 170-day-old plants compared with young plants grown under the same conditions (28 days). In aged plants, the number of cells increased in all shoot apical zones and, notably, the mitotic index increased in the axial zone; however, the rate of leaf initiation slowed down. These changes showed some similarities to those during the intermediate phase in quantitative photoperiodic species. The two-dimensional mini-gel electrophoretic study of protein extracts from shoot apices of young and ageing plants maintained in non-inductive conditions revealed 489 common polypeptidic spots, 13 unique to the young state and 24 new ones specific to aged plants. The spots characteristic for each state represented only 3.6% of the total identified polypeptides, but apical development under non-inductive conditions was characterized by qualitative changes in the polypeptide complement.Abbreviations C nuclear DNA complement - 1D gel first dimension gel - LD long day - NEPHGE non equilibrium pH gradient electrophoresis - SD short day - SDS sodium dodecyl sulfate - TCA trichloracetic acid     

Multiple shoot induction by benzyladenine and complete plant regeneration from seed explants of chickpea (Cicer arietinum L.)

The efficacy of benzyladenine (BA) to induce multiple shoots from seed explants of chickpea (Cicer arietinum L.) was assessed. Shoot differentiation was influenced by the type of seed explant, genotype and concentration of BA. Orientation of the explant also strongly influenced the shoot regeneration response. The optimum BA concentration for shoot/shoot bud regeneration was genotype dependent. Two types of BA-induced response were observed: (1) at less than 7.5 gm BA, direct shoot differentiation (2 to 4-cm-long shoots) was observed within 30 days; (2) at higher BA concentrations (75–100 m), shoot/shoot bud differentiation was achieved in 45–90 days. A high BA concentration inhibited subsequent rooting of shoots. Roots, however, could be easily induced on shoots derived from <12.5 m BA. Following transfer to soil, 80% of the regenerants developed into morphologically normal and fertile plants.Abbreviations BA Benzyladenine     

Shoot elongation in Lathyrus odoratus L.: Gibberellin levels in light- and dark-grown tall and dwarf seedlings

The levels of gibberellin A₁ (GA₁), GA₂₀, GA₁₉, GA₈, GA₂₉ and GA₈₁ (2-epiGA₂₉) were measured in tall (L-) and dwarf (ll) sweet-pea plants grown in darkness and in light. In both environments the apical portions of dwarf plants contained less GA₁; GA₈ and GA₁₉, but more GA₂₀, GA₂₉, and GA₈₁ than did those of tall plants. It is concluded that the partial block in 3β-hydroxylation of GA₂₀ to GA₁ is imposed by allele l in darkness as well as in the light. Furthermore, darkness does not appear to enhance elongation in sweet pea by increasing GA₁ levels. The reduction of the pool size of GA₁₉ in dwarf plants supports recent theories on the regulation of GA biosynthesis, formulated on the basis of observations in monocotyledonous species. Darkness results in decreased GA₂₀, GA₂₉, and GA₈₁ levels in the apical portions of tall and dwarf plants and possible reasons for this are discussed.     

Enhanced shoot regeneration from Brassica campestris by silver nitrate

Summary The morphogenetic response of Brassica campestris genotype R500 to inhibitors of ethylene biosynthesis and action was investigated. A medium containing 1.0 mg.l^–1 NAA, 2.0 mg.l^–1 BAP, and 30 or 60 M AgNO₃ significantly enhanced both the percentage shoot regeneration and the number of shoots per cotyledon expiant. Although callus proliferation occurred on hypocotyl segments, no shoots were formed in response to AgNO₃ with expiants older than five days. Cotyledons older than six days formed shoots only with AgNO₃. Cobalt chloride at 20 and 30 M increased cotyledon shoot regeneration but was inferior to AgNO₃. Hypocotyl segments were unresponsive. Salicylic acid at 25 and 50 M prevented both shoot regeneration and callusing without any obvious toxic effects. Removal of expiants from AgNO₃ after 12 days did not alter the percentage of shoot regeneration but increased the number of shoots per expiant. This response was dependent on the level of BAP. Percentage shoot regeneration and number of shoots per cotyledon explant were not affected by removal of CoCl₂. These results indicate that the poor regenerative capacity of this genotype may be related to ethylene biosynthesis or metabolism.Abbreviations NAA Naphthalene Acetic Acid - BAP 6-Benzylamino Purine - MS Murashige and Skoog Medium     

Influence of BA and sucrose on the competence and determination of pepper (Capsicum annuum L. var. Sweet Banana) hypocotyl cultures during shoot formation

Summary The simultaneous presence of 6-benzyladenine (BA) and sucrose in a Murashige and Skoog medium (SIM) during the initial stages of shoot initiation have been found to be obligatory for high-frequency shoot formation in the Capsicum annuum L. var. Sweet Banana upper hypocotyl explants. The explants are determined for shoot formation following a minimum of 8 days of culture on SIM. Deprivation of exogenous sucrose from day 6 to day 20 of culture had no effect on the shoot forming response of the explants. BA and sucrose appear to act independently on different aspects of the competence of explants to respond to SIM during shoot initiation.Abbreviations BA N⁶-benzyladenine - MS Murashige and Skoog medium - SIM shoot induction medium - HFM hormone free medium - SUC sucrose minus medium     

Variation in shoot mortality within crowns of severely defoliated <Emphasis Type="Italic">Betula maximowicziana</Emphasis> trees in Hokkaido,northern Japan

To clarify mortality patterns of current-year shoots within the crown of Betula maximowicziana Regel after severe insect herbivory in central Hokkaido, northern Japan, we investigated the degree of defoliation, pattern of shoot development, shoot mortality, and leaf tissue-water relations. One hundred current-year long shoots growing in a B. maximowicziana plantation were observed for defoliation and mortality in June 2002. An outbreak of herbivorous insects (Caligula japonica and Lymantria dispar praeterea) occurred in the stand in mid-to-late June, and the monitored shoots were defoliated to various degrees. Within 1 month of defoliation, some of the severely defoliated shoots had produced new leaves on short shoots that had emerged from axillary buds. Stepwise logistic regression revealed that the probability that current-year long shoots would put out axillary short shoots with leaves is closely related to the degree of defoliation. To evaluate the water relations of the leaves, we determined pressure–volume curves for the leaves that survived the herbivorous insect outbreak and the new leaves that emerged after defoliation. The water potential at turgor loss (Ψ_l,tlp) and the osmotic potential at full turgidity (Ψ_π,sat) were higher for the new leaves than for the surviving leaves, indicating a lower ability to maintain leaf cell turgor against leaf dehydration in the new leaves. Of the 100 shoots, 13 died after the emergence of new leaves. Stepwise logistic regression revealed that the probability that the long shoots would die generally increased with the emergence of new leaves, with increasing shoot height. This result suggests that the combined effect of the vulnerability of newly emerged leaves and low water availability, associated with higher shoot positions within the crown, caused shoot mortality. Based on our results, some possible mechanisms for mortality in severely defoliated B. maximowicziana are discussed.     

In vitro regeneration of Vigna unguiculata (L.) Walp. cv. Blackeye cowpea via shoot organogenesis

An in vitro regeneration system was developed in cowpea [Vigna unguiculata (L.) Walp.] Blackeye. Among several explants studied, shoot initiation response was observed from shoot apices of 3–5-day-old seedlings. The optimal medium for maximum shoot initiation comprised MS salts, B₅ vitamins, 8.88 μM N ⁶-benzylaminopurine, 1 gl^-1 casein hydrolysate, 342 μM L-glutamine, 3% sucrose, 0.3% phytagel, adjusted to pH 5.8. A shift in pH from 5.8 to 7.0 had no effect on shoot initiation and on number of shoots per explant. The highest shoot initiation frequency (77%) was obtained using this preferred medium, reaching a maximum of eight shoots per explant. For shoot elongation, 14 μM gibberellic acid was supplemented in the shoot initiation medium. Presence of indolebutyric acid in the rooting medium had no effect on root induction. The regenerated plants were fertile and developed normally.     

Lippia dulcis shoot cultures as a source of the sweet sesquiterpene hernandulcin

The axenic shoot culture of Lippia dulcis Trev., Verbenaceae, was established on hormone-free Murashige-Skoog solid medium containing 3% sucrose. Shoots were cultured in various liquid or solid media. Woody Plant liquid medium was best for shoot multiplication, but the production of hernandulcin was relatively low. The highest hernandulcin content (2.9% dry wt) was obtained after 28 days of culture on Murashige-Skoog solid medium containing 2% sucrose. The addition of chitosan to the culture media enhanced the growth of shoots as well as the production of hernandulcin, especially with the liquid medium.Abbreviations MS(2%) Murashige-Skoog medium containing 2 % sucrose - MS(3%) Murashige-Skoog medium containing 3 % sucrose - 1/2MS half strength Murashige-Skoog medium containing 2% sucrose - B5 Gamborg B5 medium containing 2% sucrose - WP Woody Plant medium containing 2% sucrose     

Transformation of meristematic cells in the shoot apex of cultured pea shoots byAgrobacterium tumefaciens andA. rhizogenes

Summary Different tissues in cultured pea shoots were inoculated withAgrobacterium tumefaciens wild types C 58 and ACH 5 andA. rhizogenes wild type 9402. The C 58 and 9402 bacteria induced the formation of tumours and hairy roots respectively while the ACH 5 was inactive. The younger the tissue the more rapidly it responded to the active bacteria. The shoot apex was the most reactive organ and developed into a tumour, theA. rhizogenes tumours subsequently giving rise to transformed hairy roots. Histological examination showed that transformed cells (including those within the apical dome) initially became highly vacuolate before dividing rapidly to form a tumour. These changes were accompanied by cell division in surrounding tissues.