In Vitro Multiplication of Sesame (Sesamum indicum) through Tissue Culture

Tissue cultures were established from different parts of sesame(Sesamum indicum L. cv. PT) seedlings. A callus tissue derivedfrom hypocotyl segments produced embryo like structures. Shoottips with cotyledons excised from 8 to 10-d-old seedlings producedmultiple shoot buds on a cytokinin-enriched medium. Presoakingand germination of seeds in BA or 2iP (8 mg l–1) enhancedthe development of shoot buds. Upon isolation and culture theshoots buds formed rooted plantlets in a charcoal-enriched medium. Sesamum, multiple buds, plantlets     

Somatic Embryogenesis in Cassava: The Anatomy and Morphology of the Regeneration Process

Anatomical and morphological studies demonstrated that somaticembryos developed similarly on mature seed and clonal leaf explantsof cassava (Manihot esculenta Crantz) cultured for 20–24d on Murashige and Skoog (MS2) basal medium supplemented with4.0 mg l^–1 2,4-D (Stage 1) before transfer to MS2 basalmedium supplemented with 0–01 mg l^–1 2,4-D and 0–1mg l^–1 6-benzylaminopurine (Stage II medium). Within 7d of inoculation onto Stage I medium, cell divisions occurredin the adaxial tissues of cotyledon-piece and leaf-lobe explants,and associated with this was the development of embryogeneticprotusions and ridges on the adaxial surface. Foliose structuresand somatic embryo initials developed from these tissues oncotyledon, embryonic axis and leaf-lobe explants and, when cultureswere transferred to Stage II medium, further somatic embryodevelopment occurred. Somatic embryos apparently originatedfrom groups of cells and were identified by the presence ofa closed root axis, a shoot axis and cotyledons of similar shapeand venation to those of zygotic embryos. Somatic embryos hadno vascular connection with parental cultures. Manihot esculenta, cassava, somatic embryogenesis, tissue culture, anatomy, morphology, morphogenesis     

Response of Cultured Embryos of Phaseolus vulgaris and Hordeum vulgare to Farnesol

Excised embryos of Phaseolus vulgaris incubated in a mediumcontaining 10 mg dm^–3 farnesol showed enhanced root growthwhereas the leaves remained rudimentary At lower concentrationsof exogenous farnesol normal leaf development occurred and rootgrowth was comparable to untreated cultures. Enhanced root growthalso occurred when excised embryos of Hordeum vulgare were treatedwith farnesol but only at 10 mg dm^–3 and this treatmentdid not prevent leaf growth X-ray micro-probe analysis of leavesrevealed an increased phosphorus content in P vulgaris and adecreased sulphur content in H vulgare in comparison to untreatedplants. Hordeum vulgare L., barley, Phaseolus vulgaris, bean, embryo culture, farnesol, X-ray microprobe analysis, root growth     

Arrest of somatic embryo development in grapevine: histological characterization and the effect of ABA,BAP and zeatin in stimulating plantlet development

In an effort to understand the causes of arrest of somatic embryo development, generally observed in grapevine (Vitis sp.), histological studies were undertaken, using two cultivars (CH76 and 41B) which differ in their ability to develop into plants. Embryos with a high conversion rate (70%; CH76) formed a well-structured and functional shoot apex between two thread-like cotyledons. In contrast, embryos with a low conversion rate (10%; 41B) formed a normal root apex but lacked a well-structured shoot apex and developed a wide range of aberrant forms in the intercotyledonary area: uncontrolled cellular proliferation, formation of adventitious buds, over-growth of cotyledonary or leaf meristems. ABA increased the conversion rate of 41B embryos from 10% to 20%, but failed to improve embryo morphology. Zeatin and BAP promoted growth of 41B somatic embryos, but generated a high level of abnormalities and failed to improve conversion rate. Applied in combination with ABA, these PGRs increased the frequency of cotyledonary embryos, but decreased the conversion rate.     

Organogenesis in the Cultured Female Gametophyte of Ephedra foliata

The female gametophyte of Ephedra foliata was used as an explantfor the production of haploids as it is composed of haploidcells, all of the same genotype. The regeneration of roots wasdependent upon the presence of NAA, while BAP had a modifyingeffect. At lower concentrations (0.05 parts 10^–6 and 3.5parts 10^–6) BAP enhanced the root promotion of NAA (0.05–4.0parts 10^–6). At higher concentrations of BAP (1–6parts 10^–6), roots and shoot buds were formed. Kinetinat 4.0 parts 10–6 with 0.5 parts 10–6 2, 4-D wasoptimal for shoot bud production in explants at the archegonialstage and 2, 4-D at 2.0 parts 10–6 with 0.5 parts 10–6kinetin was optimal for root formation. Cells of the callusand root tip had the haploid number of chromosomes, n = 7. Meristemoidswere located on the surface or embedded in the callus tissue.The deep seated meristemoids organized only root primordia,but the peripheral ones gave rise to root as well as shoot budprimordia. Initially, there was no vascular connection betweenthe shoot-bud and the callus. This was established later. Key words: Ephedra, Female gametophyte, Haploid, Tissue culture     

Effects of High Air and Soil Temperature Stress on Growth and Tuberization in Solanum tuberosum

Potato plants (Solanum tuberosum L.) were grown at differentair and soil temperatures to determine the effects of high-temperaturestress on root, tuber, and shoot growth. Cooling the soil (17–27C) at high air temperatures (30–40 C) relieved noneof the visible symptoms of heat stress on shoot growth; norwas the degree of induction to tuberize in leaves increased,as reflected in tuberization of leaf-bud cuttings. Heating thesoil (27–35 C) at cool (17–27 C) air temperatureshad no apparent detrimental effect on shoot growth or inductionof leaves to tuberize. However, in each case hot soil largelyeliminated tuber development. In one experiment stolons grewup out of the hot soil and formed aerial tubers upon reachingthe cool air. When leaf-bud cuttings from induced plants wereused as a model system, high soil temperatures inhibited tuberdevelopment from the buried leaf buds, in the absence of anyroot growth. Apparently the induction of leaves to tuberizeis affected principally by air rather than soil temperature,but expression of the signal to tuberize can be blocked by highsoil temperature. Solanum tuberosum L., potato, temperature stress, soil temperature, tuberization     

Patterns of Assimilate Distribution and Source--sink Relationships in the Young Reproductive Tomato Plant (Lycopersicon esculentum Mill.)

Patterns of distribution of ¹⁴C were determined in 47-day-oldtomato plants (Lycopersicon esculentum Mill.) 24 h after theapplication of [¹⁴C]sucrose to individual source leaves fromleaves 1–10 (leaf 1 being the first leaf produced abovethe cotyledons). The first inflorescence of these plants wasbetween the ‘buds visible’ and the ‘firstanthesis’ stages of development. The predominant sink organs in these plants were the root system,the stem, the developing first inflorescence and the shoot ‘apex’(all tissues above node 10). The contribution made by individualsource leaves to the assimilate reaching these organs dependedupon the vertical position of the leaf on the main-stem axisand upon its position with respect to the phyllotactic arrangementof the leaves about this axis. The root system received assimilateprincipally from leaf 5 and higher leaves, and the stem apexfrom the four lowest leaves. The developing first inflorescencereceived assimilates mainly from leaves in the two orthostichiesadjacent to the radial position of the inflorescence on thevertical axis of the plant; these included leaves which weremajor contributors of ¹⁴C to the root system (leaves 6 and 8)and to the shoot apex (leaves 1 and 3). This pattern of distributionof assimilate may explain why root-restriction treatments andremoval of young leaves at the shoot apex can reduce the extentof flower bud abortion in the first inflorescence under conditionsof reduced photoassimilate availability. Lycopersicon esculentum Mill, tomato, assimilate distribution, source-sink relationships     

Callus, Organogenesis and Plantlet Formation in Tissue Cultures of Clitoria ternatea

Decoated seeds of Clitoria ternatea L. germinated on Murashigeand Skoog (Physiologia Plantarum 1962, 15, 473–97) basalmedium (BM) and differentiated callus and bipolar embryoids(two-step method) in low frequency. Calluses developed on lateralroots [BM+KN(0.1 mg 1^–1)], on roots and hypocotyls [BM+KN(0.5mg 1^–1)], and on roots [BM+KN+IAA (0.5 mg 1^–1 ofeach)]. On basal medium with KN (0.5 mg 1^–1) and withKN+IAA (0.5 mg1^–1 of each), multiple shoot buds and embryoids(one-step method) were differentiated directly on split hypocotylsand roots. In the former, shoot buds developed even on unsplithypocotyls. Rhizogenesis on isolated shoot buds occurred efficientlyin BM+indole butyric acid (IBA 0.1 mg 1^–1) and BM+IAA(0.1 mg 1^–1 and 0.5 mg 1^–1). Profuse direct embryoidsand shoot buds developing on root systems are interesting morphogeneticphenomena rarely reported. Clitoria ternatea L., callus, embryoids, multiple shoot buds, regeneration     

Hormonal Control of Organogenesis and Somatic Embryogenesis inBeta vulgarisCallus

Tétu, T., Sangwan, R. S. and Sangwan-Norreel, B. S. 1987.Hormonal control of organogenesis and somatic embryogenesisin Beta vulgaris callus.—J. exp. Bot. 38: 506–517. Three main pathways of morphogenesis viz: root formation, shootformation and somatic embryogenesis, have been observed in thecallus derived from various explants of Beta vulgaris L. Growthhormones but not the basal media, determined the morphogeneticpotentiality of the callus. Auxin alone induced root formation.A combination of an auxin (naphthalene acetic acid) and a cytokinin(6-benzylaminopurine) gave only infrequent bud formation withvery low percentages (a maximum of 12%). Regular bud formationwith high percentages (52%) occurred when an anti-auxin (2,3,5-triiodobenzoicacid) with a cytokinin (BAP) was used. Shoots (2–3 cm)were transferred to a rooting medium. Roots were formed readilyin about 95% of the shoots. Histological studies showed thatcallus first formed meristematic zones and then shoot primordiadeveloped in these zones. Somatic embryos were formed only inthe calli derived from petiole explants. Multiple hormonal sequenceswere necessary for the induction and development of these somaticembryos. The embryos developed into normal plants when transferred,at the cotyledonary stage, to a hormone free basal medium. Key words: Beta vulgaris, organogenesis, somatic embryogenesis     

In vitro morphogenesis of Cucumis melo var. inodorus

In vitro morphogenesis of C. melo L. var. inodorus was studied by the induction of adventitious buds and somatic embryos. Organogenesis was obtained from cotyledon segments and leaf discs in culture medium supplemented with benzylaminopurine (1 mg l⁻¹) and somatic embryogenesis was induced in medium containing 2,4-dichlorophenoxyacetic acid (5 mg l⁻¹) + thidiazuron (1 mg l⁻¹). Through histological analysis it was possible to verify that in cotyledonary explants, protuberances that do not develop into well-formed shoot buds and leaf primordia are more frequently formed than complete shoot buds, resulting in a low frequency of plant recovery in the organogenic process. A high percentage of explants responded with the formation of somatic embryos; the microscopical analysis showed that the somatic embryos lacking well developed apical meristems had a low conversion rate into plants. Plant recovery was not obtained from leaf-disc explants, with high rates of contamination and formation of protuberances which did not develop into shoot buds. Histological sections showed the development of epidermis and leaf hairs, indicating those structures could be leaf primordia; however, these were not associated with a shoot apical meristem. This revised version was published online in June 2006 with corrections to the Cover Date.     

Effect of Temperature on Growth of Crotalaria juncea L. and Crotalaria sericea Retz.

Growth performances of Crotalaria juncea L. and C. sericea Retz.have been compared at two controlled temperatures, 16–20°C, and 28–32 °C, with respect to increase ind. wt and leaf area, relative growth rate, leaf area ratio,specific leaf area, leaf weight ratio, net assimilation rate,the ratio of mean relative growth rate to mean relative rateof leaf area increase () and shoot/root ratios. Both the speciesgrew better at the higher temperature; however the relativegrowth rate was more affected by temperature in C. sericea thanin C. juncea. Further, it was observed to be more dependenton net assimilation rate than on the leaf area ratio. Crotalaria juncea L., Crotalaria sericea Retz., relative growth rate, leaf area ratio, specific leaf area, leaf weight ratio, leaf area increase, net assimilation rate, shoot/root ratio     

Yellow and red pigment production by cell cultures of Carthamus tinctorius in a bioreactor

Segments taken from flower-stalk internodes of Oncidium Sweet Sugar formed somatic embryos and shoot buds directly from wound surfaces or via nodular masses proliferation within 1.5 months, when cultured on a Gelrite-gelled 1/2-MS basal medium supplemented with thidiazuron (0.1–3 mg l⁻¹) in darkness. In light, when subcultured, these nodular masses proliferated into green compact callus, and produced somatic embryos, shoot buds and/or yellowish abnormal structures spontaneously. Supplementing 0.1–1 mg l⁻¹ NAA enhanced embryo formation, but retarded proliferation of shoot buds and yellowish abnormal structures. Somatic embryos that directly formed from wound surfaces of flower stalk explants usually developed into abnormal structures, but the callus-derived embryos could germinate into PLBs and eventually developed to normal plantlets on a hormone-free basal medium for 3–4 weeks. Both the embryo-and shoot bud-derived regenerants developed into healthly plantlets when potted in sphagnum moss and acclimatized in the greenhouse. This revised version was published online in June 2006 with corrections to the Cover Date.     

Tillering, Leaf Expansion and Growth of Plants of Two Cultivars of Perennial Ryegrass Grown using Hydroponics at Two Water Potentials

Tillering and growth parameters of perennial ryegrass cultivarsWendy (diploid) and Condesa (tetraploid) were determined ina glasshouse experiment using hydroponics at low (–1·3MPa) and normal water potential (0 MPa). At –1·3MPa, leaf extension rate was reduced by 36%. Final plant tillernumber was 20% lower at –1·3 MPa because of a 12%reduction in the leaf appearance rate in the first weeks afterthe start of the treatments. Site filling, the relative increasein tiller number per leaf appearance interval, was high (0.61)-butstill lower than theoretically possible-and was only slightlyaffected by water potential. Site filling was shown to be strictlyrelated to the number of inhibited plus unemerged tiller buds.Dry matter production was 64% lower at –1·3 MPa.Relative growth rate (RGR) was, on average, 17% lower at –1·3MPa, but the reduction was greater just after the treatmentsstarted. Also, net assimilation rate (NAR) was reduced moreby low water potential just after the start of the treatments.Specific leaf area (SLA) was 13 % lower at –1·3MPa for Wendy, but not significantly reduced for Condesa. Contraryto expectations based on the theory of the functional balancebetween root and shoot, leaf weight ratio was slightly higherat –1·3 MPa. From comparison of the results ofthis study with published data, it is concluded that effectsof drought in the field on tillering cannot be attributed onlyto low water potential. Lolium perenne L., perennial ryegrass, tillering, site filling, leaf appearance, leaf extension, growth analysis, water potential     

Effects of Desiccation, Medium Osmolarity and Abscisic acid on the Maturation of Hevea brasiliensis Somatic Embryos

The effects of desiccation of Hevea somatic embryos and of sucroseand ABA concentrations in the maturation medium on their germinabilitywere investigated. Conversion into plant, water and histochemicalstatus of somatic embryos were compared systematically to thoseof the zygotic embryos used as reference. Slow desiccation ormaturation on 351 mol m^–3 sucrose supplemented with 1mmol m^–3 ABA strongly improved germinability and conversionof embryos into plants. The combination of the two treatmentswas the most effective, increasing the germination frequencyby 3·7 and plant conversion by 6·6 in clone PR107. Each of these two treatments increased the vigour of somaticembryos, stimulated the formation of root and shoot meristemsand the synthesis and accumulation of starch and protein reserves.At the end of maturation, the Hevea somatic embryos bore ananatomical and histochemical resemblance to mature zygotic embryos.Likewise, the two treatments brought the water status of somaticembryos closer to that of the mature zygotic embryos, but withoutachieving a perfect match. Optimization of the successful conversioninto plants may require full acquisition of this water status. Key words: ABA, embryo maturation, Hevea, somatic embryogenesis, water status     

In Vitro Regeneration from Seedling Organs of Brassica oleracea var. italica Plenck cv. Green Comet I. Effect of Plant Growth Regulators

The calabrese cultivar Brassica oleracea var. italica cv. GreenComet was used in a study of the effects of exogenous hormoneson the growth and differentiation of seedling organs in vitro.Four types of explants were tested: hypocotyl segments, rootsegments, primary leaf discs and cotyledon discs. These explantswere incubated on media containing factorial combinations ofBAP x IBA, BAP x NAA, KN x IBA and KN x NAA (all at 0, 0.1,10 and 10.0mg l^–1). Hypocotyls were the most regenerativeexplants; shoot production was favoured by cytokinin: auxinratios greater than one and was decreased by IBA at 10 mg l^–1when callus was produced. Shoot formation from root explantsoccurred either in the absence of hormones or with low concentrations;no shoot was produced when any hormone was present at 10 mgl^–1. In contrast, shoot production from primary leaf diseswas favoured by high concentrations of both auxin and cytokininwith the combination of BAP and IBA the most effective. Shootproduction from cotyledon discs was sporadic with no consistentresponse on any auxin/cytokinin combination. After further experimentson the optimization of hormone concentration, the followingcombinations were chosen as allowing reliable regeneration:0.1 mg l^–1 BAP+0.1mg l^–1 IBA for hypocotyl segments,0.075 mg l^–1 KN +0.025 mg l^–1 IBA for root segments,and 5.0 mg l^–1 BAP+5.0 mg l^–1 IBA for leaf discs. Brassica oleracea var. italica, calabrese, tissue culture, seedling, auxin, cytokinin     

Embryo Morphogenesis in the Stem Parasite Scurrula pulverulenta

Seeds of Scurrula pulverulenta, a leafy mistletoe, germinatedon a simple nutrient medium, and addition of casein hydrolysate(CH) supported better growth of the seedlings. In either casethe seedlings developed haustoria which were comparable to thehaustoria formed in vivo inside the host tissue. On White'smedium (WM)+CH+indole-3yl-acetic acid (IAA) the embryo callusedand, subsequently, differentiated shoot buds and/or haustoria.On WM+CH+IAA+ kinetin the callused embryo did not differentiatehaustoria or shoot buds. However, on this medium, ‘embryoids’developed up to the heart-shaped stage. The effects of somecytokinins, coconut milk, and water-melon juice, on germination,proliferation of embryo, and differentiation of shoot buds fromthe callus were also studied.     

Shoot initiation in the leaflet axils of compound leaves from micropropagated shoots of juvenile and mature common ash (Fraxinus excelsior L.)

Micropropagation of a mature ash tree has been achieved forthe first time. The main obstacle encountered was contaminationof the initial explants with microorganisms. However, once apparentlysterile shoots had been obtained, shoot proliferation was achievedmost effectively by culturing nodes on Driver and Kuniyuki walnutmedium containing 22.2 µM benzyladenine. After severalsubcultures, a species of Bacillus appeared with the matureculture line, but it did not affect shoot or root developmentadversely. With successive subculturing, shoots of the matureash clone became progressively easier to root. Pinnately compoundleaf explants from micropropagated shoots of two seedlings andthe mature tree, placed on to Murashige and Skoog-based culturemedia supplemented with 4.4µM-phenyl-N-1,2,3-thiadiazol-5-ylurea,produced shoot buds. Most buds developed from the rachis atthe points of attachment of the leaflets. When transferred toDriver and Kuniyuki walnut medium, buds from one of the seedlinglines and from the mature tree, elongated into shoots, and weresubsequently transferred to media for micropropagation and rooting.Shoot initiation is discussed in relation to possible occurrenceof vestigial meristems in the axils of leaflets and the partialshoot theory of leaf structure. Key words: Forestry, leaf structure, partial shoot theory, thidiazuron, tree     

In Vitro Embryo Culture and Induction of Multiple Shoots in Lychee (Litchi chinensis Sonn.)

Immature embryos of different sizes and ages from commercialvarieties of lychee (Litchi chinensis Sonn.) were cultured ina range of different media. Embryos as small as 3 mm could becultured using in vitro techniques and subsequently grown intoplants. MS solid medium with 2% sucrose supplemented with 150ml l^–1 coconut water was most effective in stimulatingthe germination of immature lychee embryos. Embryos of lycheewere treated to induce adventitious buds from embryonic shootsas a means of achieving multiplication. The different varietiesexhibited differences in response, with Bengal embryonic shootsproducing 15 adventitious buds after pretreatment with 100 mgl^–1 BAP for 3 h. Root formation was achieved in 65% ofadventitious shoots using MS medium supplemented with 0.5 mgl^–1 NAA and activated charcoal. These plants were successfullydeflasked and grown on in the glasshouse. This technique providesof means of producing some multiple shoots from lychee embryosand has value for multiplication in a breeding program wherea method of micropropagation is unavailable. Litchi chinensis Sonn., lychee, embryo culture, multiple shoots, in vitro     

The Effect of Bud Position on Branch Growth and Bud Abscission in Quercus petraea (Matt.) Liebl.

The time at which a bud began to expand was related to its positionnot only on an individual shoot but also within the crown. Thedistribution of buds and branches on the shoot was uneven; theshoot tip, where they were densely clustered, was termed the‘whorl; and the remainder of the shoot, where they werewidely spaced, the ‘interwhorl’ stem. In spring,the terminal bud started expanding before the ‘whorl’buds which preceded the ‘interwhorl’ stem buds;completion of the flush of growth, determined by the end ofleaf expansion, occurred in the reverse order, ‘interwhorl’> ‘whorl’ > terminal. Similarly bud expansionstarted at the top of the crown and progressed downwards, andthe first shoots to complete their flush were at the bottomof the crown. Approximately 60% of the buds on each shoot beganexpanding in spring but only about half of these formed branches.Bud abscission began in May and by Sep. 45% of buds originallypresent had abscised. Most of-the buds that did not abscisewere the small buds at the base of the shoot that were not originallyassociated with a leaf. Approximately 42% of ‘whorl’buds and 28% of MnterwhorP stem buds formed branches. ‘Whorl’branches were approx. 60% longer that ‘interwhorl’stem branches; buds on the lower surface of the shoot producedlonger branches than those on the upper surface. The implicationsof the results for the development of crown form and selectionof superior oak are discussed. Quercus petraea, oak, buds, branches, crown form     

Organogenesis and somatic embryogenesis from callus cultures in Muscari armeniacum Leichtl. ex Bak.

Summary Establishment of fast-growing, highly regenerable callus cultures was examined in Muscari armeniacum Leichtl. ex Bak. in order to develop an efficient genetic transformation system. High-frequency callus formation was obtained from leaf explants of cv. Blue Pearl on media containing 2,4-dichlorophenoxyacetic acid (2,4-D), α-naphthaleneacetic acid (NAA) or 4-amino-3,5,6-trichloropicolinic acid (picloram, PIC). Fast-growing, yellowish nodular callus lines and white friable callus lines containing a few somatic embryos were established on initiation medium supplemented with 4.5 μM 2,4-D and with 54 μM NAA, respectively. The yellowish nodular calluses vigorously produced shoot buds after transfer to media containing 0.44–44 μM 6-benzyladenine (BA), whereas the white friable calluses produced numerous somatic embryos upon transfer to plant growth regulator-free (PGR-F) medium. Histological observation of shoot buds and somatic embryos indicated that the former consisted of an apparent shoot meristem and several leaf primordia, and the latter had two distinct meristematic regions, corresponding to shoot and root meristems. Both shoot buds and somatic embryos developed into complete plantlets on PGR-F medium. Regenerated plants showed no observable morphological alterations. High proliferation and regeneration ability of these calluses, were maintained for over 2 yr.