Effect of Light and NaCI Salinity on the Growth of Callus Cultures of Ipomoea pes-caprae (L.) R. Brown and Ipomoea batatas (L.) Lam

Callus cultures of Ipomoea pes-caprae and I. batatas were establishedon MS medium containing 10^–5 M 2,4-D and 10^–8 Mbenzyladenine. Ipomoea pes-caprae calli exhibited green pigmentationand grew better in the light than in darkness. Callus tissuesof I. batatas showed a pale-yellow colouration and they grewat the same rate in light as in dark conditions. I. pes-capraeand I. batatas callus cultures were sensitive to the presenceof 60 mM NaCl in the culture medium, the growth of the formerbeing more sensitive in light than in darkness. The significanceof the responses of I. pes-caprae callus cultures in relationto the mechanism of salt tolerance is discussed. Ipomoea batatas, Ipomoea pes-caprae, sweet potato, railroad vine, callus cultures, salinity, light     

Effect of Light on Alkaloid Accumulation in Cell Cultures of Nicotiana Species

The effect of light on alkaloid accumulation in a range of cellcultures of tobacco was determined. Cell suspension culturesof Nicoriana rabacwn L. cv. Wisconsin-38 with differing degreesof photosynthetic activity, callus cultures of N. glauca Graham,root cultures of N. rustica L. and shoot cultures of N. tabacumwere used. The alkaloid content of green illuminated cultureswas greatly reduced compared with non-green cultures grown inthe dark, but decreased accumulation did not correlate withincreasing photosynthetic activity. The accumulation of allof the major alkaloids was affected, regardless of the speciesof tobacco used. Transfer of N. glauca callus from the darkinto the light caused a decrease in alkaloid accumulation, whilemoving cultures from the light into the dark resulted in anincrease in alkaloid content. In root cultures light causeda reduction in growth, which affected alkaloid synthesis. Inshoot cultures there were only traces of alkaloid detectable,regardless of whether or not cultures were illuminated. Lightappeared to cause a non-photosynthetic suppression of alkaloidaccumulation in visibly undifferentiated cultures, and thiseffect was modified in visibly differentiated cultures. Key words: Nicoriana spp, tobacco, alkaloid accumulation, cell culture     

Influence of light intensity and photoperiod on embryonic development,survival and growth of threatened catfish Ompok bimaculatus early larvae

Larval growth and survival of catfishes are largely influenced by the various biotic and abiotic factors. The present study investigated the effect of different light intensities and photoperiods on growth and survival of Ompok bimaculatus larvae. Three separate trials of 21 days each were carried out in an aquarium tank. The first trial investigated the embryonic changes (based on hatching rate and time) upon exposure to varied light intensity (0, 300, 500, 900 and 1200 lx) and photoperiodic regime (24l:0d, 16l:8d, 12l:12d, 8l:16d and 0l:24d). Subsequently, hatched-out larvae were subjected to the aforementioned intensities (Trial II) and photoperiod (Trial III, intensity of 300 lx) for growth and survival attributes. Eight hundred healthy larvae (average body weight = 0.003 g) were randomly distributed into five treatment groups for the last two trials. Results suggest a higher embryo hatching rate and larval survival at 0 and 300 lx, whereas the largest larval growth was observed at 900 lx. In Trial III, survival was highest in 0l:24d and growth in 24l:0d and 16l:8d was higher (P < 0.05). Performance index was higher (P < 0.05) in both 0 and 300 lx light and decreased at higher intensities. The overall interpretation from the present study concludes that a completely dark rearing environment is recommended for better survival of O. bimaculatus although growth was compromised.     

Induction of callus in the liverwort Marchantia palmata Nees

Abstract

In Marchantia palmata Nees, normal growth of thalli occurs on Nitsch's basal medium with 1% sucrose. With 4% sucrose, dark green callus is initiated by light intensities of 150–4,500 lux after 13–15 days of growth. In the dark only rhizoids develop from callus and at low light intensity (150 lux) rhizoids as well as knob-like green outgrowths differentiate. Increased light intensities induce differentiation of thalli and rhizoids from callus. The callus inducing effect of increased sucrose level can be replaced by higher concentrations of mannitol. Histological studies reveal that callus initially arises from the lower epidermis.     

In Vitro Long-Term Storage of Date Palm

A reliable method for the long-term conservation of date palm tissue cultures is described. In vitro shoot bud and callus culture were successfully stored for 12 months at 5°C in the dark. At this conditions high percent of cultures remained viable without serious signs of senescence. However, the growth rate decreased as storage period increased. The role of sorbitol as osmotic agent in storage was examined. Health shoot bud cultures were obtained after 6 months of storage on medium containing 40 g dm^–3 sorbitol. This period extended for 9 months in case of callus cultures.     

The Inhibition of Growth in Higher Plants by a Homologous Series of Guanidines and its Reversal by Spermine

The effects of guazatine, synthalins A and B and a homologousseries of aliphatic monoguanidines on the growth of cress, barleyand oat seedlings, and apple cell suspension cultures have beenstudied. In the homologous series of aliphatic monoguanidines[NH₂C(=NH)NH(CH₂)_x–1CH₃] greatest inhibition was foundwith x = 8-10 for cress, barley and oats and x= 10–14for apple cells. Spermine partially reversed the inhibitionin the light for cress and barley but in the dark no reversalwas found. Technical guazatine inhibited growth to a greaterextent than pure guazatine, and was comparable in toxicity tosynthalin B in cress, barley and oats. Reversal by spermineof inhibition due to guazatine and synthalin B was greater inthe light than in the dark in these plants. Calcium ions didnot reverse the toxicity of guazatine, synthalin B or dodine.Reversal of the inhibition by guazatine, synthalin B and dodineof the growth of the apple cells was considerably greater withspermine than with spermidine. Lepidium sativumcress, Hordeum vulgarebarley, Avena sativaoat, Malus sylvestrisapple, guanidines, guazatine, synthalins, dodine, spermine, spermidine     

Interconversions of 14C-labelled Sugars in Apple Tree Tissues12

Tissue pieces excised from orchard-grown apple trees duringa growing season exhibited different and changing capabilitiesof transferring ¹⁴C-label from sucrose, fructose and sorbitolto other soluble carbohydrates. All tissues incorporated fructose¹⁴C into sucrose but only leaves incorporated significant amountsof label from sucrose into sorbitol. As seeds developed andmatured, their ability to incorporate ¹⁴C from sorbitol andfrom fructose into sucrose increased. Sorbitol and sucrose arethe major translocated photosynthetic products of apple leavesbut whereas sorbitol appears to be an end-product of synthesis,sucrose may be considered as a substrate involved more directlyin carbohydrate utilization. Key words: Malus domestica, Apple, Carbohydrate interconversions     

Schooling behaviour and retinomotor response of juvenile Pacific bluefin tuna Thunnus orientalis under different light intensities

Schooling behaviour and histological retinal light adaptation in juvenile Pacific bluefin tuna Thunnus orientalis were examined under various light intensities to determine the effect of light intensity on behaviour. After monitoring the schooling behaviour of juveniles 35–36 and 45–46 days post hatching, schooling variables such as nearest neighbour distance and separation swimming index were measured under different light intensities. Furthermore, retinal indices of light adaptation were investigated histologically for each experimental light intensity. Under intensities >5 lx, schooling variables in the two juvenile growth stages were nearly constant, allowing schooling. In contrast, the schooling variables indicated that the fish gradually swam more widely and randomly with decreasing light intensities <5 lx. The retinal indices also showed a shift from light adaptation to dark adaptation at light levels <5 lx. From 5 to 0·01 lx, retinal adaptation and fish schooling behaviour changed with light intensity. These data suggest that the schooling behaviour of juvenile Pacific bluefin tuna is greatly affected by retinal adaptation.     

The Effect of Growth-regulating Substances and Light on Olive Callus Growth in vitro

In vitro olive callus cultures were established; auxin was notobligatory for the early development of the callus. However,after a number of subcultures, both an auxin and a cytokininwere needed for growth. IAA was the most efficient auxin ininducing growth, although 2,4-D was also very active. Very shortperiods of red-light illumination were sufficient to effectgreening of the tissue. A particularly high ratio of chlorophyllb/a was found under all light conditions tested. All light treatmentsstimulating chlorophyll synthesis caused a reduction in growthafter four subcultures.     

Root, Callus, and Cell Suspension Cultures, from Atropa belladonna, L. and Atropa belladonna, Cultivar lutea Doll

Root, callus, and cell suspension cultures have been establishedfrom seedlings of Atropa belladonna, L. and Atropa belladonna,cultivar lutea Döll. The growth of these cultures is described.Callus cultures transferred to auxin (-naphthaleneacetic acid)-freemedium initiated roots and shoots. Excised root cultures havebeen established from such roots and plants from such shoots.Extracts of the cultures have been submitted to the Vitali—Morinreaction and following chromatography, to the Dragendorff reaction.Cultured excised roots and plants raised from shoots initiatedon cultured callus were shown to contain atropine (hyoscyamine)and reactive substances corresponding in Rf to hyoscine andcuscohygrine. These alkaloids were absent from cultured callusand cultured cell suspensions and from leaves when initiatedwithout roots on callus. The cultured calluses and cell suspensionscontained choline (0.022–0.027 g per 100 g dry weightof root callus). The growth of cell suspension cultures wasnot inhibited by incorporating atropine sulphate, L-hyoscyamine,L-hyoscine hydrobromide, or DL-scopoline nitrate in the culturemedium at 250 mg/I. These alkaloids were absorbed by the cells,a high proportion of the added alkaloid could be recovered fromthe cultures even after 4 weeks' growth and no evidence wasobtained of the presence of degradation products of the alkaloids.The suppression of alkaloid formation in actively growing callusand cell suspension cultures is discussed.     

Factors Influencing Morphogenesis in Excised Roots and Suspension Cultures of Atropa belladonna

Excised root cultures of Atropa belladonna L. and A. belladonnavar. lutea Döll, established from liquid-grown seedlingsand from callus, when allowed to continue growth without subculturefor several weeks, spontaneously initiate shoot buds from smallnodules of callus which arise at the cut ends of the roots.The frequency and rapidity of formation of such buds is dependentupon the number of passages through which the roots have beensubcultured. The morphogenetic expression of callus cultures and of suspensioncultures derived from them is influenced not only by the timethat the root cultures have been maintained in culture but bythe composition of the medium used for callus initiation andsubsequent culture. The presence of elevated levels of ammoniumions in these media favours the development of incipient plantsrather than roots. Cultures have thus been obtained in whichthe predominant form of morphogenesis is embryogenesis (as establishedin a subsequent paper by Konar, Thomas, and Street, 1972).     

Purine Alkaloid Production and Accumulation in Cocoa Callus and Suspension Cultures

Cocoa callus and suspension cultures were found to produce caffeine,theobromine, and theophylline which are typical of the purinealkaloids found in cocoa beans. Production of these purine alkaloidswas monitored in callus cultures for over 2 years and shownto stabilize at concentrations of about 10% those found in vivo.Caffeine and theobromine were produced concomitant with logphase growth of the cultures whilst theophylline productionreached a maximum during stationary phase, reflecting the possiblerole of the latter as a catabolite of caffeine. The effectsof choice of cytokinin, explant tissue, cocoa type, light conditionsand time in culture on purine alkaloid production by callushave been examined. Purine alkaloid production by cocoa suspensioncultures has also been examined and these cultures were shownto be less productive and more variable than callus cultures.The results demonstrate that cocoa tissue cultures can be usefulfor studying secondary metabolism in vitro. Key words: Theobroma cacao, caffeine, theobromine, tissue culture, secondary metabolism     

ERRATA

P. 65, line 8, for 86-215 lx read 8,50-21,50 lx P. 66, Table I, for 96 lx read 9,600 lx Table 2, All valuesof light intensity to be multiplied by 100 line 16, for 107lx read 10,700 lx line 17, for 107 lx read 10,700 lx P. 67, Table 3, All values of light intensity to be multipliedby 100 P. 68, Table 4, All values of light intensity to be multipliedby 100 Table 5, All values of light intensity to be multipliedby 100     

Radiation-induced Organogenesis and Isoenzyme Patterns in Long-term Callus Cultures of Datura innoxia

Effect of gamma irradiation on growth, shoot organogenesis andenzyme activities and isoenzyme patterns of -amylase and peroxidaseduring differentiation in long-term calluses of Datura innoxiahave been investigated. Radiation in doses of 0.2 and 1.0 kRstimulated the shoot regeneration frequency as well as the numberof shoots per regenerating callus. The 0.2 kR dose could induceshoot organogenesis even in calluses incubated in the dark oncallusing medium, although with less frequency. Such cultures,however, showed profuse shoot regeneration when sub-culturedonto regeneration medium under light conditions. A higher radiationdose (5.0 kR) was lethal to both growth and shoot differentiation.Prior to shoot regeneration, -amylase and peroxidase specificactivities increased to four- to fivefold and 7–24-fold,respectively. While the amylase isoenzyme pattern remained unchanged,specific changes in the isoperoxidase pattern were observedduring shoot differentiation in callus cultures. The most significantchange was the appearance of fast-moving anodic bands priorto visible shoot differentiation. Thus, such isoperoxidasesprovide useful biochemical markers for shoot differentiation. Datura innoxia, shoot organogenesis, isoenzyme pattern, gamma-radiation, growth regulators     

Effects of Monochromatic Radiations on Growth of Pelargonium Callus Tissue

Pith callus tissues were grown under continuous blue (450 mµ),green (545 mµ), red (650 mµ), and ‘white’(full-spectrum) light, and in the dark for 22 days at 27±2°C at energy levels of 15,000 ergs cm^–2 sec^–1. Mean increases in fresh weight of tissues grown under ‘white’and blue light were significantly greater than those of tissuesgrown in green and red light and in the dark. Tissues grownin the dark yielded mean fresh weight increases significantlylower than tissues grown under blue, red, and ‘white’light. No significant differences were shown between blue and‘white’, red and green, and green and dark treatmentsrespectively. Cell differentiation occurred in all treatmentsonly to the extent of vessel element formation. There were nodifferences in degree of differentiation between treatments. It was proposed that the high-energy reaction of photomorphogenesiswas in operation in the Pelargonium callus tissue. The resultsindicated the presence in the tissue of high-energy photoreceptor(s).The use of high-intensity, incandescent illumination for experimentalprocedures approximating natural conditions of irradiation wasindicated as desirable for pith callus tissues of Pelargoniumzonale var. Enchantress Fiat.     

The phycocyanin to chlorophyll {alpha} ratio and other cell components as indicators of nutrient limitation in two planktonic cyanobacteria subjected to low-light exposures

The cell composition of the planktonic cyanobacteria, Oscillatoriaagardhii (Gomont) and Oscillatona redekei (van Goor), was comparedfor cultures grown under nitrogen (N) and phosphorus (P) limitation,and light climates which were energy (E) limited (photoperiods3:21 and 6:18 light:dark (LD) and irradiances 12–153 µmolm^–2s^–1). Increases in carbohydrate/protein ratio(CHO/Prot) and declines in chlorophyll a (Cha) and phycocyanin(PC) resulted from N and P limitation. N-, P- and E-limitedcultures could be distinguished on the basis of P content andthe ratio of PC/Cha. The P content range of 0.1–0.55%of ash-free dry weight (AFDW) for P-limited cultures was lowerthan that for N- and E-limited cultures (0.56–2.2 %AFDW).Cultures limited by N were distinguishable from E-limited cellsby lower PC/Cha ratios, ranging from 0 to 4.08, compared to3.9–6.9 for E-limited cells. Under the 3:21 LD cycle,the minimum PC/Cha ratio of E-limited cells was 4.5. Increasesin the CHO/Prot ratios were proportional to the difference betweenthe nutrient-limited growth rate and the non-nutrient-limitedgrowth rate. A comparison of the composition of the two speciesshowed greater accumulation of carbohydrate by O.agardhii undernutrient-limiting conditions, but that O. redekei had higherlevels of protein, chlorophyll a and phycocyanin and, in theabsence of P limitation, higher P contents than O.agardhii.     

Condensed Tannin Formation by Agrobacterium rhizogenes Transformed Root and Shoot Organ Cultures of Lotus corniculatus

Root cultures of Lotus corniculatus L. cv. Leo transformed withAgrobacterium rhizogenes (C58Cl-pRi15834) grew rapidly in liquidmedium when cultured in the dark and produced large numbersof shoots when illuminated. The shoots, which could be regeneratedto produce fertile plants, were maintained in liquid mediumas shoot-organ cultures The accumulation and cellular distribution of condensed tanninswas determined during the growth of these root and shoot organcultures and in primary callus from non-transformed explants.Root and shoot cultures predominantly accumulated insolublepolymeric tannins which yielded both cyanidin and delphinidinon hydrolysis at ratios equivalent to control plants. Methanol-solublevanillin-positive compounds were isolated but no free oligomericproanthocyanidins, monomeric flavans or dihydroflavonols weredetected in these extracts. Condensed tannin accumulation waslinearly related to root growth and had a similar spatial distributionin ‘tannin’ cells in roots and leaves as comparedto control plants. Tannin-containing cells were absent frommeristematic cells of the root tip and root/shoot interface.Primary callus cultures failed to accumulate condensed tanninson media containing auxins, and exogenously supplied auxinswere found to inhibit tannin accumulation by transformed rootand shoot cultures Key words: Lotus corniculatus, Agrobacterium rhizogenes, hairy roots, condensed tannins, shoot and root cultures.     

Callus Induction and Plant Regeneration from Barley Mature Embryos

Callus cultures were induced starting from excised mature embryosin spring barley, Hordeum vulgare cv Maxima On a medium containinga high level of auxin, a first primary callus was induced whichwas friable, unorganized and capable of direct plant regenerationin the tested conditions This callus type was characterizedby fast growth and high variability in chromosome number Subsequently,a secondary callus type arose from the primary calli subculturedon the same medium in the light This callus type was white andcompact and consisted predominantly of diploid cells When transferredto hormone-free medium it gave rise to green shoots Completerooting of the shoots was achieved on half-strength basal mediumfollowed by exposure to higher light intensity Regenerated plantletscould then be transferred directly into soil without sufferingany loss in vitality Although showing different degrees in morphologicalvariability, they all maintained the diploid chromosome number Hordeum vulgare L, spring barley, morphogenic calli, organogenesis     

The Structure and Composition of Bead-like Projections on Sitka Spruce Callus Cells Formed during Grafting and in Culture

Projections at the cell wall surface in callus formed at thegraft interface and in vitro in Picea sitchensis (Bong.) Carrhave been examined using light and electron microscopy. Thesestructures range in size from 1 to 5 µm in diameter, andconsist of a homogeneous matrix enclosing one or more fibrillar/vesicularcores. Histochemical and cytochemical studies have shown thatthe homogeneous matrix is made up of a mixture of pectins, carbohydrate,protein and fatty acids, while the fibrillar/vesicular componentis mainly carbohydrate and pectins. The possible functions ofthese structures are discussed on the bases of their composition.Copyright1993, 1999 Academic Press Picea sitchensis, callus, cell-wall projections, histochemistry, cytochemistry     

Der Einflu{beta} verschiedener Lichtqualitaten auf Chlorophyllgehalt und Wachstum von Gewebekulturen aus Crepis capillaris (L.) WALLR.

The influence of different light qualities on chlorophyll contentand growth of tissue cultures from Crepis capillaris (L.) WALLR. Tissue cultures from Crepis capillaris growing on media (M₁; M₂ ; M₂-E) formed chlorophyll and intact chloroplasts onlyin the short wave length region of the visible spectrum (350–550nm). In red light (600–700 nm) as well as in darknessthey lost their chlorophyll after 8–10 weeks. The growth of Crepis-cultures was strongly influenced by lightand the nitrogen of the medium. The highest increase in freshweight (425–485% increase in 3 weeks) was attained inred light or in darkness on M₂ by cultures which had lost theirchlorophyll completely. M₂ contains nitrates, ammonium saltsand amino acids. In contrast, the increase in fresh weight ofgreen cultures growing on M₂ in blue or white light was considerablylower (155–180% increase in 3 weeks). Omission of amino acids, (M₂-E), resulted in the reduction ofthe growth (increase of fresh weight in 3 weeks: 120%) of thechlorophyll-free cells growing in the dark. Green cultures behaveddifferently on M₂-E. In white light they attained an increasein fresh weight of 245%. This suggests that the growth promotingeffect of the amino acids can be replaced by light. Results with cultures growing on M₁, which contains neitherammonium salts nor amino acids, point in the same direction.Green cultures in white or blue light grew better (90–100%increase in fresh weight in 3 weeks) on this "deficient" mediumthan chlorophyll-free tissues in red light or in darkness (20–30%increase in fresh weight in 3 weeks). Some aspects of thesefindings which concern the effect of light on growth are discussed. (Received November 28, 1969; )