GROWTH IN VITRO OF TISSUES ISOLATED FROM NORMAL STEMS AND INSECT GALLS

Pelet , F., A. C. Hildebrandt , A. J. Riker, and F. Skoog . (U. Wisconsin, Madison.) Growth in vitro of tissues isolated from normal stems and insect galls . Amer. Jour. Bot. 47(3) : 186—195. Illus. 1960.–In a preliminary analysis of the nature of gall formation induced by insects, a comparative study has been made of the in vitro growth and nutrition of plant tissues derived from insect galls and from normal plants. Grape, elm, poplar, and willow tissues were grown on a standard medium, modified White's nutrient medium, with coconut milk and/or various growth factors added. Satisfactory growth was obtained over a temperature range from 16° to 36°C. but was generally optimal at 28°—32°C. The optimum pH was generally 4.0—4.5, but a pH of 6.0 or 7.0 gave better growth when the medium contained 2,4-dichlorophenoxyacetic acid. Detailed nutritional studies were limited to grape tissue. Excised stems and excised galls induced by Phylloxera vastatrix Planch, were grown on the basal medium with vitamins and supplemented with naphthaleneacetic acid, indoleacetic acid, kinetin, casein hydrolysate, yeast extract, adenine and a few amino acids added in various combinations. Growth (fresh weight) was measured after a 6-week growth period. When these substances were added singly the optimal concentrations and the quality of growth of stem explants were as follows: with adenine (40 mg./l.) or kinetin (1 mg./l.), growth poor; with NAA (1 mg./l.) or IAA (2 mg./l.), growth fair; and with the only concentration of a powdered casein hydrolysate (3 g./l.), growth good. Gall explants responded more readily to kinetin or adenine but did not form callus in the presence of casein hydrolysate alone. Stem tissues formed both roots and callus, whereas gall tissues formed only callus. The same substances were tested in various combinations. NAA and kinetin provided for moderate, continuous growth, and excellent growth if casein hydrolysate and adenine also were added to the medium. The NAA requirements were markedly reduced in the grape tissues which had been subcultured for 1 or 4 years on coconut milk medium. Friable tissue types were inhibited by the adenine and casein hydrolysate combinations. They grew through 1 passage only on basal medium and then died if not supplied with NAA and kinetin. Firm tissues responded favorably, although irregularly, to casein hydrolysate and adenine. It was concluded that although nutrient requirements varied with tissues derived from insect galls and from normal plants, they also varied with the time of cultivation in vitro. The induction of galls by Phylloxera was not a permanent change in growth factor requirements comparable to that conferred by the crown gall bacteria. In attempts to grow the insect in sterile culture in vitro 5 successive generations of phylloxera were reared on callus tissue.     

SOME EFFECTS OF KINETIN ON THE GROWTH AND FLOWERING OF INTACT GREEN PLANTS

Wittwer , S. H., and R. R. Dedolph . (Michigan State U., E. Lansing.) Some effects of kinotin on the growth and flowering of intact green plants. Amer. Jour. Bot. 50(4): 330–336. Illus. 1963.—Dry matter accumulation of aerial parts, and heights of tomato, cucumber, and pea plants were markedly reduced when kinetin was incorporated into the culture solution root medium in concentrations ranging from 10^–5 to 10^–7 M. Concentrations which suppressed top growth (height, dry weight) generally had lesser effects on root growth and, in some instances, enhanced it. Thus top/root ratios were greatly reduced and approached unity in kinetin-treated peas and tomatoes. Flowering was inhibited in tomatoes and accelerated in peas. There were marked changes in root morphology, including the formation of pseudonodules. Kinetin had an effect which was opposite to that of gibberellin on internode elongation, root extension, top/root ratios and flowering of dwarf peas. N⁶-benzyladenine was more active than kinetin in suppressing the growth of intact green plants. The data show that kinetin can markedly alter the behavior of intact plants when absorbed by the roots from culture solutions in which the concentrations are comparable to those which are biologically active on explants.     

Histological study of callus formation and root regeneration from mung bean (Vigna radiata W.)

We have established a reproducible culture system for callus formation and root development from juvenile stem segments of mung bean(Vigna radiata). In particular, we have studied the influence of plant growth regulators. Induction of calli from young stem explants was very effective on MS inorganic salts supplemented with 0.5 mg/L 2,4-D and 1.0 mg/L kinetin. In regenerating adventitious roots from callus tissues, we found that a combination of 0.75 mg/L NAA, 1.5 mg/L kinetin, and MS salts resulted in 20% efficiency. Histological examination showed that callus tissues originated from out-growths of the cambium rings through de-novo meristematic activity. Those rings were localized outside the vascular cambium. Adventitious roots that developed from root primordia originated from the center of the Callus masses. These primordia produced tracheid-like cells, which then became meristemoid cells for the cambium. Newly formed adventitious roots had the typical tetrarche actinostele type.     

Cluster root development in Grevillea robusta (Proteaceae). II. The development of the endodermis in a determinate root and in an indeterminate, lateral root

Light, fluorescence and electron microscopy were employed to follow the development of the endodermis in cluster roots and lateral roots of Grevillea robusta A. Cunn. ex R. Br. Endodermal cells had three different origins: rootlet endodermis arose from the rootlet meristem; endodermis covering the primordium shortly after initiation came from division of parental endodermis; cells at the junction between parent and rootlet endodermis developed from re-differentiated rootlet cortical cells. In the cluster root, the Casparian band formed in three ways, and was not initially present opposite the two sets of single xylem elements in the rootlet stele. A new clearing technique was developed that allowed visualization of xylem, suberized endodermis, Casparian band formation and phenolic compounds. In lateral roots, endodermal differentiation was asynchronous, but was related to position relative to protoxylem poles. However, the observed delay began before these poles had differentiated. At the tip of mature rootlets, which are determinate, the endodermis terminates in a 'dome' of cells, with the initial cell differentiating as an endodermal cell. Results are discussed in terms of determinate development in roots and the spatial and temporal contexts within which this development takes place.     

根瘤菌在大麦和水稻根上形成拟瘤的细胞结构

用3种方法使紫云英根瘤菌(Rhizobium astragali Huikui)、田菁根瘤菌(R.sesbania sp.)分别入侵大麦(hordeum vulgare L.)和水稻(Oryza sativa L.),形成拟瘤状组织。一是用一定磁场强度处理根瘤菌和植物,并接种培养。二是用含有水稻幼苗根提取物的培养基培养根瘤菌,接种水稻。三是重复别人用2,4-D外源激素处理植物,接种根瘤菌。镜检观察,用紫云英根瘤菌接种形成的大麦根拟瘤细胞结构非常精细,保持各种细胞器。有侵入线结构和根瘤菌从侵入线释放。根瘤菌被宿主细胞来源的膜包围,成为拟菌体。这些形态结构与豆科根瘤细胞相似,有共生状态特征,但拟菌体有泡状化现象。田菁根瘤菌入侵水稻根形成的拟瘤,在细胞间隙和细胞内都有细菌分布。受侵染的细胞结构粗糙,根瘤菌裸露,无胞膜包围。用2,4-D处理接种根瘤菌的拟瘤细胞结构也如此,但在维管系统内有大量密集的细菌存在。这种结构完全不同于豆科根瘤细胞结构,细菌与植物细胞的形态学相互关系是一种非共生联合作用。     

Rooting and the Metabolism of Nicotine in Tobacco Callus Cultures

The usefulness of exogenous nicotine as a factor in the induction of morphogenesis in a tobacco tissue culture medium has been demonstrated. Nicotiana rustica callus cell cultures were grown on a modified Murashige and Skoog medium with 2 mg/l indoleacetic acid (IAA) and 0.2 mg/l kinetin (MMS). Root morphogenesis was induced in roller tube callus cell cultures and solid callus cell cultures grown on MMS without kinetin supplemented with 10–100 mg/l nicotine. Optimal nicotine concentration for root induction was 50 mg/l. Other tests using varying combinations of IAA, kinetin and nicotine produced no obvious morphogenesis, although some changes in the amount of callus growth and endogenous protein concentration did correlate with nicotine concentration relative to the presence of IAA and/or kinetin. In liquid MMS medium, ¹⁴C-nicotine was primarily incorporated into the protein fraction of cultured cells while primarily incorporated into the cell wall and/or cell membrane fraction of cells cultured on MMS without kinetin in the medium. In MMS without IAA and MMS without both IAA and kinetin, there was incorporation, but to a lesser extent in both the protein and the cell wall and/or cell membrane fractions.     

KINETIN MODIFICATION OF SPORELING ONTOGENY IN MARSILEA VESTITA

Laetsch , W. M., and Winslow R. Briggs . (Stanford U., Stanford, Calif.) Kinetin modification of sporeling ontogeny in Marsilea vestita. Amer. Jour. Bot. 48(5): 369–377. Illus. 1961.—Sporelings of the fern, Marsilea vestita Hook. and Grev., were cultured aseptically with a wide concentration range of kinetin. The elongation of the primary and all succeeding roots was significantly inhibited by concentrations as low as 0.3 γ/l., and was almost completely inhibited at concentrations above 30 γ/l. Root inhibition by kinetin was a result of decreased cell division and was not influenced by the amount of available carbon in the medium. The primary leaves also were inhibited by kinetin, but only by higher concentrations. The relative numbers of organs present were altered by intermediate concentrations, with a rise in the number of roots per plant, and a corresponding decrease in the number of leaves. Sporelings maintained in these kinetin concentrations for long periods developed abnormal leaves and roots. The shoot apex lost its organization in higher concentrations and proliferated into callus. The histology of the callus is discussed. The kinetin effects were independent of light conditions. Various other growth-active compounds were studied in combinations with each other and with kinetin for their effects upon sporelings. Interactions between these compounds were not apparent, and they neither substituted for nor modified the effects of kinetin. The use of kinetin as a tool in morphogenetic study is discussed.     

Effects of indoleacetic acid, naphthalene-acetic acid, and kinetin on phosphorus fractions in hypocotyls of dwarf bean (Phaseolus vulgaris): With two Figures in the Text

Total phosphorus and orthophosphate in hypocotyls of dwarf beanwere increased by NAA and unaffected by kinetin. Acid-solublebound P, representing several different compounds, was increasedby NAA and by higher concentrations of kinetin. Ribonucleicacid phosphorus was greatly increased by NAA alone and slightlyinhibited by kinetin (1 mg./l.). The large effect of NAA isprobably associated with increased cell number. Kinetin strongly inhibited formation of roots in bean hypocotyls,apparently not by inhibiting cell division, but by influencingthe kind of cell produced.     

Nod factors and tri-iodobenzoic acid stimulate mycorrhizal colonization and affect carbohydrate partitioning in mycorrhizal roots of Lablab purpureus

Roots of Lablab purpureus (L.) Sweet were treated with tri -iodobenzoic acid (TIBA), kinetin or with nodulation factors (Nod factors) purified from Rhizobium sp. NGR234 and grown in the presence of a mycorrhizal inoculum ( Glomus mosseae (Nicol. & Gerd.) Gerdemann & Trappe. Colonization by the mycorrhizal fungus was increased from <30% to c . 65% of root length when roots were treated with these growth regulators. Moreover, treatment of mycorrhizal L. purpureus roots with Nod factors or TIBA strongly induced sporocarp formation of Glomus mosseae . In parallel, the pool size of the fungal disaccharide trehalose was significantly affected in roots treated with TIBA and Nod factors alone, and with TIBA combined with all effectors, and increased from 0·06 mg g⁻¹ d. wt in control roots to up to 1·7 mg g⁻¹ d. wt (TIBA+kinetin). Conversely, the sucrose pool decreased from 5% d. wt to less than a half in roots treated with Nod factors. Activities of trehalase were significantly enhanced in mycorrhizal roots by the treatment with Nod factors or TIBA. When Nod factors and TIBA were added in combination, these activities were strongly enhanced suggesting synergism between these growth regulators.     

Pseudonodules formation on barley roots induced by Rhizobium astragali

Abstract Symbiotic association Rhizobium astragali with barley roots was induced by a permanent magnetic field. Initially root hairs were deformed. Later, pseudonodules were formed, showing infected cells with infection threads, and bacteroids each enclosed within a peribacteroid membrane. The overall picture is similar to that of legume root nodules. No acetylene reduction activity could be detected in pseudonodules.     

Anti-inflammatory Effect of Seeds and Callus of Nigella sativa L. Extracts on Mix Glial Cells with Regard to Their Thymoquinone Content

Anti-inflammatory effect of the alcoholic extracts of N. sativa seeds and its callus on mix glial cells of rat with regard to their thymoquinone (TQ) content was investigated. Callus induction was achieved for explants of young leaf, stem, petiole, and root of N. sativa on solid Murashige and Skoog (MS) medium containing 2,4-D (1 mg/l) and kinetin (2.15 mg/l). TQ content of the alcoholic extracts was measured by HPLC. Total phenols were determined using Folin–Ciocalteu method and antioxidant power was estimated using FRAP tests. The mix glial cells, inflamed by lipopolysaccharide, were subjected to anti-inflammatory studies in the presence of various amounts of TQ and the alcoholic extracts. Viability of the cells and nitric oxide production were measured by MTT and Griess reagent, respectively. The leaf callus obtained the highest growth rate (115.4 mg/day) on MS medium containing 2,4-D (0.22 mg/l) and kinetin (2.15 mg/l). Analyses confirmed that TQ content of the callus of leaf was 12 times higher than that measured in the seeds extract. However, it decreased as the calli aged. Decrease in the TQ content of the callus was accompanied with an increase in its phenolic content and antioxidant ability. Studies on the inflamed rat mix glial cells revealed significant reduction in the nitric oxide production in the presence of 0.2 to 1.6 mg/ml of callus extract and 1.25 to 20 μl/ml of the seed extracts. However, the extent of the effects is modified assumingly due to the presence of the other existing substances in the extracts.     

Regeneration of Kosteletzkya virginica (L.) Presl. (Seashore Mallow) from callus cultures

Organogenic callus cultures of seashore mallow, Kosteletzkya virginica (L.) Presl., originated from excised mature embryos or stem sections of aseptically germinated plants initially cultured on Murashige & Skoog minimal organics medium containing 30000 mg l^-1 glucose, 2.0 mg l^-1 indoleacetic acid and 1.0 mg l^-1 kinetin. Plants were regenerated via shoots and roots from callus cultures following transfer through a series of media with different cytokinin/auxin ratios and changes in carbohydrate source. Meristematic regions, shoot and root primordia were observed during histological examination of the tissues. Somatic embryos were not found.     

On the interaction of growth retardants with IAA and kinetin

In the pea test a highly positive response to the treatment with IAA reversed to a negative one or became 5 to 6 times weaker when CCC was applied together with IAA. In cultivating pea seedlings, following their decapitation, for two days in a 0.25 per cent CCC solution and then in water, growth of their cotyledonous axillaries (cotylaries) were inhibited. This inhibitive action of CCC could be made ineffective when the seedlings, following two-days’ cultivation in the CCC solution, were grown further in kinetin solutions (0.37–3 mg per 1). Cotylaries of decapitated pea seedlings, when grown in kinetin solutions were inhibited. With kinetin solutions of 6–12 mg/l a strong inhibition also occured in the growth of roots at the apical parts of which spherical swellings were developing. The CCC supplied to the roots of intact etiolated pea seedlings is translocated acropetally into the stem at a rate of about 5 cm per hour. Decapitation of the plant causes retardation of this transport, yet a coat of 0.00001–1% IAA or kinetin paste produces acceleration of the stream. Existence of an antagonism between CCC and IAA, demonstrated earlier, was found holding true also for B-9 (N, N-dimethyl-aminesuccinamic acid) and IAA, as the inhibitive action of B-9, 0.06% solution on the growth of lettuce hypocotyls was reduced to a highly significant degree when the plants were supplied with B-9 together with IAA at a concentration of 10 mg/l.     

DEVELOPMENTAL POTENTIAL OF EXCISED PRIMORDIAL AND EXPANDING LEAVES OF COLEUS BLUMEI BENTH.

Coleus blumei Benth. primordial leaves 1 through 4 and expanding leaves 5 to 8 were isolated and cultured to examine the effects of auxin and kinetin on development. Without the plant growth regulators in the medium, expanding leaves 7 and 8 developed as leaves; younger leaf primordia did not develop. With 0.01 to 5.0 mg/1 IAA, 2–7% of the youngest pair of primordial leaves (1 and 2) developed as roots. Small leaf blade development occurred on IAA at 0.5 to 5.0 mg/1 with 10–12% of the explants, and shoots developed from 2% of the youngest primordia explants at 3 mg/1 IAA. With 2–28% of the second set of primordial leaves (3 and 4), a leaf with a root developed with 0.01 to 5.0 mg/1 IAA. At 3.0 mg/1 IAA, in addition to leaf formation, 2% of the explants formed a rosette of leaves and 1% formed a shoot. With the highest level of IAA (5 mg/1), 2% of the explants formed a root. Expanding leaves 5 through 8 developed mostly into leaves without petioles on IAA and kinetin. Plant development occurred from 2% of the youngest primordial leaves on 0.03 mg/1 kinetin; otherwise, these primordia on 0.003 to 2 mg/1 kinetin developed into abnormal leaves. Primordia 3 and 4 developed into normal appearing leaves at levels of kinetin between 0.03 and 2 mg/1. At lower levels the leaves were abnormal.     

The effect of Benlate and cytokinins on the content of tobacco mosaic virus in tomato leaf disks and cucumber mosaic virus in cucumber cotyledon disks and seedlings

Tomato leaf disks were inoculated with tobacco mosaic virus (TMV) and floated for 7 days on solutions of kinetin and benzyladenine in the range 20-0-002 mg/1. Virus content was reduced at the higher and increased at the lower concentrations. Benlate and benomyl showed a peak of cytokinin activity in the Amaranthus betacyanin bioassay equivalent to c. 0–002 fig/l kinetin. At concentrations above 25 and 100 mg a.i./l for Benlate and benomyl respectively, both compounds increased the TMV content of tomato leaf disks. Cucumber mosaic virus (CMV) content in cucumber cotyledon disks was increased by Benlate and benomyl treatment (50–100 mg/1). Applied as a soil drench (50–500 mg a.i./l) when the plants were inoculated, Benlate increased the CMV content of infected seedlings. The number of starch-iodide lesions (a measure of susceptibility) was unaltered in cotyledons treated with Benlate 7 days before or immediately after inoculation. Infectivity of crude infective cucumber sap was unaffected by benomyl incorporation, whereas Benlate reduced infectivity at higher concentrations (1000–5000 mg/1). Under the experimental conditions described, Benlate, benomyl, benzyladenine and kinetin had no effect on the chlorophyll content of tomato leaf disks, and intact seedlings.     

Regeneration of whole plants from hypocotyl-, root-, and leaf-derived tissue cultures of the pasture legume Stylosanthes guyanensis

Callus cultures were established on Murashige and Skoog medium from seedling hypocotyls and roots of Slylosanlhes guyanensis (Aubl.) Sw. cv. Cook and from leaves of 6-month-old) plants. Shoots developed in primary calli derived from seedling tissue with a number of benzyladenine or kinetin and naphthaleneacetic acid combinations. Shoot formation on primary leaf callus, occurred with 2.0 mg/1 benzyladenine and 2.0 or 1.0 mg/l naphthaieneacetic acid. Undifferentiated callus from all three sources was induced and maintained on medium with 2.0 mg/1 kinetin and 2.0 mg/1 2, 4-dichlorophenoxyacede acid in the dark. Shoot formation and regeneration of whole plants from these calli were achieved at high frequencies. The most successful combination of phytohormones for the induction of shoot development in undifferentiated callus, was 2.0 mg/1 benzyladenine and 1.0 mg/1 naphthaleneacetic acid. The regenerated plants showed no phenotypic abnormalities.     

Kennzeichnung der Bildung und Alterung von Wurzeln in Callus-und Organ-Kulturen von Daucus carota durch die Aktivität der Glutamatdehydrogenase

Summary In callus tissues of Daucus carota rhizogenesis was influenced by addition to the cultures of solutions with different kinetin concentrations (0–0.1–0.5–2 mg/l) and a constant auxin content (1 mg/l). In these cultures the specific activity of glutamate-dehydrogenase (E.C. 1.4.1.2.), aspartate-aminotransferase (E.C. 2.6.1.1.), isocitrate-dehydrogenase (E.C. 1.1.1.42) and of acid phosphatase (E.C. 3.1.3.2.) was determined. Before root initiation can be seen morphologically in tissues grown on low kinetin concentrations, the specific activity of glutamate-dehydrogenase increases to more than three times the level found in cultures with no subsequent root initiation, whereas the specific activity of the other three enzymes changes far less. Total soluble protein measured as percentage of fresh weight remains nearly the same in all callus cultures. The activity of the same enzymes was measured in liquid grown roots of Daucus carota during a period of ageing of 130 days. During this time, the specific activity of glutamate-dehydrogenase is reduced to 1/10 of the value found in growing roots, whereas the activity of the other three enzymes is reduced only to 1/2 or to 1/3 of this value. Therefore, the state of senescence and the capacity for further growth can be characterized by the specific activity of the glutamate-dehydrogenase in the roots. The changes in the specific activity of glutamate-dehydrogenase in callus tissue and in the roots do not depend on inhibitory substances in the cell-free extracts.     

PRIMORDIAL LEAF AND PHYTOHORMONE EFFECTS ON EXCISED SHOOT APICAL MERISTEMS OF COLEUS BLUMEI BENTH.

Coleus blumei Benth. apical meristems and apical meristems +1, +2, +3 primordial leaf pairs were cultured to examine phytohormone influences on development and correlative effects of developing primordial leaves on in vitro responses. The meristem with no phytohormones or low levels of IAA could not develop in vitro. At least 0.1 mg/l IAA and optimumly 1-2 mg/l IAA were required for development into complete plants. IAA from 0.1 to 3 mg/l also resulted in root development with no apparent leaf or shoot formation. Levels of IAA higher than 3 mg/l were inhibitory to development. Kinetin, as a substitute for naturally occurring cytokinins, alone (0.0003 to 3 mg/l) resulted in development of rosettes of leaves. In the presence of IAA (***1 mg/l) and kinetin (0.003 mg/l) plants, rosettes, individual leaves with roots, and roots developed from isolated meristems. Glutamine and adenine sulfate both appeared inhibitory to meristem development. With +1, +2, +3 developing primordial leaf pairs left attached to the apical dome, three pairs were required for plant formation in the absence of phytohormones. In the presence of IAA, two pairs of primordial leaves resulted in plant formation; whereas, with IAA and low levels of kinetin one pair of primordial leaves was enough. Higher levels of kinetin were inhibitory to plant development with primordial leaves present. ABA appeared to be inhibitory to development of meristems and meristems +1, +3 primordial leaves at low concentrations and resulted in death at ***1 mg/l. Developing primordial leaves appear to supply the apical meristem with a balance of phytohormones during growth. Meristem development into a plant first involved formation of leaf primordia. Establishment of a bipolar axis with root formation followed.     

In vitro infection of host roots by differentiated calli of the parasitic plant Orobanche

Root parasites of the genus Orobanche are serious weeds in agriculture. An aseptic infection system of host roots using calli of three Orobanche species was developed for the study of host-parasite interaction. The response of calli to various hormonal combinations was studied, because a requirement for infection is the differentiation of root-like protrusions, which are capable of producing haustorial connections to the host. Infectious root-like protrusions develop under the influence of 0.5-1.0 mg l(-1) IAA, and under the combination of 0.2 mg l(-1) NAA with 5.0 mg l(-1) kinetin. These protocols produced root protrusions with pad-like structures that resembled attachment organs of Orobanche seedlings, and proved effective in parasitizing host roots. Direct contact with the medium inhibited haustorium development and prevented infection. To overcome this problem, certain root portions were isolated from the medium by inserting thin glass plates underneath. Calli were then placed on the raised root portions and successfully infected the roots and developed young Orobanche tubercles with vascular system that directly connected to the host.     

Fractionation of proteins of pea stem sections during root formation and its inhibition by kinetin and ethionine

Changes in the protein constituents in pea stem sections during root formation and its inhibition by kinetin and ethionine were studied. Only quantitative differences in the protein fractions separated on DEAE-cellulose column were noted. The formation of foci of meristematic cells in pericycle was accompanied by an increase in the amount of fraction “l”. This fraction disappeared rapidly in sections where root formation either did not occur (internodial sections without nodes) or was inhibited by ethionine (stem sections with basal and apical nodes). Incubation of stem sections in a kinetin solution for 16 hours after cutting of stems partially preserved fraction “l”. The increase in the amount of fraction “l” was one of the first metabolic changes in root-forming pea stem sections after cutting of stems.