Hormonal Control of Morphogenesis in Leaf Explants of Perilla frutescens Britton var. crispa Decaisne f. viridi-crispa Makino

Leaf discs of Perilla frutescens var. crispa f. viridi-crispawere cultured on a defined medium to investigate factors influencingbud and root formation, callus induction, somatic embryogenesis,and floral bud formation. Addition of naphthalene-acetic acid(NAA) to the culture medium caused compact callus whereas 2,4-dichlorophenoxyacetic acid (2,4-D) promoted soft and friable callus formationon the surface of the explants. Benzyladenine, when appliedwith auxin, suppressed callus and root formation. Somatic embryogenesisoccurred, when the explants were first grown on nutrient mediumcontaining 2,4-D and organic elements, and then transferredto the 2,4-D free medium. Treatments with cytokinins, N-phenyl-N'-(4-pyridyl)urea and its derivatives induced bud formation. A low concentrationof NAA and naphthoxy-acetic acid promoted bud development. Occasionalfloral bud formation was observed depending on the originalleaf positions on mother plants from which the leaf discs wereexcised. A gradient of floral bud forming capacity along thestem was noted. Perilla frutescens, tissue culture, embryogenesis, morphogenesis, benzyl adenine, kinetin, naphthalene-acetic acid, naphthoxy-acetic acid, 2,4-dichlorophenoxy acetic acid, indol-3yl-acetic acid, cytokinins, auxins     

Physiological activity of a viridicatin derivative, 3-(4-phenylcarbostyriloxy) acetic acid

A carboxymethylene derivative (V-OCH₂COOH) of viridicatin (V-OH)promoted the root growth of rice and sesame seedlings. V-OCH₂COOHhad no known hormonal activities, per se, but did have an inhibitoryeffect on IAA and 2,4-D-induced growth of Avena coleoptile sectionsand of carrot root callus. However, inhibition by VOCH2COOHof 2,4-D-induced growth in carrot root callus was to some extentreversed by increasing the concentration of 2,4-D. V-OCH₂C0OHseemed to competitively inhibit IAA-induced elongation of Avenacoleoptile sections. (Received September 14, 1970; )     

Biosynthesis of furano-terpenes by sweet potato cell culture

Callus was induced from sweet potato root tissue on an agarmedium containing Heller's minerals, vitamins, 2,4-D, yeastextract and sucrose. Furano-terpenes were scarcely detectedin the callus. However, when the callus was transferred to aliquid culture medium and incubated with reciprocal shaking,furano-terpenes were rapidly produced mainly in the culturemedium. Furano-terpene production by the cell culture was suppressedby addition of Ceratocystis fimbriata spores or HgCl₂ to theculture medium. Yeast extract and sucrose in the culture mediumwere important for furano-terpene production. 3-Hydroxy-3-methylglutarylcoenzyme A (HMG-CoA) reductase activity increased in the cells,followed by the production of furano-terpenes. The TLC patternof furano-terpenes produced by the cell culture was essentiallythe same as that produced by sweet potato root tissue infectedby C. fimbriata or treated with HgCl₂, but the quantitativeproportion of the individual furano-terpenes in the former differedmarkedly from that in the latter. (Received January 11, 1979; )     

Evidence for the involvement of glycanase activities in the dissociation of cortical cell walls during the emergence of callus from rice root tissues in the presence of 2,4-D

Summary Nojirimycin bisulfite andp-nitrophenyl-1-thio-ß-D-glucoside, potent inhibitors of ß-glucanase, suppressed cortical dissociation and callus growth in rice roots (Oryza sativa L. cv. Sasanishiki) in the presence of 2,4-D, with resultant suppression of the emergence of callus clumps from the interior of root tissues. These sugar analogs inhibited the 2,4-D-induced increase in the elastic and plastic compliance of cell walls but did not affect oxygen uptake by root explants in the presence of 2,4-D. They also inhibited the activities of CM-cellulase, ß-glucosidase and -arabinosidase in 2 M NaCl-soluble and/or buffer-soluble fractions of crude root extracts. Involvement of glycan hydrolase activities in cell wall dissociation during callus emergence is discussed.Abbreviations BS buffer-soluble - CM carboxymethyl - DTT dithiothreitol - NS 2 M NaCl-soluble - PNP p -nitrophenyl - PNPT-glucoside p -nitrophenyl-1-thio-ß-D-glucoside     

Reciprocal Antagonism between the Herbicides, Diclofop-Methyl and 2,4-D, in Corn and Soybean Tissue Culture

The antagonistic interaction between the grass herbicide, diclofopmethyl (methyl 2-[4(2′,4′-dichlorophenoxy)phenoxy]propanoate) (DM), and 2,4-dichlorophenoxyacetic acid (2,4-D), was demonstrated in DM-resistant soybean (Glycine max [L.] Merr.) and DM-susceptible corn (Zea mays L.). 2,4-D caused root shortening and thickening, and induced callus growth in soybean and corn root tissue cultures at 1 and 10 micromolar. Normal soybean root growth was unaffected by 10 micromolar DM whereas corn root growth was inhibited completely by 1 to 10 micromolar DM. DM at 10 micromolar reversed completely the induction of callus growth by 1 micromolar 2,4-D in soybean roots. In corn, 10 micromolar 2,4-D reversed the growth inhibiting activity of 1 micromolar DM and induced callus growth. The antagonistic interaction between DM and 2,4-D was reciprocal and the activity of either compound depended upon the relative concentration of the other. 2,4-D did not antagonize or decrease the activity of DM by decreasing its uptake by root tissues or increasing the rate of its detoxication. The antagonistic interaction between DM and 2,4-D probably involves involves cellular activity associated with actively growing and proliferating cells and requires the presence of both compounds at the sensitive site.     

The role of auxins in differentiation of rice tissues culturein Vitro

Effects of various auxins on callus induction (dedifferentiation) and organ redifferentiation from the callus were studied by using various tissues of rice,Oryza sativa L. cv. Kyoto Asahi. 2,4-D, NAA and IAA were used as auxins for the test of their ability to induce callus. All of these were active. This callus induction by auxin was successful in all tissues used; seed, root, shoot nodule, anther and ovary. In all of the calluses induced by various auxins such as 2,4-D, NAA and IAA and derived from various tissues such as seed, root, shoot nodule, anther and ovary, organ redifferentiation, i.e., formation of shoots and roots was achieved by removing the auxins from the medium used for the callus calture. Cytokinins were not necessary for the organ redifferentiation in these calluses. These results suggest that auxin is the only exogenous factor that determines dedifferentiation and redifferentiation in rice plant tissues culturedin vitro.     

Control of Morphogenesis in Sorghum by 2,4-Dichlorophenoxyacetic Acid and Cytokinins

2, 4-Dichlorophenoxyacetic acid caused a shortening of rootsand shoots when mature seeds of Sorghum bicolor (L.) Moenchcv. BT3197 were germinated on Murashige and Skoog (MS) mediumthat contained 2,4-D. Shoot growth was restored with cytokinins.A callus formed at the nodal region, the further differentiationof which was determined by the ratio of 2,4-D and cytokininsin the initial culture medium. A high auxin to cytokinin ratiopromoted primarily root differentiation while a high cytokininto auxin ratio promoted multiple bud development. Isolated shootapical meristem with the subtending node produced embryogeniccallus at low cytokinin levels and green buds on high cytokininlevels when cultured in the presence of 2,4-D. It is concludedthat cells potentially capable of differentiation into roots,somatic embryos or axillary buds are present in the first nodalregion. Sorghum bicolor, organogenesis, embryogenesis, 2, 4-D: cytokinin ratios, tissue culture     

Generation of Seakale (Crambe maritima L.) Plantlets by Tissue Culture

When placed in shaken liquid culture in MS medium, callus derivedfrom petioles of seakale (Crambe maritima L.) failed to fragmentto produce a cell suspension culture. In the absence of 2,4-D,growth was very good, and hollow, dark green, trumpet-shapedbodies were produced, but in the presence of 2,4-D, solid, palergreen pear-shaped bodies were formed. When grown on filter paperbridges with White's medium, a small proportion of both typesof bodies underwent slow, partly-controlled development culminating,after several months, in the formation of plantlets. Seakale, Crambe maritima L., in vitro propagation, callus culture     

Study on Tissue and Protoplast Culture of Wild Cotton (Gossypium davidsonii)

This paper deals with the study on the condition of callus formation, embryogenesis, organogenesis, plant regeneration and protoplast culture of wild cotton (G. davidsonii) Callus cultures derived from several organs such as root, stem, leaf, cotyledon and hypocotyl. The results obtained in these cultures showed that the modified MS medium containing 2,4-D 1.0+KT 0.1; 2,4-D 0.1+KT 0.01; NAA (IAA) 2.0+KT 0.1 and NAA (IAA) 1.0+KT 0.1 mg/L were favorable to callus formation. Modified MS medium containing 2,4-D was suitable for initiated callus of G. davidsonii Besides, suspension cultures from callus of G. davidsonii were saccessfully initiated. Optimum concentration of 6BA (or ZT, or 2ip) and NAA (IAA) was for shooting, somatic embryo or leaf formation. Plantlets regenerated from somatic embryo at lower concentration of 6BA, or ZT, or 2ip. As to protoplast culture of this species, the age and physiological condition of callus or suspension cells and concentration of enzymes used for protoplast isolation affected the yield and survival of protoplasts. Protoplast of this species cultured in modified MS medium containing 2,4-D 0.5+NAA 0.5+ZT 0.1–0.2 mg/L. and divied after 3–4 days. The rate of division was 3--4% and cell cluster formed after 14 days, then these cells died.     

Metabolism of 2,4-dichlorophenoxyacetic Acid in soybean root callus and differentiated soybean root cultures as a function of concentration and tissue age

The metabolism of [1-¹⁴C]2,4-dichlorophenoxyacetic acid (2,4-D) in soybean (Glycine max [L.] Merrill var. Amsoy) root callus and in differentiated soybean root cultures was investigated as a function of pesticide concentration and age of tissue. The chronological age of the tissue was found to be correlated with the mitotic index which reached a peak at 2 weeks and then declined. The metabolism of 2,4-D changed with age of the root callus tissue. The amount of free 2,4-D found in 3-week-old root callus tissue rapidly increased as the concentration of 2,4-D in the medium was increased from 10⁻⁶ to 10⁻⁵ molar, whereas the low level of aqueous (glycosides) and ether soluble metabolites (2,4-D amino acid conjugates) increased slowly. With 9-week-old root callus tissue, the amount of free 2,4-D remained at a relatively low, constant level (saturation level) as the concentration of 2,4-D in the medium increased. Under these conditions the aqueous metabolites increased only slightly but the ether fraction (2,4-D amino acid conjugates) rapidly increased. Thus, the older root callus tissue appeared to regulate the level of free 2,4-D at about 4 nanomoles per gram by converting any excess 2,4-D into amino acid conjugates.

In 3-week-old, differentiated root cultures the metabolism of 2,4-D closely paralleled the metabolism found in the older 9-week-old callus tissue. The saturation level of free 2,4-D found in this tissue was only about 1 to 2 nanomoles per gram.

     

Production of 8-epi-tomentosin by plant cell culture ofXanthium strumarium

This study was conducted to establish a plant cell culture system for the production of medically important secondary metabolites fromXanthium strumarium. The effects of plant growth regulators including NAA, 2,4-D, kinetin, and ABA were examined in terms of callus induction, maintenance of callus and suspension cultures. It was shown that callus was induced upon treatment with NAA while embryo was induced after treatment with 2,4-D. Callus formation was further improved by treatment with ABA and NAA. The level of callusing increased by 17–29% for the seed case, cotyledon, leaf, and hypocotyl and by 96% in the case of the root. Suspension cell lines were established using calli produced from cotyledon, hypocotyl and root and cultured at 25°C under light conditions. The cells grew up to 15 g/L with NAA 2 ppm, BA 2 ppm, and ABA 1 ppm treatment. Supernatants of suspension cultures of cell lines derived from coyledon and hypocotyl produced some distinctive secondary metabolites, one of which was identified as 8-epi-tomentosin, which belongs to the xanthanolides. The amounts of 8-epi-tomentosin produced by the cotyledon-and hypocotylderived cell lines were 13.4 mg/L and 11.0 mg/L, respectively.     

Formation of wheat (<Emphasis Type="Italic">Triticum aestivum</Emphasis> L.) embryogenic callus involves peroxide-generating germin-like oxalate oxidase

In wheat ( Triticum aestivum L.), embryogenic callus formation comprises suppression of precocious germination by the zygotic embryo and the initiation of dedifferentiated cellular proliferation within it. Embryogenic calli are induced by treating immature embryos with 2,4-dichlorophenoxyacetic acid (2,4-D). Upon withdrawal from 2,4-D, somatic embryos develop from the periphery of the callus. Prior to visible callus formation, there is a striking induction of "germin-like" oxalate oxidase ("gl-OXO": EC 1.2.3.4) gene expression. Accumulation of gl-OXO mRNA is rapidly stimulated upon auxin treatment, with a consequent development of apoplastic enzyme activity producing H(2)O(2) within the cell wall. Within the dedifferentiated calli, gl-OXO enzyme activity becomes widespread over the surface of embryogenic calli. Differentiation of somatic embryos is initiated in regions of densely cytoplasmic, meristematic cells that are marked by highly localised expression of gl-OXO activity within these embryogenic cell masses. We suggest that this localised generation of H(2)O(2) by gl-OXO promotes peroxidative cross-linking of cell wall components, thereby preventing cellular expansion and maintaining these cell masses in an embryogenically competent condition.     

<Emphasis Type="Italic">In vitro</Emphasis> rooting of microshoots of <Emphasis Type="Italic">Cotinus coggygria</Emphasis> Mill,a woody ornamental plant

Studies on rooting of microshoots of smokebush (Cotinus coggygria Mill, var. Royal Purple), a woody ornamental, were carried out in vitro. Microshoots were rooted in a mixed-auxin regime (indole 3-acetic acid, indole butyric acid [IBA], and naphthalene acetic acid) or singly in the above auxins and the 2,4 dichlorophenoxyacetic acid (2,4-D) over a wide concentration range. Indole butyric acid at 10 μM proved to be the most suitable treatment, producing less basal callus, 100% rooting, and earlier root emergence than the other treatments. No roots were formed with 2,4-D. A 6-day root induction period was obtained with 10 μM of IBA. Histological studies revealed increased mitotic activity after 3 d in culture in the medullary ray cells, which led to root primordium formation, several of which were formed simultaneously around the base of the explant. The vascular tissues of these primordia connected to those of the explant, and roots began to emerge from the base by day 10. Thus, direct rhizogenesis occurred with the IBA treatment, as opposed to the roots that were formed in the basal callus under the mixed-auxin regime.     

Chemical Regulation of Callus Growth, Organogenesis, Plant Regeneration, and Somatic Embryogenesis in Antirrhinum majus Tissue and Cell Cultures

Excised stem explants of Antirrhinum majus L. var. ‘Kymosyblanc’ were grown in a denned medium to investigate factorsinfluencing bud and root development, callus induction, andsomatic embryogenesis. Auxins such as indoleacetic acid (IAA)and naphthaleneacetie acid (NAA) caused limited callus developmentand abundant root formation, whereas 2,4-dichlorophenoxyaceticacid (2,4-D) promoted soft friable callus with embryos and occasionaldevelopment of thick abnormal roots. 2-Naphthoxyacetic acid(NOA) and coconut milk (CM) used together induced friable greencallus growth and differentiation of small globular embryoswhich eventually developed into plantlets after transfer toauxin-free agar mineral medium containing sucrose. Cytokininssuch as benzyladenine (BA), zeatin, and kinetin induced compactgreen callus but in the absence of auxin failed to promote organogenesis.The interaction of IAA and kinetin resulted in the regenerationof the whole plant from stem explants. When NAA was used withkinetin, shoot development was totally inhibited and abundantroots were formed. Thus, the alternative morphogenetic eventsprobably reflect the biochemical subtleties occurring withinthe callus as a result of differences of actual endogenous levelsof growth substances in the tissues studied. These experimentshave been performed and interpreted on a histological basis.     

Studies on Cell Suspension Culture and Plant Regeneration in Rice

The present paper reports the establishment of rice cell suspension culture system, including callus induction and proliferation, isolation of single cells and small aggregates, cell suspension culture and callus re-formation, as well as regeneration of plantlets. The results have been obtained as follows: 1. The compositions of the different media used for callus induction, callus proliferation, cell suspension and plant regeneration are summarized in Table 1.2. Two kinds of disifectants, mercuric chloride and sodium hypochlorite, were used for surface sterilization of brown rice. The percentage of callus formation and callus yields were much higher when sodium hypochlorite was used (Fig. 3). We suggest that the disinfactant is one of the important factors that affect callus formed at the initial stage has an influence upon subsequent isolation of cells and suspension culture and even plant regeneration. 3. Table 3 shows that addition of yeast extract to the medium improves callus yield greatly and the efficiency of callus formation to a lesser extent. 4. Both medium Ⅱ (modified B5 medium) and N6 medium were suitable for cell suspension culture, but medium II was more effective for cell growth and callus re-formation (Fig. 4 and Table 4). 5. Effect of 2, 4-D on cell growth was tested at the concentration range among 0, 10-6, 10-5, 10-4 to 10-3 M. The results indicated that 10-5 M of 2,4-D was most effective for induction of rice callus. It has also been found that absence of 2,4-D increased callus re-formation in suspension culture, but no plant regeneration was observed. 6. By using 7% sucrose in differentiation medium, for all the three varieties, the plant regeneration frequency was raised up to 3 or 4 times than those of the 3% ones (Table 6). Occurrence of albino plants is often reported as one of the problems in rice anther culture. It is, however, no problem in seed-derived rice cell culture.     

Analogues of Phenoxyacetic Acid and the Generation of Calluses from Seeds of Indica Rice

In a search for callus-inducing compounds for indica rice thatare superior in this regard to 2,4-dichlorophenoxyacetic acid(2,4-D), we tested 13 derivatives of phenoxyacetic acids, namely,mono- and di- chloro-, mononitro- and 4-halogeno-substitutedphenoxyacetic acids for their ability to stimulate the inductionof calluses from mature seeds of rice (Oryza sativa L. cv. Chiemchanh). Five analogues of benzoic acid were also tested. Thecallus-forming ability and the optimal concentration for inductionof calluses were differed from compound to compound. The optimal concentration for callus induction of 4-fluorophenoxyaceticacid (4FPA) was relatively high (250 µM), but its callus-formingactivity was stronger than that of 2,4-D, even when comparedwith 2,4-D at its optimal concentration (50 µM). 4FPA-inducedcalluses retained their regenerative ability for at least 15months with 9 subcultures, while calluses induced by 2,4-D losttheir regenerative ability after 3 subcultures. 4FPA-induced calluses showed higher regenerative ability thandid calluses induced by 2,4-D, in almost all of 20 varietiesof indica tested, including three indica-japonica hybrids. ³Present address: Kibun Co.Ltd., Ginza, Tokyo, 104 Japan ⁴Present address: Hyogo Agricultural Research Institute, Kasai,Hyogo, 679-01 Japan (Received October 25, 1989; Accepted May 17, 1990)     

High Frequency of Plant Production via Somatic Embryogenesis from Callus or Cell Suspension Cultures inEleutherococcus senticosus

Hypocotyl segments ofEleutherococcus senticosuscultured on Murashigeand Skoog's (MS) medium with 4.5 µM2,4-D produced somaticembryos directly from the surface of explants without interveningcallus formation. When these somatic embryos were subculturedto the same MS medium with 4.5 µM2,4-D, friable embryogeniccalli were formed mainly from radicle tips of somatic embryos,but at a low frequency (5%). Selected embryogenic calli weremaintained on MS agar or liquid medium with 4.5 µM2,4-D.To induce somatic embryo development, embryogenic calli andcell clumps were transferred to MS medium lacking 2,4-D. Thefrequency of somatic embryo formation differed between culturetypes with 1570 embryos formed per Petri dish from callus cultureand 5514 embryos formed per flask from cell suspension cultures.Somatic embryos formed on agar medium had larger cotyledonsthan those of embryos formed in liquid medium. GA₃treatmentwas necessary to induce germination from somatic embryos. Therate of plant conversion was 97% in somatic embryos from callusculture and 76% in embryos from liquid culture. Regeneratedplantlets were successfully acclimatized in the glasshouse.Copyright1999 Annals of Botany Company Eleutherococcus senticosus, micro propagation, somatic embryogenesis.     

Effect of Auxins (2,4-Dichlorophenoxyacetic acid, Indole-3-Acetic Acid and Naphthaleneacetic Acid) on the Accumulation of {gamma}-Aminobutyric Acid in Excised Rice Root Tips

-Aminobutyric acid (GABA) accumulation occurs in cultured ricecells when ammonium is added to the medium [Kishinami and Ojima(1980) Plant Cell Physiol. 21: 581–589]. Whether thisphenomenon occurs in rice plant tissues was examined with respectto exogenously supplied auxins: 2,4-dichlorophenoxyacetic acid(2,4-D), indole-3-acetic acid (IAA) and naphthalene-acetic acid(NAA). In intact rice plants grown in medium containing ammonium withoutauxin, glutamine first increased, then asparagine graduallyincreased. In both shoots and roots, the asparagine contentbecame the highest among four amino acids after 4 days of cultureperiod. GABA did not increase at all, its level remaining lowin both shoots and roots throughout the culture period. GABA accumulation was observed in excised rice root tips whenthey were incubated in the medium containing ammonium in thepresence of 2,4-D, IAA or NAA. In the absence of auxin, however,excised rice root tips accumulated asparagine and glutamine,but not GABA. Rice root segments obtained from a region in whichroot cells had already developed to maturity did not accumulateGABA but asparagine and glutamine in the presence of both ammoniumand 2,4-D. These results suggest that GABA accumulation occurs in rapidlygrowing and dividing tissue, such as the apical meristem ofrice root in the presence of auxin during ammonium assimilation. (Received June 15, 1987; Accepted March 14, 1988)     

Somatic Embryogenesis and Regeneration of in Plantlets in Pomegranate

Plantlets were regenerated from somatic embryos originatingfrom cotyledonary tissues of pomegranate (Punica granatum) throughmultiple somatic embryogenesis. Embryogenic cell clusters proliferatedvigorously with regular sub-culturing after 20 d on RBM-II mediumcontaining 1 µM kinetin (KN), 2 µM benzylamino purine(BAP) and 5 µM 2,4-dichlorophenoxyacetic acid (2, 4-D).Developmental stages of somatic embryos were expressed on sub-culturingwith a low level of 2, 4-D (2.5 µM). Embryogenic initialscells were small, round to oval, thick-walled, contained densecytoplasm which stained with acetocarmine and were usually attachedto non-embryogenic cells. Embryo maturation was obtained onRBM-III and IV media to produce young seedlings on the initiationof the first long tap root. Punica granatum L., pomegranate, multiple somatic embryogenesis, callus culture, plant regeneration