Influence of Several Growth Regulators and Amino Acids on in vitro Organogenesis of Torenia fournieri Lind.

The effects of several growth regulators and amino acids onin vitro organogenesis of Torenia fournieri Lind. were determinedusing internodal segments. Treatment with 2,4-D¹ resulted innodular callus formation, while NAA and IAA induced roots constantlybut much less frequently shoot buds. Individually BA, zeatin,and 4-PU induced bud formation, but these shoot buds did notdevelop further. Formation of buds by cytokinin was influencedby a simultaneous application of NAA or 2,4-D, but not of IAA,its degree being reduced when BA was simultaneously appliedwith NAA or 2,4-D. When zeatin or kinetin was added with NAA,numerous roots were induced. The effects of various L-amino acids on in vitro organogenesiswere also investigated using the defined medium in which KNO₃was a principal source of nitrogen. The formation of buds wasconsiderably stimulated by alanine and asparagine, and slightlyby glutamic acid in the medium containing both NAA and BA, inwhich bud formation was easily induced. On the other hand, allamino acids except for glutamic acid and aspartic acid inhibitedroom formation in this medium. Root formation was greatly stimulated by proline, alanine, glutamine,glutamic acid, and aspartic acid, and slightly by arginine andtryptophan in the medium containing NAA but no BA. Glutamicacid and aspartic acid also enhanced bud formation in this medium.     

Growth and Organogenesis in Tissue Cultures of Allium cepa var. proliferum

Callus isolated from aerial bulbs of Allium cepa var. proliferum was grown in agar and liquid cultures on a synthetic medium containing 5 × 10^?6M 2,4-D. Root formation occurred in the absence of 2,4-D and was highly stimulated by 5 × 10^?6M NAA. Cytokinin was not necessary for growth and organ formation but slightly stimulated the formation of leafy buds. Combinations of NAA or IAA and cytokinin stimulated growth and root formation to a greater extent than anyone of these substances added alone. Pieces of callus in liquid culture developed roots in one week in root-inducing medium, but bud or embryo formation was not observed in liquid cultures.     

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     

Induction of adventitious buds in cultured petal explants ofChelidonium majus L.

Petal explants ofChelidonium majus L. (Papaveraceae) formed noteworthy adventitious buds without any intermediate callus when cultured under appropriate conditions. Bud formation was favored by combinations of 1–2 mg/l indoleacetic acid (IAA) and/or 2,4-dichlorophenoxyacetic acid (2,4-D) and 0.1–0.5 mg/l kinetin (K). In the present study, neither bud formation nor callus formation occurred in cultures of excised leaves. A histological study revealed that adventitious bud formation occurred only in single epidermal layers of petals, while several subepidermal parenchyma layers did not join in its formation. Activation zones arising from the epidermis underwent intense cell divisions to initiate buds on the epidermal surface. These buds later turned green in color, developing into shoots which eventually grew into plantlets after root formation.     

CHEMICAL CONTROL OF MORPHOGENESIS IN MOSS PROTONEMA

1. The protonema of the moss, Funaria hygrometrica, grows continuouslyin calcium-free liquid media.
2. The growth was promoted by additionof oxalate, although themorphogenesis resulting in formationof gametophytic buds onthe protonema was suppressed by theaddition.
3. Calcium oxalate promoted the growth of protonema,while at ahigh concentration (10^–2 M) it caused the formationofclumped protonema (falsebuds).
4. Addition of plant growthhormones, such as IAA, NAA, 2,4-D andgibberellin retarded thegrowth of protonema, while 2,4-D ata low concentration stimulatedthe growth of protonema.
5. Kinetin greatly stimulated the formationof gametophytic budsin the protonema, but these buds were foundto be morphologicallyand physiologically abnormal.

(Received January 29, 1965; )     

In vitro morphogenesis from excised leaf explants of Digitalis obscura L.

The morphogenic capacity of Digitalis obscura leaf explants cultured in vitro has been studied, noting factors promoting the differentiation of roots, buds and shoots as well as those promoting callus proliferation. Complete plant regeneration was obtained only by first culturing the leaf explants in a medium with NAA and BA to induce formation of buds, and subsequently transferring them to a medium without growth regulators to achieve the further development of shoots.Abbreviations BA benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indoleacetic acid - NAA naphthaleneacetic acid     

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.     

GROWTH REGULATOR EFFECTS ON BUD INITIATION IN CALLUS CULTURES OF MEDICAGO SATIVA

Influence of growth regulators on bud initiation in callus of alfalfa (Medicago sativa L.) was studied by varying levels and combinations in the first medium of a two-medium sequence used to obtain whole plants. Callus of tetraploid clone S-4 (cv. ‘Saranac‘) was initiated from immature ovaries on a modified Blaydes' basal medium containing all combinations of six concentrations (0–36 μM) of kinetin (K), six concentrations (0–44 μM) of naphthaleneacetic acid (NAA), and seven concentrations (0–36 μM) of 2,4-dichlorophenoxyacetic acid (2,4-D). After 28 days the callus was challenged to form buds by transfer to the modified Blaydes' medium containing 2.0 g/liter yeast extract and 0.57 mM inositol. No buds were produced in the absence of 2,4-D in the first medium, and the frequency of bud formation on the second medium was directly proportional to the 2,4-D concentration in the range 2.3–54 μM in the preceding medium. Buds were produced in the absence of kinetin in the first medium, but its presence in the range 2.3–36 μM markedly increased bud formation. NAA was not required for bud formation, and the budding frequency increased only slightly with increasing NAA concentration in the first medium. Budding of callus of two other alfalfa clones was also influenced by the 2,4-D concentration in the initial medium. There were several indications that many of the buds were initiated on the first medium and completed development on the second medium. These included the differential effect on budding of combinations of 2,4-D, NAA and kinetin in the callus initiation medium, the specific media sequence required, and the presence of embryoids on the callus which after transfer to the yeast extract-inositol medium produced buds.     

ATTEMPTS TO OBTAIN BACTERIA-FREE PLANTS OF PSYCHOTRIA PUNCTATA (RUBIACEAE): GROWTH AND ROOT FORMATION IN CALLUS CULTURES

Attempts were made to obtain bacteria-free plants of Psychotria punctata from tissue cultures. Stem explants and callus derived from them were induced to form roots but failed to form buds on Linsmaier and Skoog medium and 96 chemical modifications of it, including most of those known to induce bud formation in other species. Roots formed with ample IAA (2 mg/liter or more) and a low kinetin concentration (0.25 or 0.50 mg/liter). Adenine inhibited root formation in these media, but tyrosine did not. Tyrosine did lower the percentage of calluses commencing growth. When enzyme-hydrolyzed lactalbumin (1.3 g/liter), kinetin (0.5 mg/liter) and IAA (5 mg/liter) were added to Linsmaier and Skoog medium modified by decreasing inorganic nitrogen and increasing inorganic phosphate, callus grew at the fastest rate observed (increasing threefold in fresh weight in three weeks) and formed numerous roots. This was adopted as the stock callus medium. Casein hydrolysates also stimulated growth but less so than lactalbumin hydrolysate. When lactalbumin hydrolysate or a casein hydrolysate lacking tryptophan was supplied, growth occurred without added auxin if sufficient cytokinin was added. Cytokinin was required at unusually high concentration and was tolerated at still higher concentration. Formation, elongation, and branching of roots persisted on a saturated solution of BA which inhibited callus growth about 70 % and delayed callus senescence. Light caused earlier callus senescence after growth had ceased but did not affect callus growth or root formation. Light-induced senescence was prevented by a high cytokinin concentration.     

Studies on the morphogenetic response of maize tissue cultures of different origin

The participation of the genotype and of organ specifity effect in the quality of morphogenetic response (callogenesis, bud and root formation) of primary maize explants has been investigated. The presence of synthetic auxins — especially 2,4-D at 1 to 5 mg 1^?1 conc. - in cultivation medium was essential for both callus formation and continuous growth of tissue and suspension cultures. Anatomic structure of callus cultures is permanently heterogeneous, their growth is ensured by the action of meristems of the type found in root tips, and by repeated callogenesis from malformed roots. Adventive buds and plants could be regenerated only from cultures of embryonal origin (of one line). The presence or absence of the endosperm gene “opaque” did not influence callogenesis intensity in cultures of isolated embryos; however the morphogenetic response was clearly “line specific”.     

Effects of N-1-naphthylphthalamic acid on the growth and bud formation of tobacco callus grown in vitro

The effect of N-1 -naphthylphthalamic acid (NPA), indole-3-aceticacid (IAA) and kinetin on callus growth and bud formation wasstudied mainly by a tobacco callus culture method. Callus producedfrom Nicotiana tabacum var. Wisconsin 38 was used as the testplant material. Callus growth on nutrient agar containing 2mg/liter of IAA was promoted by NPA added at a concentrationof 0.5 mg/liter with 0.4 mg/liter of kinetin or by NPA addedat 5 mg/liter in the absence of kinetin. At a high concentrationof 50 mg/liter, however, NPA inhibited growth on the mediumcontaining 2 mg/liter IAA and no kinetin. Kinetin reduced thisNPA inhibition. In the presence of 0.4 mg/liter kinetin and2 mg/liter IAA, when the concentration of NPA was 50 mg/liter,buds were initiated after calluses were grown on the test mediumfor 7 weeks in dim light, but no buds formed when NPA was omittedfrom the above medium. The control of callus growth and bud initiation is based onthe active ratio of auxin (IAA) to cytokinin (kinetin) in themedium and NPA added to the medium can promote or inhibit callusgrowth and induce bud formation. Therefore, it is proposed thatNPA can itself reduce auxin activity or enhance cytokinin activityand hence change the active ratio of the two regulators. NPAmay enhance the activity of cytokinin (here supplied as kinetin)but cannot substitute for it. ¹Present address: Department of Biology, Wisconsin State University,Oshkosh, Wisconsin 54901, U. S. A. (Received March 10, 1969; )     

Somatic embryogenesis and bud formation from immature embryos of buckwheat (Fagopyrum esculentum Moench.)

Immature embryos of Fagopyrum esculentum cv. Pennquad were isolated from field-grown plants and cultured on media containing a high benzylaminopurine to indole-3-acetic acid ratio. Part of the embryos were grown in the presence of 2,4-dichlorophenoxyacetic acid and kinetin for the first 5 days, and then transferred to benzylaminopurine + indole-3-acetic acid medium. From callus tissues developed on hypocotyls and cotyledons, 3 types of tissue were selected in later subcultures: (a) callus tissue strains that produced buds, (b) embryogenic tissue, and (c) unorganized callus tissue, lacking any organogenic capacity. Pretreatment with 2,4-dichlorophenoxyacetic acid increased the number of explants which gave rise to bud forming and embryogenic tissue, but was not essential for morphogenesis. Somatic embryogenesis was confirmed by histological observation. Plantlets could be easily obtained by inducing adventitious roots on shoots, but spontaneous root development in somatic embryos was infrequent.Abbreviations BAP benzylaminopurine - IAA indole-3-acetic acid - 2,4-D dichlorophenoxyacetic acid - IBA indole-3-butyric acid     

Morphogenesis in Long-term Maintained Immature Embryo-derived Callus of Wheat (Triticum aestivum L) - Histological Evidence for Both Somatic Embryogenesis and Organogenesis

Callus induced from immature embryos of wheat cv Kharchia 65 on Murashige and Skoog’s medium containing 2.5 mg l¹ 2,4-D was maintained In the regenerable state by subculturing every 5-6 weeks on medium supplemented with 2,4-D (2.5 mg l^-1) and proline (10 mg l^-1). Addition of proline helped maintain morphogenic competence for over four years. The regenerating callus was analysed histologically about one year after first induction. Both somatic embryogenesis and shoot organogenesis were seen in the same callus tissue that contained typical stages of somatic embryoid development and evidence for the de novo shoot bud formation.     

Morphogenic potential of mechanically isolated single cells from Digitalis obscura L. callus

Calli from hypocotyl and root explants of Digitalis obscura L. showed regeneration of adventitious shoots, roots and embryos when transferred to Murashige & Skoog medium supplemented with cytokinins alone or in combination with auxins. Optimum shoot-bud formation was achieved in the presence of IAA and BA, while roots mainly appeared either in absence of growth regulators or with IAA and Kn. Embryo formation took place only in those combinations that included Kn. Embryo development was influenced by the type of auxin, and precocious germination occurred in media with NAA. Mechanically isolated cells from hypocotyl- and root-derived calli were plated in MS medium supplemented with several IAA and BA combinations. Single cells were able to proliferate forming callus within 20–30 days in culture. In order to induce organogenesis, calli were transferred to various regeneration media. Shoot-bud differentiation efficiency depended on both callus origin and medium initially used for cell culture, best results being obtained in calli grown from hypocotyl-derived cells cultured in the presence of casein hydrolysate. A further subculture to medium containing coconut milk and lower concentrations of NH₄NO₃ and sucrose promoted shoot development. Rooting was readily achieved upon transferring shoots onto half-strength MS medium. Plantlets were ultimately established in soil.Abbreviations BA benzyladenine - BM basal medium - CH casein hydrolysate - CM coconut milk - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indoleacetic acid - Kn kinetin - MS Murashige & Skoog - NAA naphthaleneacetic acid     

In vitro regeneration from excised leaves of Flaveria trinervia (Sprengel) C. Mohr

Flaveria trinervia (Compositae) leaves are used for the treatment of jaundice and fever. From the leaf callus cultures regeneration of plantlets has been achieved. The results showed that BAP greatly stimulated the bud formation in concentrations ranging from 2–5 mg l^–1 than at very low concentrations (0.2–1.0 mg l^–1). Roots developed on the regenerated shoots, over a range of treatments, but were most prolific in the medium containing 1 mg l^–1 IAA. Histological observations revealed that cultured spongy cells of the mesophyll were greatly enlarged and underwent repeated cell divisions leading to the formation of hard nodular callus from which shoot buds differentiated. The shoots obtained were readily rooted and transplanted into glass houses. Cytological studies of the callus showed abnormalities such as bridges, endomitosis and multinucleolate conditions. Root tip squashes of the regenerated plants showed no variations and were diploid in chromosome number.Abbreviations 2,4-D 2,4-dichlorophenoxy acetic acid - NAA napthalene acetic acid - IAA indole acetic acid - BAP 6-benzyl aminopurine - Kn kinetin     

Morphogenetic Effects of Indole-3-acetic Acid and Benz(a)anthracene on Tobacco Callus

Callus obtained from haploid plants of Nicotiana tabacum was inoculated on media containing indole-3-acetic acid (IAA) and benz(a)anthracene (BaA) in various combinations. No cytokinin was included in the medium. Vegetative buds and roots differentiated on this callus. Higher concentrations of BaA favored vegetative bud initiation while higher IAA concentrations promoted root formation. However, these treatments proved ineffective on the callus derived from diploid tobacco plants.     

Morphogenesis in leaf,hypocotyl and root explants of Digitalis thapsi L. cultured in vitro

The effects of the auxins 2,4-D, NAA and IAA either alone or in combination with kinetin or BA were investigated to assess the morphogenetic potential of leaf, root and hypocotyl explants of Digitalis thapsi. Calluses were obtained from the three explants in basal medium without the addition of growth regulators and in leaves, the calluses formed roots. Application of 2,4-D, NAA or BA increased callus formation. The presence of NAA induced root formation and that of BA induced shoot formation via callus interphase. Indole-3-acetic acid alone only induced the generation of roots in the hypocotyl callus. Kinetin was ineffective in all the explants tested. Combinations of NAA with kinetin or BA were more effective in inducing organogenesis in leaf explants. Optimum responses were obtained in hypocotyl and root explants by using IAA in combination with BA, the highest rate of shoot regeneration being observed in hypocotyl explants.Rooting of the differentiated shoots was readily achieved in media without growth regulators. Regenerated plantlets were transferred to soil and grew with a survival rate of 70%.Abbreviations BA benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indoleacetic acid, Kin-kinetin - NAA naphthaleneacetic acid     

Effects of Auxin and Kinetin on the Development and Differentiation of Potato Tissue Cultured in vitro

The present investigation deals with the influence of auxin and kinetin on cultures of potato tuber tissue, and the effect of the size of the explants on the organ formation. Exogenous application of auxin is indispensable for initiating callus formation of the tissue, but kinetin is not necessarily required. Kinetin serves to maintain the callus development, indicating that the stimulation of callus growth due to exogenous auxin would presumably be mediated by the addition of kinetin to the medium. A relatively low concentration of auxin in the medium is required for root formation on the culture. In this case, IAA is markedly superior to any other auxin in root forming activity. NAA is somewhat less effective than IAA, and 2,4-D shows no stimulation on root formation. The growth and organ formation of potato tissue are remarkably affected By the variation in sizes of the explants. Spontaneous formation of a sprout was observed on the large explant in the medium without auxin. Small explants form only callus or roots in the presence of auxin and kinetin irrespective of combination or concentration. It seems likely that a sufficient amount of stimulus for initiation of bud formation may be contained in the large sized explant itself.     

Transglutaminase-like activity in Chrysanthemum leaf explants cultivated in vitro in relation to cell growth and hormone treatment

In Chrysanthemum leaf explants cultivated in vitro the capacity to covalently link polyamines to protein substances exists. This plant enzyme activity shows some similarities with mammalian transglutaminases. In foliar explants cultured on a medium promoting bud or root formation increasing levels of transglutaminase-like activity occurred during the first days of culture when cell multiplication was rapid then the levels declined as the rate of cell division decreased and differentiation occurred. Undifferentiated callus exhibited low transglutaminase-like activity. Transglutaminase-like activity also increased in rapidly proliferating and growing organs (roots and buds initiated from the foliar explants) and decreased during maturity. The relationship among transglutaminases-like activity, cell division, bud and root formation is discussed.Abbreviations TGase transglutaminase - BA benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - Put putrescine - Spd spermidine     

Effect of Hormone Treatment on Growth Bud Formation and Free Amine and Hydroxycinnamoyl Putrescine Levels in Leaf Explant of Nicotiana tabacum Cultivated in Vitro

Foliar explants of Nicotiana tabacum cv Xanthi n.c. were cultured on four different media: a basal medium, basal medium plus benzyladenine, basal medium plus 2,4-dichlorophenoxyacetic acid (2,4-D), and the basal medium containing both hormones. No differentiation or cell division occurred in leaf explants cultured on the basal medium. Addition of benzyladenine caused the formation of buds on the explants, while 2,4-D caused callus formation and proliferation. Likewise, only callus was formed when explants were cultured on medium containing both hormones, but growth was significantly greater than that of callus grown on a medium containing 2,4-D alone. The levels of amines and hydroxycinnamoyl putrescines were determined in the four types of explants. In nongrowing explants, amines (except an aromatic amine, tyramine) and hydroxycinnamoyl putrescines were always at a low level and only small changes in their concentrations were observed. In callus cultures, amine (except an aromatic amine, phenethylamine) and hydroxycinnamoyl putrescine levels were higher than those found in bud cultures. In all the media, transitory accumulation of aromatic amines occurred after a few days of culture. Higher levels of hydroxycinnamoyl putrescines were attained in callus cultures with a slow growth rate (2,4-D alone) than in callus cultures with a fast growth rate (benzyladenine + 2,4-D). The formation of buds was accompanied by significant changes in putrescine and hydroxycinnamoyl putrescine levels. Increasing levels were found during the first 14 days in culture when cell multiplication was rapid, followed by a sharp decline after 20 days in culture as the rate of cell division decreased and differentiation took place. The relationship among amines, hydroxycinnamoyl putrescines, and cell division and bud formation is discussed.