Effect of high salinity on tracheary element differentiation in light-grown callus of Mesembryanthemum crystallinum

This study investigated the inhibitory effects of NaCl on tracheary element (TE) differentiation in light-grown callus of ice plant Mesembryanthemum crystallinum L., a halophyte which adaptes well to saline environments. When ice plant callus was grown in a modified Linsmaier-Bednar and Skoog culture medium containing no NaCl (control medium), up to 20% of ice plant cells differentiated into tracheary elements during in vitro culture. Close examination of callus tissues stained with potassium permanganate revealed that tracheary elements were aggregated as discrete nodules. Some strikingly elongated tracheary elements were found in the macerated tissues. Experimental results indicated that adding 200 mM NaCl to the control medium reversibly inhibited the formation of tracheary element in the halophytic cells. The rate of tracheary element formation increased accordingly as the rate of cell growth in control medium. In the presence of high salt, the degree of tracheary element differentation remained low through the growth cycle. The inhibitory effect of salt on tracheary element differentiation was overcome by adding 10 mg l⁻¹ salicylic acid, a known signaling compound that induces a diverse group of defense-related genes, including genes involved in reinforcing the host cell wall. Furthermore, microscopic examination revealed that most tracheary elements formed under this treatment (200 mM NaCl plus 10 mg l⁻¹ salicylic acid) were round shaped. The results suggest that high salt inhibits both the biosynthesis of secondary wall components and cell elongation ice plant in vitro culture. This revised version was published online in June 2006 with corrections to the Cover Date.     

Changes in phenylalanine ammonia-lyase activity during xylem differentiation in Coleus and soybean

Summary Xylem differentiation was induced in cultured Coleus internode slices when grown in the light on a simple agar/sucrose/IAA medium and in darkgrown soybean callus tissue when cultured on a complex defined medium containing 5×10^-7 M kinetin. In the Coleus system, the activity of phenylalanine ammonialyase followed the same time course as the formation of lignified wound vessel members. The specific activity of PAL was higher in the soybean callus tissues grown on 5×10^-7 M kinetin, which produced tracheary elements, than in the soybean tissue grown on 10^-8 M kinetin, which did not produce tracheids. These observations suggest that PAL is a marker enzyme for xylogenesis and that PAL activity may be a rate limiting step in lignification.Abbreviations IAA indole 3-yl acetic acid - NAA -naphthalene acetic acid - 2,4D 2,4,dichlorophenoxyacetic acid - DNA deoxyribose nucleic acid - TCA trichloracetic acid - PAL phenylalanine ammonia-lyase     

Somatic embryogenesis in liquid cultures of a tetraploidAlstroemeria

A simple and efficient procedure was developed for regeneration of a tetraploid cultivar ofAlstroemeria (A. pelegrina x A. psittacina) via somatic embryogenesis in liquid cultures. Embryogenic callus induced from mature zygotic embryos, cultured on MS medium supplemented with 40 μM NAA and 20 μM kinetin, was used as inoculum for liquid cultures. Pre-culture of the callus on MS medium supplemented with 80 μM NAA for two days was essential for cell proliferation in the liquid medium. Embryogenic cell aggregates, obtained by sieving through a 750 μm nylon mesh, continued to proliferate in media containing 10 or 20 μM NAA and 10 or 20 μM kinetin. When transferred to a semi-solid half strength MS medium supplemented with casein hydrolysate, cell aggregates successfully differentiated into plantlets which later grew to maturity under greenhouse conditions.     

Inhibition of xylogenesis by morphactin in pith parenchyma explants of Lactuca

Pith parenchyma explants of Romaine lettuce (Lactuca salivaLinn. var. Roman?) incubated in the dark for 7 days at 25?Con a nutrient medium containing sucrose, IAA. and kinetin exhibitedextensive differentiation of tracheary elements. The additionof CFL to the medium strongly inhibited tracheary element formation.The lack of tracheary strand formation in the CFL-treated explantssuggests the inhibition of auxin transport. Conclusive evidencethat CFL influences the anatomy of differentiating xylem elementswas lacking. The addition of CFL to various combinations ofxylogenic media was not stimulatory to xylem element formationbeyond the differentiation response observed in the absenceof CFL. Unique patterns of tracheary element formation producedby cytokinin media containing IAA, 2,4-D, and NAA, respectively,were abolished by CFL. As indicated by counts of total trachearyelements formed per explant, the addition of cysteine to a CFL-containingmedium reversed the inhibitory effect of CFL. Tracheary strandformation was not re-established in the explants cultured onthe cysteine+CFL medium. Tracheary element formation was completelysuppressed by TIBA. Cysteine had a slight effect on the inhibitionof differentiation by TIBA. These observations suggest thatCFL inhibits some sulfhydryl- containing system involved eitherin the process of xylem differentiation or in some prerequisiterole necessary for the induction of tracheary element formation. (Received December 27, 1972; )     

CELL DIVISION IN RELATION TO CYTODIFFERENTIATION IN CULTURED PEA ROOT SEGMENTS

One mm-thick segments cut 10–11 mm proximal to the root tip of germinating seeds of garden pea Pisum sativum were cultured in sterile nutrient medium containing auxin in the presence and absence of kinetin. In the absence of added cytokinin, pericyclic proliferation occurred, the cortical tissues showed no proliferation and were sloughed off, and a callus tissue of diploid cells was formed. In the presence of kinetin concentrations from 0.1–1.0 ppm cortical cells of the segments were induced to divide, beginning at the third day. From experiments with ³H-thymidine incorporation at different times of culture, from cytological squash preparations and from histological sections it was shown that the cortical cells stimulated to divide by cytokinin underwent DNA synthesis prior to division, were polyploid, and following cell division rapidly underwent cytodifferentiation at 5–7 days to form mature tracheary elements. At 10 days, when over 300,000 new cells had been formed per segment about 16% of these cells had formed tracheary elements. It was concluded that cytokinin, together with auxin, was essential for the initiation of DNA synthesis in the cortical cells, for their subsequent division, and finally for their specific cytodifferentiation.     

Effect of synthetic auxins on callus induction from tea stem tissue

A study was initiated to establish an in vitro culture protocol for tea (Camellia sinensis). Explant sources, disinfestation methods and culture media were examined. Segments (divots) were dissected from greenwood stem (current year growth) internodes of field grown plants. Disinfestation was achieved by separate treatments of 3.75% sodium hypochlorite and 7.5% CaCl₂. MS medium with sucrose (30 g/L), inositol (100 mg/L) and thiamine-HCl (1.3 mg/L) and kinetin was used with combinations of the auxins: (2,4-dichlorophenoxy) acetic acid (2,4-D), (2,4,5-trichlorophenoxy) acetic acid (2,4,5-T), (naphthalene) acetic acid (NAA) and 4-amino-3,5,6-trichloro-2-pyridinecarboxylic acid (Picloram). Picloram (10^-7M) induced the most callus proliferation without kinetin. At a constant level of kinetin (10^-5M), the concentrations inducing the most callus growth were 10^-7M for 2,4-D, 10^-6M for 2,4,5-T, 10^-7M for Picloram and 10^-8M for NAA. A factorial test of 2,4,5-T and kinetin concentrations showed the optimum for callus growth was 10^-7M and 10^-5M, respectively.Technical Contribution No. 2532 of the South Carolina Agricultural Experiment Station, Clemson University.Graduate Research Assistant and Professor, respectively.     

The Effects of Naphthalene Acetic Acid,Kinetin and Wound on the Callus Formation with Relation to the Biosyntheses of Tryptophan and Indole Acetic Acid in the Cotyledon of Mung Bean

The effects of the exogenous auxin——NAA, kinetin and wound on the callus formation of the cotyledon of mung bean (Phaseolus radiatus L.) with relation to the biosyntheses of endogeonous tryptophan (Trp) and IAA have been studied. The results indicate that wound plays an important role in the callus formation. The size of wounded surface is directly proportional to the proliferation of the callus tissue. The levels of free Trp and endogenous 1AA decreased in the initial period of the callus formation of mung bean cotyledon but increased in the later period. The substitution of L-Trp for NAA in the culture medium would play almost the same role in the callus proliferation. It has proposed that the exogenous phytohormones affect the biosyntheses of endogenous Trp and IAA, thereafter induce the callus formation. The wound has an important synergism with the phytohormones in this process.     

Nutritional and Hormonal Requirements for the Growth of Vigna sinensis Callus in vitro

Nutritional and hormonal requirements for in vitro growth of callus tissue of Vigna sinensis Endl. were studied. Callus was formed on hypocotyl and root sections, when they were cultured on Linsmaier and Skoog's basal medium solidified with 10 g/1 agar and supplemented with only 0.5 mg/12,4-D or 2 mg/1 IAA. Further addition of 0.2 mg/1 kinetin and 1 g/l yeast extract resulted in more active callus formation. For unlimited vigorous growth of subcultured callus which was originally isolated from root sections, yeast extract was indispensable besides 2,4-D and kinetin. Such growth-promoting activity was observed also in malt extract and Ebios (dried cell powder of brewery yeast). Of known compounds tested, nicotinic acid, nicotinamide., methyl nicotinate and NAD were promotive to the growth of the callus, although much less effective than yeast extract. Other pyridine derivatives, vitamins and amino acids tested were ineffective or slightly effective. Sucrose was the most suitable carbon source. Fructose, glucose and maltose also supported the growth. Kinetin stimulated cell proliferation of the callus and cell differentiation to tracheary element.     

Thidiazuron对苜蓿愈伤组织的乙烯生成及其体细胞胚胎发生的影响

苜蓿叶柄在Ｂ５Ｈ培养基上诱导并继代所形成的是无色、松软的胚性愈伤组织,内含许多有分生能力的细胞团。当Ｂ５Ｈ中的ＫＴ用ＴＤＺ替换时,愈伤组织变绿变硬,出现管状分子和芽原基的分化,其体胚发生能力丧失,而且其乙烯生成和ＰＡＬ活性升高。乙烯形成酶的抑制剂ＣｏＣｌ２可以抑制ＴＤＺ的上述作用,部分地恢复愈伤组织的体胚发生能力。ＴＤＺ对愈伤组织的这些作用可能与其促进乙烯生成有关。     

Effect of Light and Activated Charcoal on Tracheary Element Differentiation in Callus Cultures of Pinus Radiata D. Don

Light has been found to increase the proportion of tracheary elements differentiating in callus cultures derived from xylem-parenchyma of Pinus radiata D. Don grown on an induction medium containing activated charcoal but no phytohormones. The differentiation rate increased from 20% when callus was grown in darkness to 45% when callus was grown with a 16 h or 24 h photoperiod. When callus was grown with a 16 h photoperiod, tracheary elements were observed 2 days after transfer of callus to the induction medium, as compared to 5 days when callus was cultured in darkness. The differentiation rate was also influenced by the concentration of activated charcoal added to the induction medium, the optimum concentration being 5 g l⁻¹. Exclusion of activated charcoal from the induction medium decreased the differentiation rate to 2%. The activities of the lignin-related enzymes L-phenylalanine ammonia lyase and cinnamyl alcohol dehydrogenase were significantly higher in cell cultures grown with a 16 h photoperiod as compared to when grown in darkness. The results show that light had a stimulating effect on tracheary element differentiation and the activities of lignin-related enzymes in P. radiata callus cultures. The new growth conditions markedly improve this cell culture system and make it particularly useful for functional gene testing and cell-wall analysis of in vitro grown tracheary elements of coniferous gymnosperms.     

Studies on anther cultures of tomato —Lycopersicon esculentum Mill

The anthers of three genotypes ofLycopersicon esculentum, viz. cv. HS-101, cv. HS-102 and an F₁ hybrid (Montfavet 63-4xHS-101) in different stages of development were cultured in various defined nutritive media. Only anthers containing microspores in the early uninucleate stage were found to respond with the culture medium in the formation of androgenic callus. The DGII medium with 2 mg l⁻¹ NAA and 1 mg 1⁻¹ kinetin was found to be best for callus induction but MS medium supplemented with 2 mg l⁻¹ 2,4-D and 0.1 mg 1⁻¹ BAP favoured proliferation and growth of the callus. The androgenic microspores followed the ‘B’ type pathway of androgenesis in the formation of callus. Induction of tracheids in the callus could be achieved by supplementing the basal medium with NAA and kinetin or 2,4-D and BAP. Initiation of vessel elements and cambium were favoured by addition of NAA and kinetin and that of the phloem in the presence of 2,4-D and BAP in the basal medium, suggesting that the hormonal requirements for production of different elements of the vascular system in androgenic callus are different. Although roots could be induced from the callus, shoot differentiation could not be achieved under cultural conditions.     

Effects of Auxin Concentration on the Dimensions and Patterns of Tracheary Elements Differentiating in Pith Explants

The optimal concentration of IAA (0.03 mM) for tracheary elementdifferentiation in lettuce pith explants was about ten timesgreater than the optimal concentration for callus proliferation.Related to this, the mean volume per tracheary element increasedwith increasing IAA concentration, 18-fold between 0.001 mMand 0.3 mM IAA. At the highest concentrations, some pith cellsappeared to differentiate directly into tracheary elements,without cell division, resulting in especially large trachearyelements. Tracheary strands developed at intermediate concentrationsof IAA, and led to a small increase in the mean length/breadthratio of tracheary elements. For tracheary elements differentiating from stem cambial derivatives,a reassessment of previous studies indicates that increase inauxin concentration brings greater tracheary element size atconcentrations up to the 0.03 mM optimum. Above this optimum,however, further increase in auxin concentration brings progressivelysmaller tracheary elements, as the high auxin curtails enlargementof the differentiating cells. This contrasts with the pith explants,in which tracheary element size increases with IAA concentrationmost markedly above the optimum concentration. The interpretationof these relations requires an understanding of the effectsof auxin concentration on interacting quantities such as initialsize of cells, rate of enlargement, and rate of differentiation. Lactuca sativa, lettuce, IAA concentration, pith explants, tracheary element dimensions     

Somatic embryogenesis in asparagus: the role of explants and growth regulators

Summary The explant used to initiate embryogenic callus and the growth regulators used in subsequent induction (IM) and embryo development media (EDM) both influenced rate of somatic embryo development and conversion to plantlets in asparagus. Embryogenic callus derived from spear-cross sections (SS), in vitro crowns (IVC) and lateral buds (LB) was cultured on IM of MS salts and vitamins with 2, 4-D or NAA at 0, 0.01, 0.1, 1.0 or 10 mg/l and kinetin at 0, 0.1, 1.0 or 10 mg/l. The auxin 2,4-D at 1–10 mg/l, in combination with kinetin at 0–1 mg/l, in IM induced the highest frequency of embryos after four weeks; callus derived from SS, IVC and LB had means of 394, 382, and 344 small globular embryos, and 4, 11 and 9 bipolar embryos per gram of callus, respectively. After 6 weeks on EDM, 128, 116 and 51 bipolar embryos (4–7 mm in length) occurred per gram callus and 4.5, 1.4 and 2.1 embryos converted for IVC, SS and LB, respectively. NAA at 1–10 mg/l, in combinations with kinetin 0–1 mg/l, yielded means of 64, 175 and 225 small globular embryos per gram callus on IM for SS, IVC and LB, respectively. NAA promoted a higher rate of embryo development: means of 27, 54 and 91 bipolar embryos per gram callus for SS, LB and IVC, respectively, on EDM. There were 0.5, 9.4 and 11.9 plantlets from these respective callus sources. There was no difference between kinetin levels of 0–1 mg/l on callus growth and embryogenesis, whereas, 10 mg/l in IM was inhibitory.Abbreviations 2,4-D 2,4 dichlorophenoxyacetic acid - EDM embryo development medium - IAA indole-3-acetic acid - IM induction media - IVC in vitro crowns - LB lateral bud - LS Linsmaier and Skoog (1965) - MS Murashige and Skoog (1962) - NAA naphthaleneacetic acid - SS spear-cross section     

Somatic embryogenesis in two Gossypium hirsutum genotypes on semi-solid versus liquid proliferation media

A comparison of semi-solid vs. liquid embryo proliferation media was made using two Gossypium hirsutum L. genotypes (Coker 312 and T25) and two callus initiation media. Sections of petioles from mature, flowering plants were cultured on two modified Murashige and Skoog media. Medium 1 included 4.0 mg l^-1 NAA and 1.0 mg l^-1 kinetin; medium 2 contained 0.1 mg l^-1 2,4-D and 0.1 mg l^-1 kinetin. After six weeks, callus was removed from each explant and divided in half. One callus portion was placed in liquid proliferation medium and the other on semi-solid (0.2% Gelrite) proliferation medium. Composition of proliferation medium was identical to that of initiation medium, except no growth regulators were added. Embryos were counted after eight weeks. The percentage of explants forming callus was influenced by genotype/initiation medium combination. Analysis of variance procedures revealed significant variability for callus initiation media, proliferation media (semi-solid or liquid), and an initiation medium x genotype interaction. Paired t-tests indicated that more embryos were produced in liquid proliferation medium (227.3 embryos/culture) than on semi-solid proliferation medium (134.6 embryos/culture).Abbreviations NAA naphtaleneacetic acid - 2,4-D 2,4-D dichlorophenoxyacetic acid     

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     

CELL POPULATION KINETICS IN CALLUS TISSUES OF CULTURED PEA ROOT SEGMENTS

Two callus tissues, one composed of diploid and the other of a mixture of diploid and polyploid cells, were derived by culturing 1-mm pea root segments; the mixed callus tissues were obtained by incorporation of kinetin in the culture medium. The callus tissues were used to determine (a) if cell proliferation was altered with the change in cell constituents of a callus; (b) the rate at which polyploid cells increased after kinetin stimulation; (c) the nature of the mitotic cycle in the diploid and mixed polyploid callus tissues; and (d) if the mitotic cycle changed as the tissue aged. Histological, cytological, radioisotope, and radioautographic analyses were made on callus tissue ranging from 1 to 4 days old. The results indicated that gross morphological changes were associated with the anatomical location of the proliferative cells. They showed that the percentage of polyploid division figures after stimulation by kinetin increased rapidly during the first 6 to 7 days in culture and then continued to increase at a much reduced rate. Cell counts revealed that cell proliferation in the mixed callus tissue was initially delayed when compared with the diploid tissue, but that after the delay was overcome cell number increased in each in similar manner. Analysis of the number of DNA-synthesizing cells showed that their percentage was highest during the first 2 days of culture and then leveled off at a value of about 10%. Mitotic cycle analysis indicated that it could be accurately measured only in the younger diploid callus tissues and that it increased in variability with increased age.     

Morphogenesis in cell colonies grown from Convolvulus cell suspensions plated on synthetic media

Filtered cell suspensions of cultured callus tissue derived from the roots of Convolvulus arvensis L. were plated out on synthetic agar nutrient media in petri plates. Cell colonies which formed from the single cells or small cell groups in the suspension showed a considerable range of developmental patterns depending upon the physical and chemical environment to which they were exposed. Variation of the auxin and kinin concentrations and the nature and concentration of the source of reduced N compounds had the most profound effects on colony development. High auxin favored cell enlargement, high kinin favored the development of compact colonies composed of many small cells. Both auxin and kinin were required for cell colony formation. Cell differentiation responses which were observed but not subject to experimental control included formation of starch- and crystal-storing cells, differentiation of tracheary elements, formation of cellular filaments, and development of chlorophyllous tissue. Organ initiation was studied in cell colonies developed directly from plated cell suspensions and in cell colonies subcultured on various nutrient media. Bud initiation was produced repeatedly on media containing NAA at 10^-8 to 10^-6 m combined with kinetin at 10^-6 m . Root initiation was induced infrequently and unpredictably. Once roots had been formed from cell colonies derived from cell suspensions, the roots could be subcultured and induced to form buds; these in turn grew into whole plants. Subculture of young cell colonies to media containing different combinations of growth substances made possible a study of the effects of auxin and kinin on organization of primordia by the cell colonies. By following marked single cells plated on synthetic media, it was possible to produce single-cell clones which under proper nutrient conditions were induced to form buds. The value of the combined techniques of cell suspension culture and cell plating for the study of the physical and chemical factors influencing cell differentiation and organized development are pointed out.     

Defined conditions for the initiation on growth of cotton callus in vitro I.Gossypium arboreum

Summary Defined in vitro conditions for callus initiation byGossypium arboreum L. were determined, and different tissues were evaluated as explant sources. Environmental conditions tested included light versus dark, and low light versus high light. Different nutrient media as well as carbohydrate sources were examined. Our data show that hypocotyl tissue was superior to cotyledon or leaf tissue as the explant source for callus proliferation; the Murashige-Skoog inorganic formulation with (in mg per 1) 100 myo-inositol, 0.4 thiamine·HCl, 2 indoleacetic acid (IAA), 1 kinetin, and 3% glucose solidified by agar was the best medium to initiate callus. Cultures with sucrose as a carbohydrate source browned rapidly. Callus proliferation was superior under high light (8000 to 9000 lux) conditions at 29±1°C. Various combinations of auxins and cytokinins were tested for their ability to improve callus proliferation and subsequent growth of subcultures. Although the MS medium containing IAA and kinetin was found superior for obtaining rapid proliferation of callus from hypocotyl explants, a second medium containing 2 mg per 1 naphthalenacetic acid (NAA) and 0.5 to 1 mg per 1 benzyladenine (BA) was found necessary for vigorous growth of subcultured callus. A MS medium with 5 to 10 mg per 1 {ie329-1} (2iP) and 1 mg per 1 NAA was also favorable for continued subculturing. Technical Article 12485 from the Texas Agricultural Experiment Station.     

The Effect of Plant Hormone on Callus Formation and Regeneration of Plant in Cucumis melo L. var. Outvmnesles fil

The calli could be induced from the cotyledon in Miller medium supplemented with high concentration of kinetin (5–10 ppm) or with 2 ppm NAA plus 0.5 ppm kinetin. The callus induced by NAA plus kinetin was much different from that by kinetin alone. The former was loose and soft, while the later was tight and firm. About half a month after inoculation the later formed globe-like tissues and then new buds initiated and developed. The roots initiated from the buds when it was transplanted into Miller medium with low concentration of kinetin. The plantlets were thus obtained. However, the plantlet could not be gotten in white medium or Miller medium when hypocotyl explants were used. Therefore, it is concluded that regulation of callus formation and differentiation of the calli by exogenous hormone is closely related to some endogenous factors and external condition.     

Somatic embryogenesis in the opium poppy, Papaver somniferum

A procedure is described for the induction of somatic embryos in the opium poppy. Papaver somniferum L. Callus was obtained from seedling hypocotyls on an agar solidified medium [Murashige and Skoog (1962) Physiol. Plant. 15: 473–497] containing 0.25 mg/l (1.2 μ M ) kinetin and 2.0 mg/l (10.7 μ M ) naphtalene acetic acid (NAA). Suspension cultures were initiated from callus using a liquid medium in which 2.0 mg/l (9.0 μ M ) 2,4-dichlorophenoxyacetic acid was substituted for NAA. Meristemoids, spheres of closely packed cells, developed in suspensions and on the surface of a few callus cultures. Differentiation of meristemoids into somatic embryos was accomplished by removing growth regulators from the liquid medium. Embryoids appeared morphologically normal and similar to torpedo stage embryos, however, they possessed mature tracheary elements and laticifers in areas that should have contained only procambium. Whole plants have been obtained by placing embryos in the light on solid medium that also lacked growth regulators.