4-Coumarate:Coenzyme A Ligase and Isoperoxidase Expression in Zinnia Mesophyll Cells Induced to Differentiate into Tracheary Elements

When cultured in inductive medium containing adequate auxin and cytokinin, isolated mesophyll cells of Zinnia elegans L. cv Envy differentiate into tracheary elements with lignified secondary wall thickenings. Differentiation does not occur when cells are cultured in control medium, which has reduced levels of auxin and/or cytokinin. The activities of two enzymes involved in lignin synthesis, 4-coumarate:coenzyme A ligase and peroxidase, were examined. An induction-specific cationic isoperoxidase, visualized by low pH polyacrylamide gel electrophoresis, is detectable in soluble and wall fractions of cultured Zinnia cells long before tracheary elements visibly differentiate and is thus an early marker of differentiation. Compounds (such as antiauxins, anticytokinins, and tunicamycin) that inhibit or delay differentiation alter the expression of this isoperoxidase. 4-Coumarate:coenzyme A ligase activity increases dramatically only as cells differentiate. Together, these results suggest that the onset of lignification in differentiating Zinnia cells might be controlled by the availability of precursors synthesized by way of 4-coumarate:coenzyme A ligase. These precursors would then be polymerized into lignin in the cell wall by the induction-specific isoperoxidase.     

Hormonal induction and antihormonal inhibition of tracheary element differentiation in Zinnia cell cultures

Mechanically isolated mesophyll cells of Zinnia elegans L. cv Envy differentiate to tracheary elements when cultured in inductive medium containing sufficient auxin and cytokinin. Tracheary element differentiation was induced by the three auxins (alpha-naphthaleneacetic acid, indole-3-acetic acid, and 2,4-dichlorophenoxyacetic acid) and four cytokinins (6-benzyladenine, kinetin, 2-isopentenyladenine and zeatin) tested. Tracheary element formation is inhibited or delayed if the inductive medium is supplemented with an anticytokinin, antiauxin, or inhibitor of auxin transport.     

Correlation between Auxin Resistance and the Lack of a Membrane-Bound Auxin Binding Protein and a Root-Specific Peroxidase in Nicotiana tabacum

The levels of a membrane-bound auxin binding protein (MABP) and a root-specific peroxidase (RSP) were studied in several tobacco (Nicotiana tabacum L.) cell lines including an auxin-resistant variant. Groups of cell lines were distinguished which behaved differentially with respect to MABP and RSP depending on the hormonal composition of the medium. In cell lines in which there existed a correlation between the presence or absence of MABP and that of RSP both phenotypes were expressed if kinetin (1-2 micromolar) was supplied. In contrast, neither MABP nor RSP could be detected under any hormonal conditions tested in the auxin-resistant variant which retains the ability to differentiate shoots but lacks the ability to differentiate roots. About an eightfold increase in the concentration of MABP and a dramatic increase in the activity of RSP occurred in a transformant by a mutant strain of Agrobacterium tumefaciens lacking an intact cytokinin gene when it was grown on medium containing 1 to 2 micromolar kinetin. A correlation between auxin resistance and the lack of MABP and RSP suggests that MABP might be involved in auxin-mediated root differentiation in tobacco.     

Growth and Development of Pelargonium Pith Cells in vitro

Pelargonium pith callus cultured in media containing auxin and cytokinin will not differentiate formed organs if monthly subcultures are made into fresh medium. Left on semisolid medium for prolonged periods, such callus gives rise to nodules containing lignified cells. Such nodules can be stimulated to produce shoots and roots if cultured for one month in shaken liquid medium or for longer times on semisolid mediium lacking both auxin and cytokinin. The subsequent development of organs is best on semisolid medium. Entire plants have heen produced in this way from initial pith explants containing several hundred cells.     

Tracheary element differentiation in Zinnia mesophyll cell cultures

Mechanically isolated mesophyll cells of Zinnia elegans differentiate into tracheary elements (TEs) when cultured in a medium containing adequate auxin and cytokinin. Differentiation in this culture system is relatively synchronous, rapid (occuring within 3 days of cell isolation) and efficient (with up to 65% of the mesophyll cells differentiating into TEs), and does not require prior mitosis. The Zinnia system has been used to investigate (a) cytological and ultrastructural changes occurring during TE differentiation, such as the reorganization of microtubules controlling secondary wall deposition, (b) the influences of calcium and of various plant hormones and antihormones on TE differentiation, and (c) biochemical changes during differentiation, including those occurring during secondary wall deposition, lignification and autolysis. This review summarizes experiments in which the Zinnia system has served as a model for the study of TE differentiation.     

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     

Interruption of Somatic Embryogenesis in Daucus carota L. by 5-Bromodeoxyuridine

Embryogenic Daucus carota L. cells grown in 9 micromolar 2.4-dichlorophenoxyacetic acid are resistant to greater than 5 micromolar 5-bromodeoxyuridine (BrdU). In contrast, 5 micromolar BrdU strongly inhibits somatic embryogenesis within 24 hours after transfer of cells to an auxin-free medium. DNA synthesis rates in control and BrdU-treated cultures are rapid and similar; however, the DNA content does not reach levels as great in the presence of BrdU as in control cultures. BrdU substitutes for thymidine in the DNA in 28% of the available sites 48 hours after auxin removal. Following DNA repair, somatic embryogenesis resumes. BrdU DNA incorporation leads to somatic embryogenesis inhibition and provides an alternative to auxin treatment for the interruption of carrot cell culture differentiation.     

Higher extracellular pH suppresses tracheary element differentiation by affecting auxin uptake

In an optimized liquid medium containing auxin and cytokinin, mesophyll cells isolated from Zinnia elegans L. seedlings can be induced to differentiate into tracheary elements (TEs) at high frequency. However, it is known that buffering the medium at neutral pH severely suppresses TE differentiation. In the process of modifying the medium, we found that excessive administration of auxin restored the suppression. Based on this finding, we physiologically characterized auxin actions involved in TE differentiation by focusing on the influence of extracellular pH. First, dose/response relationships between auxin [1-naphthaleneacetic acid (NAA) and 2,4-dichlorophenoxyacetic acid (2,4-D)] concentrations and differentiated cell ratios were determined under various extracellular pH conditions. Secondly, intracellular concentrations of free forms and metabolites of auxin species were determined by analyzing extracts from cells cultured with radiolabeled NAA and 2,4-D under different extracellular pH conditions with liquid scintillation counting and thin-layer chromatography autoradiograms. Higher extracellular pH was found to reduce both the auxin potency for inducing TE differentiation and intracellular auxin accumulation. Reduction levels correlatively varied depending on the auxin species. These results suggest that the weakening in auxin potency at higher extracellular pH is ascribed to lower auxin uptake, which leads to decreased intracellular perception of the auxin signal. A model to predict auxin action that considers membrane transport, metabolism, and the perception of auxin is also presented.     

High cytokinin accumulation following root tip excision changes the endogenous auxin-to-cytokinin ratio during root-to-shoot conversion in Catasetum fimbriatum Lindl (Orchidaceae)

 Shoot initiation and development was observed in Catasetum (Orchidaceae) cultured on hormone-free media. Endogenous auxin and cytokinin contents were determined in excised root tips of two Catasetum fimbriatum genotypes incubated in a hormone-free medium. During the culture period, significant accumulation of all measured cytokinins was observed in the isolated root tips of both genotypes, reducing, by the 10th day of incubation, the auxin/cytokinin ratio tenfold in both genotypes. Root excision and the competence for shoot development in C. fimbriatum may be attributable to the establishment of an endogenous auxin/cytokinin ratio favoring cytokinins. Received: 20 August 1998 / Revision received: 30 January 1999 / Accepted: 15 February 1999     

Interspecific hybridization of red clover (Trifolium pratense L.) with T. sarosiense Hazsl. Using in vitro embryo rescue

Summary Interspecific hybrid clover plants from the cross Trifolium sarosiense Hazsl. X T. pratense L. were obtained in the present investigation. Immature hybrid embryos were excised aseptically from the pistillate parent, T. sarosiense (2 n = 48), and cultured in vitro prior to in situ abortion. Agar-solidified nutrient media modified from that developed previously for tissue and cell cultures of red clover (2 n = 14) were used for embryo rescue.The heart shaped embryos obtained were cultured for 8 to 14 days on a medium containing a high level of sucrose, a moderate level of auxin, and low cytokinin activity. Viable embryos were then transferred to a standard medium with low auxin and moderate cytokinin levels for the direct germination of shoots. Some embryos produced only callus. Plants were regenerated from callus using an alternate culture scheme. Hybrid shoot numbers were increased on a low auxin, high cytokinin medium and subsequently rooted before transfer to soil in the greenhouse.About 10% of the hybrid embryos were rescued using the optimal culture sequence. Five full-sib families of the F₁ hybrid were successfully grown to maturity. Root-tip cells of hybrid plants possessed the expected somatic chromosome number of 31. The genetically determined leaf-mark trait carried by the staminate parent and the rhizomatous root habit of the pistillate parent were expressed in hybrid plants.The investigations reported in this paper (No. 81-3-151) were performed in connection with projects of the Kentucky Agricultural Experiment Station and the paper is published with the approval of the Director     

Host and T-DNA determinants of cytokinin autonomy in tobacco cells transformed byAgrobacterium tumefaciens

The hormone autonomy of tobacco (Nicotiana tabacum L.) cells transformed byAgrobacterium tumefaciens containing mutations attmr (the “rooty” locus) of the pTiT37 plasmid has been examined. These cells require cytokinin, but not auxin for continuous growth in culture, indicating that the function of thetmr locus is to specify or induce cytokinin autonomy. Examination of tissues from plants regenerated from cells transformed by the mutant bacteria showed that the auxin independent phenotype is suppressed, but can be reinitiated in culture by exposure to an exogenous supply of auxin. In addition the developmental state of the cells from such regenerated plants can exert a profound influence on their cytokinin autonomy phenotype.     

Culture of Mesophyll Protoplasts and Stem Segments of Antirrhinum majus (Snapdragon): Growth and Organization of Embryoids

Protoplasts isolated enzymatically from the leaves of Antirrhinummajus L. were cultured on a synthetic medium and their growthand development were followed in vitro. Cultured protoplastsincreased in size, regenerated cell walls, divided and formedsmall colonies and embryoids. Cell wall formation and cell divisionrequired both auxin and cytokinin in the medium. Isolated stemsegments of the same species, when cu1tured on a synthetic mediumwith an added auxin, yielded rapidly growing callus tissuesin which differentiation of embryoids occurred.     

Induction of multiple shoots by thidiazuron from caryopsis cultures of minor millet (Paspalum scrobiculatum L.) and its effect on the regeneration of embryogenic callus cultures

Caryopsis culture of a minor millet (Paspalum scrobiculatum L. cv. PSC 1) on N₆ medium supplemented with high concentrations of thidiazuron (TDZ, 11.25 µM and 22.5 µM), a phenylurea derivative known to simulate cytokinin action, resulted in the formation of multiple shoots from the base of the seedling. This is the first time that multiple-shoot formation by a seedling cultured on TDZ without a callus interphase has been reported in graminaceous crop plants. The presence of a cytokinin, 6-benzylaminopurine (BAP), at low or high concentrations failed to evoke any morphogenic response. The presence of the auxin 2,4-dichlorophenoxyacetic acid (2,4-D, 4.5 µM) either alone or with BAP (4.5 µM) resulted in the formation of embryogenic callus from the base of the seedlings, which subsequently differentiated into somatic embryos. The combination of TDZ and the auxin (4.5 µM, 2,4-D) in the medium stimulated the differentiation of shoot buds in embryogenic callus cultures. This effect of TDZ, noted for the first time in a monocotyledonous plant, was evident in terms of a significant increase in the frequency of shoot-bud formation in embryogenic callus cultures and occurred only at a high concentration of TDZ (11.25 µM). This requirement for a high concentration of TDZ for the induction of multiple shoots from cultured seedlings or shoot buds in an embryogenic callus culture of a monocot is contrary to its effect at low concentrations in dicotyledonous plants. Complete plantlets, derived either from somatic embryos or shoot buds, could be regenerated on hormone-free basal medium or on basal medium fortified with activated charcoal (0.5%). Following a gradual acclimatization in a culture room, these regenerants survived on transfer to soil and ultimately set seed.     

Hormonal control of deoxyribonucleic Acid and protein syntheses in pea root cortical explants

The hormonal control of DNA and protein syntheses in cortical explants taken at 10 to 11 mm from the tip of 3-day-old seedling roots (Pisum sativum cv. Little Marvel) was examined. On the auxin medium, S2M, the cortical cells began to enlarge at day 4 in culture, with no DNA synthesis or cell division throughout the 7-day culture period. With the addition of kinetin to this medium, S2M + K, the DNA content of the explants increased about three times by day 3, with further increases thereafter. This DNA increase was followed by cell division activity and subsequent tracheary element differentiation initiated at day 5. At least two divisions per parent cortical cell were required prior to this cytodifferentiation. The absolute hormonal requirements for the DNA synthesis and cell division responses were substantiated by the lack of either response in explants cultured on basal (S2M medium minus auxins) or basal + K medium for 7 days. On the auxin medium, there was no protein accumulation in the cortical explants over the 7-day period. On S2M + K medium, protein accumulation began after day 2 with a steady rate of increase until day 4, and some fluctuation thereafter. The pattern of increasing uptake of ¹⁴C-leucine was similar for days 0 to 4 in explants on either medium. After day 4 on S2M, the uptake continued to increase coincident with cell enlargement initiation, whereas on S2M + K there was a decline. Incorporation of ¹⁴C-leucine into trichloroacetic acid-precipitates of the total buffered homogenate from explants on both media exhibited a similar pattern, i.e. an increase during days 0 to 3 and then a decline to a level about three times higher than day 0. Incorporation into the homogenate soluble fraction also showed a similar pattern in explants cultured with or without kinetin. From the differences in net protein accumulation and the incorporation data, speculation on a cytokinin effect on protein synthesis and degradation rates is presented.     

Culture and morphogenetic response of a lethal,chlorophyll-deficient mutant of tobacco to hormones,amino acid and sucrose

Summary This report describes the culture of Su/Su, Su/su and su/su tissue in vitro. High levels of auxin and low levels of cytokinin increase growth of the cells. The cells do not need exogenous amino acids for rapid growth and the chlorophyll deficiency cannot be overcome by amino acids. Reduced levels of auxin and sucrose enhance differentiation, whereas cysteine in the autoclaved medium inhibit differentiation. The Su chlorophyll mutant of tobacco provides a marker for in vitro studies on photosynthesis and photorespiration, chloroplast genetics and cell fusion techniques.     

Hormonal regulation of beta1,3-glucanase messenger RNA levels in cultured tobacco tissues

We describe the isolation of a cDNA clone of β1,3-glucanase mRNA from Nicotiana tabacum L. cv. `Havana 425' and its use to measure the kinetics of mRNA accumulation in cultured tobacco tissues treated with the plant hormones auxin and cytokinin. Northern blot analysis showed that the tissues contain a single ˜1.6 kb-sized β1,3-glucanase mRNA. The levels of β1,3-glucanase and β1,3-glucanase mRNA increase by up to seven- and 20-fold, respectively, over a 7-day period in tissues subcultured on hormone-free medium and medium containing auxin or cytokinin added separately. Over the same interval of time, the content of both the enzyme and its mRNA remains at a constant low level in tissues subcultured on medium containing both auxin and cytokinin. The results show that auxin and cytokinin block β1,3-glucanase production at the level of the mRNA.     

Induction of Specific mRNAs in Cultured Soybean Cells during Cytokinin or Auxin Starvation

We report the isolation of five cDNA clones whose corresponding mRNAs accumulate in cultured soybean cells (Glycine max cv Mandarin) during cytokinin or auxin starvation. The levels of three of these mRNAs decrease rapidly after addition of 5 micromolar zeatin to cytokinin-starved cells or after addition of 10 micromolar α-naphthaleneacetic acid to auxin-starved cells. These mRNAs also exhibit various patterns of accumulation in the tissues of intact soybean plants. Partial nucleotide sequence analysis demonstrates that one of the cDNAs in the collection, called SAM46, is 46% identical at the amino acid level to the iron superoxide dismutase gene of Escherichia coli. Expression of this cDNA in Escherichia coli cells results in detectable iron superoxide dismutase activity, confirming the identity of the cDNA.