A cytokinin test with high specificity

Summary A cytokinin bioassay based on bud formation in 10-cell-long caulonema filaments of Funaria hygrometrica is described. The test has high specificity and sensitivity; is completed in 2 days; exhibits linearity between cytokinin concentration in the medium and bud number; and no buds are formed in the absence of a cytokinin.     

Cytokinin induces the developmentally restricted synthesis of an extracellular protein in Physcomitrella patens

Early development of the moss Physcomitrella patens follows a simple course leading to the formation of a filamentous protonema containing only two cell-types, chloronema and caulonema. The addition of the hormone cytokinin leads to the induction of multicellular buds from such protonema. The spectrum of extracellular proteins (ECPs) synthesized by P. patens has been investigated at defined stages of development and under defined hormone treatments. It is found that in contrast to the limited changes in intracellular protein synthesis detectable, in the extracellular environment major and specific changes in the patterns of proteins synthesized occur. For example, the presence of caulonema cells is characterized by the synthesis of a 25 kDa ECP whereas early chloronema differentiation is distinguished by the presence of a 38 kDa ECP. The analysis of the pattern of ECPs synthesized by developmental mutants altered in bud formation, and in response to cytokinin in tunicamycin treated protonema (in which bud induction is blocked) indicate that the synthesis of a 14 kDa ECP is specifically induced by cytokinin. This protein represents a novel cytokinin-induced ECP. These data show that the differentiation of particular cell types in plants is associated with the synthesis of particular ECPs, and suggest that hormones which induce specific morphogenic events may do so via the synthesis of specific ECPs.     

Cytokinin activation and redistribution of plasma-membrane ion channels in Funaria

I have investigated changes in electrical current across the plasma membrane that occur during cytokinin-induced bud formation in Funaria hygrometrica Hedw., using a non-intrusive vibrating microelectrode. Before cytokinin treatment the target caulonema cells have maximal inward current at the nuclear region. After cytokinin treatment inward current increases twofold along the length of the cell. Within minutes, however, current decreases at both the nuclear zone and the proximal end while increasing at the distal end of target cells, preceding and predicting the presumptive division site. Inward current at the distal end falls to resting levels after establishment of a bulging growth zone, and remains low around developing buds. This current is blocked by gadolinium nitrate, a Ca²⁺-uptake inhibitor, indicating a Ca²⁺ component of the current. The polarity of the target cells can be disrupted by microfilament inhibitors and cytokinin-induced buds form over the nucleus, halfway along the length of the cell. I suggest that cytokinin activates plasma-membrane ion channels which are subsequently redistributed to the distal ends of target cells by a microfilament-dependent process. Cytokinin-induced concentration of ion channels over presumptive bud sites may be envisioned to exert spatial control of cytoplasmic ion concentrations and stimulate bud formation by establishing a new growth zone, directing nuclear migration, and stimulating cell division.Abbreviations BA 6-benzyladenine - [Ca²⁺]_i intracellular calcium-ion concentration     

Control of flowering in bougainvillea "san diego red.": metabolism of benzyladenine and the action of gibberellic Acid in relation to short day induction

Benzyladenine (BA) and short day (SD) induction promote and gibberellic acid (GA) inhibits flowering in Bougainvillea “San Diego Red.” GA is an overriding vegetative signal maintaining plants in a vegetative state even when BA is applied in SD conditions. SD promotes a more rapid conversion of BA to the ribotide and other “polar derivatives” (containing adenine derivatives). This effect of SD on BA metabolism is seen in root, stem, and apical bud tissues and is completely prevented by prior or simultaneous application of GA. GA treatment reduces the rate of polar derivative formation to that found in plants held in long days. The working hypothesis is that SD promotes flowering in Bougainvillea owing to reduced transport of gibberellins from leaves to roots and apical buds permitting metabolism of cytokinin, and perhaps other purine bases, to more polar forms that are more readily translocated and active in promoting reproductive development of the inflorescences axes.     

Localization of membrane-associated calcium following cytokinin treatment in Funaria using chlorotetracycline

We have investigated the changes in membrane-associated calcium that occur during cytokinin induced bud formation in Funaria hygrometrica Hedw. using the fluorescent Ca²⁺-chelate probe chlorotetracycline (CTC). In the target caulonema cells a localization of CTC fluorescent material becomes evident at the presumptive bud site 12 h after cytokinin treatment. By the time of the initial asymmetric division this region is four times as fluorescent as the entire caulonema cell. Bright CTC fluorescence remains localized in the dividing cells of the bud. To relate the changes in CTC fluorescence to changes in Ca²⁺ as opposed to membrane-density changes we employed the general membrane marker N-phenyl-1-naphthylamine (NPN). NPN fluorescence increases only 1.5 times in the initial bud cell. We conclude that the relative amount of Ca²⁺ per quantity of membrane increases in this localized area and is maintained throughout bud formation. We suggest that these increases in membrane-associated Ca²⁺ indicate a localized rise in intracellular free Ca²⁺ concentration brought about by cytokinin action.Abbreviations BA 6-benzyladenine - CTC chlorotetracycline - ER endoplasmic reticulum - NPN N-phenyl-1-naphthylamine     

The quantitative response to cytokinin in the moss Funaria hygrometrica does not reflect differential sensitivity of initial target cells

Exposure to sufficient cytokinin induces the formation of buds from responsive cells in the protonema of Funaria hygrometrica. Initial perception of the phytohormone results in a Ca+2 cascade within minutes. A second cytokinin-mediated event occurs some days later, and converts incipient buds into stably committed buds. The concentration of exogenous cytokinin also regulates the total number of buds produced from a protonemal colony. This concentration-dependent production of buds has been thought to reflect differential sensitivity of target cells. Under that hypothesis, the regulation of bud number occurs during initial perception of hormone. This paper presents direct experimental evidence to the contrary and supports the alternate hypothesis that bud formation involves the gating of large numbers of responding cells by later events. Experiments transferring protonema between media with different levels of cytokinin show that the cytokinin concentration during the initial perception of cytokinin is unimportant in controlling bud number. Instead, bud number is found to be regulated by the concentration of exogenous cytokinin as incipient buds or bud initials become stably committed buds.     

Changes in Cytokinins before and during Early Flower Bud Differentiation in Lychee (Litchi chinensis Sonn.)

Lychee (Litchi chinensis) has been analyzed for cytokinins in buds before and after flower bud differentiation, using reversephase high performance liquid chromatography in combination with Amaranthus bioassay and gas chromatography-mass spectrometry-selected ion monitoring. Four cytokinins, zeatin, zeatin riboside, N⁶-(δ²-isopentenyl)adenine, and N⁶-(δ⁶-isopentenyl) adenine riboside, were detected in buds. There was an increase of cytokinin activity in the buds during flower bud differentiation. In dormant buds, the endogenous cytokinin content was low, and the buds did not respond to exogenous cytokinin application. Application of kinetin promotes flower bud differentiation significantly after bud dormancy. These results are interpreted as an indication that the increase in endogenous cytokinin levels during flower bud differentiation may be correlative rather than the cause of flower bud initiation.     

On the action mechanism of cytokinins in mosses: Caulonema specific proteins

Soluble proteins extracted with Tris-buffer pH 8.8 from both differentiation stages of the protonema of Funaria hygrometrica (chloronema and caulonema) were separated by microgel electrophoresis. 4x10^-3 mg protein/gel was applied. The caulonema, which is the only part of the protonema able to form buds following cytokinin treatment, contained 3 protein bands, which were absent in chloronema. We designate them as caulonema specific proteins (CSP, approximate molecular weight 500,000). The CSP disappear when the caulonema is isolated and its cells regenerate to chloronema. The CSP bind kinetin (6 Furfurylamino [8-¹⁴C]purine) or BAP (6-benzylamino[8-¹⁴C]purine) about 10 times stronger than the remaining protein bands in the gel. The greatest part of the cytokinin is metabolized in a short time and consequently a part of the activity in the gel is incorporated into RNA and removable with RNase. Simultaneous application of adenosine and cytokinin reduced the incorporation of radioactivity into RNA and enhanced the specific activity in one of the CSP bands. In all other bands it remained unchanged.From the results it can be suggested that the CSP are probably involved in the early reactions to cytokinin of the target cells.Abbreviations CSP Caulonema specific proteins - BAP 6-benzylaminopurine - GA₁ gibberellin A₁     

Connection between the Synthesis of Differentiation Specific Proteins and the Capacity of Cells to Respond to Cytokinin in the Moss Funaria

The differentiation stage of the caulonema in Funaria hygrometrica protonema is distinguished from the chloronema stage by three additional protein bands (CSP) in the soluble protein fraction. During the change of caulonema to chloronema, which is induced by isolation of single filaments (regeneration), the CSP disappear. This is not the consequence of an accelerated degradation or turnover but of a gradual termination in the de novo synthesis of CSP during regeneration as demonstrated by pulse-chase experiments with l -[4,5–³H] leucine. Cytokinin inhibits the termination of the synthesis of CSP. The decrease in synthesis parallels the decrease in ability of the isolated caulonema cells to respond to cytokinin via bud formation. It is therefore concluded that the CSP are involved in the competence of caulonema cells to respond to cytokinins.     

Effect of Sucrose on Starch Accumulation in and Adventitious Bud Formation on Embryos of Picea abies

Adventitious buds were initiated on embryos of Picea abies (L.)Karst. after a pulse treatment with cytokinin. The initial stagesof bud formation could take place on culture medium lackingsucrose, but sucrose was required for further development ofmeristematic centres into bud primordia and buds. Sucrose atone per cent was optimal for adventitious bud formation. Embryoscultured on media containing sucrose started to accumulate starchduring the first day. Starch accumulation occurred especiallyin the cortex cells where starch grains were frequently presentin the chloroplasts. The starch accumulation increased withhigher sucrose concentrations in the culture medium. Embryoscultured on medium lacking sucrose did not accumulate starchbefore the formation of meristematic centres. Starch accumulationwas never observed in meristematic cells from which adventitiousbud primordia developed. Picea abies (L.) Karst., Norway spruce, adventitious bud, starch accumulation, sucrose concentration     

ABA prevents the second cytokinin-mediated event during the induction of shoot buds in the moss Funaria hygrometrica

The induction of shoot buds in the moss Funaria hygrometrica is a classic and quantitative bioassay for cytokinin. This cytokinin-stimulated response can be inhibited by the plant hormone abscisic acid, ABA; the inhibition is concentration dependent and was proposed for use as a bioassay for ABA. This paper characterizes the ABA inhibition of the cytokinin-stimulated formation of shoot buds. Experiments transferring protonema between cytokinin and cytokinin plus ABA show that ABA does not interfere with the initial perception of cytokinin. Other experiments compare the results of transferring protonema from cytokinin to cytokinin-free medium or to medium with cytokinin plus ABA and reveal that ABA acts by blocking the cytokinin-mediated stable commitment of nascent buds. Extension of the technique of double-reciprocal plots to this whole-organism bioassay finds that ABA is not a competitive inhibitor of cytokinin. Analysis of the ABA inhibition of bud formation identifies a new regulatory step in the developmental process of bud formation in mosses.     

Changes in Cytokinins and Gibberellin-Like Substances in Pinus radiata Buds during Lateral Shoot Initiation and the Characterization of Ribosyl Zeatin and a Novel Ribosyl Zeatin Glycoside

Based on detection and quantitation by bioassay, endogenous gibberellin-like substances (GAs) and cytokinins (CKs) in Pinus radiata D. Don buds during sequential shoot initiation shift from less polar to more polar forms (GAs) and from conjugated to free forms (CKs). As the terminal bud moves from the production of “short shoots” (needle fascicles) to “long shoots” (lateral branches or female conebuds), a more polar GA appears while a glucoside-conjugate of zeatin riboside is reduced, and zeatin riboside levels increase markedly.     

The effect of 1,4-dihydropyridines on the initiation and development of gametophore buds in the moss funaria

The plant hormone cytokinin stimulates target caulonemata of Funaria to form buds that develop into the leafy gametophyte. Previous reports have shown that increases in intracellular Ca²⁺ occur during hormone-activated budding concomitant with an alteration in the polarity of the organelles in the bud site. In order to ascertain the involvement of voltage-dependent Ca²⁺ channels in this phenomenon, we have employed dihydropyridines (DHP), compounds noted for their ability to alter Ca²⁺ flux through potential-sensitive channels. Addition of the DHP agonists (+)202-791 and CGP 28392 (100 micromolar) induces bud initials on every target cell including the tip cell. Application of the DHP antagonist (−)202-791, in the presence of cytokinin (1 micromolar benzyladenine), inhibits budding 96%. Similarly, nifedipine blocks cytokinin-induced budding 87% and its effect on budding can be inactivated with a pulse of ultraviolet light. These results are consistent with the idea that cytokinin induces the budding response by increasing Ca²⁺ entry through voltage-operated channels. We suggest that cytokinin activation of Ca²⁺ channels is the first action of the hormone and that subsequent cytokinin-induced mechanisms are operating to maintain budding, since DHP-induced initials rarely develop into complete buds.     

Development of the protonema and bud formation in mosses

In the course of their development the protonemata of Funaria hygrometrica produce two different substances which diffuse into the substrate. In the chloronema a thermo-labile growth-promoting substance is formed. In the caulonema, after about 10 days, a substance is produced which is thermostable and soluble in amyl alcohol, which can be dialysed, and which functions as a growth inhibitor. Both substances also influence bud formation. This is at an optimum only when there is a certain balance between these two substances.
This promotion is fundamentally different from that brought about by treatment with kinetin, because kinetin can function only as an additional factor in promoting bud formation. Very probably it acts as an agent which creates centres of attraction toward which morphogenetic substances are drawn. This assumption is supported by the fact that kinetin cannot be transported and therefore has no 'after-effect'. It probably functions only in the caulonema cell it penetrates. It converts every caulonema cell into a 'reaction cell'.     

Metabolism of cytokinin: deribosylation of cytokinin ribonucleoside by adenosine nucleosidase from wheat germ cells

Adenosine nucleosidase (adenosine ribohydrolase, EC 3.2.2.7) which catalyzes the deribosylation of N⁶-(Δ²-isopentenyl)adenosine and adenosine to form the corresponding bases was partially purified from wheat germ. This enzyme (molecular weight 59,000 ± 3,000) deribosylates the ribonucleosides at an optimum pH of 4.7 K_m values for the cytokinin nucleoside and adenosine are 2.38 and 1.43 micromolar, respectively, in 50 millimolar Tris-citrate buffer (pH 4.7) at 30 C. The presence of adenosine and other cytokinin nucleosides inhibited the hydrolysis of N⁶-(Δ²-isopentenyl)adenosine but this reaction was insensitive to guanosine, uridine, or 3′-deoxyadenosine. It is hypothesized that an adequate level of “active cytokinin” in plant cells may be provided through the deribosylation of cytokinin riboside in concert with other cytokinin metabolic enzymes.     

In vitro flower bud formation in tobacco: interaction of hormones

External application of auxin and cytokinin is required for the formation of flower buds on thin-layer tissue explants of Nicotiana tabacum cv Samsun. Interaction between both plant growth regulators during this regenerative process has been demonstrated with respect to speed of flower bud initiation and the number of flower buds formed. Separation in time of the hormone application during culture revealed that the cytokinin benzyladenine plays a key role in flower bud initiation whereas auxin (indoleacetic acid) stimulates in particular the differentiation of flower buds. The uptake of each hormone was proportional to the concentration supplied in the medium, and the uptake of either hormone appeared independently of the presence of the other. Metabolism studies showed the conversion of indoleacetic acid by the tissue to at least 13 metabolites after 24 h of culture. In addition, indoleacetic acid metabolism was demonstrated not to be influenced by the uptake and metabolism of benzyladenine. Taken together the results indicate that the interaction of auxin and cytokinin with respect to in vitro flower bud formation is indirect, i.e. does not take place at the level of hormone uptake or metabolism but at some step in the cascade of processes they initiate.     

A cold environment is a prerequisite for formation of "plastid initials" in winter buds of poplar

The “plastid initial,” the presumed precursor of eoplasts and proplastids, is present in the cells of the apical meristem of winter buds of poplar (Populus euramericana). The formation of the plastid initial in the cells of winter buds is initiated soon after the breaking of the innate or resting stage of dormancy, even in winter under nongrowing conditions in mid-January or early February. From this stage to March, the conglomeration of the plastid initial and the formation of prolamellar bodies is evident. In contrast to the poplar samples kept outdoors, the cells of the apical meristem of the indoor winter buds did not show any indication of the formation of the plastid initial and the buds of the latter sample did not flush even at the end of May. These results suggest that the sequence of reactions involved in the onset of regrowth may be closely related to the formation of the plastid initial.     

Morphactin-induced changes in the cytokinin effect on tissue and organ cultures ofNicotiana tabacum

Summary The influence of a morphactin, chlorflurenol-methylester (CFM), on the growth, the morphogenesis and the isoelectric peroxidase pattern was investigated in both callus cultures (two different tissue culture strains) and multiple bud cultures ofNicotiana tabacum var.Wisconsin. CFM (range of concentration between 10^–6g/ml and 10^–4g/ml) was applied singly, or in combination with a cytokinin, benzylaminopurine (BAP), or with an auxin, indoleacetic acid (IAA), or with IAA plus BAP.In general, the callus growth was inhibited under the influence of CFM. In some of the experiments carried out in hormone-free media, growth stimulation was observed. Even minimal inhibition or stimulation of the callus growth was always accompanied by characteristic changes in the peroxidase patterns.The following results show the influence of the morphactin CFM on cytokinin effects (endogenous cytokinin or equally the exogenously applied cytokinin, BAP). (1) In the multiple bud cultures, BAP and CFM (both substances combined with IAA) similarly caused inhibition of root formation and stimulation of bud formation. The bands in the peroxidase patterns, characteristic of cytokinin action, were accentuated also of those bud cultures which had been treated with BAP or with CFM. (2) In the callus cultures, the cytokinin characteristics appeared under CFM influence in the peroxidase patterns of one of the tissue culture strains only when CFM was applied in combination with BAP and not in combinations of CFM with IAA.The observed morphactin-induced increase in the cytokinin effects could occur via changes in the hormone level of the tissue.