The Effect of Ageing on Bud Differentiation in the Moss, Physcomitrium sphaericum

In the moss Physcomitrium sphaericum, we examined the numberof buds per filament, the position of buds, and the ratio ofbud-differentiated filaments when treated with cytokinin, inrelation to the increase in the number of cells per filament. When filaments of a young protonema were treated with cytokinin,many filaments did not differentiate buds. As the number ofcells in a filament increased, both the mean number of budsper filament and the ratio of bud-differentiated filaments increased.However, the position of bud differentiation was unaffectedby application of cytokinin. A higher concentration of cytokininincreased the mean number of buds per filament and the ratioof bud-differentiated filaments. The relationship between cytokinin, ageing of filaments andthe ability to differentiate buds is discussed. (Received June 17, 1985; Accepted September 9, 1985)     

A Comparative Auxin and Cytokinin Study in Normal and to-2 Mutant Tomato Plants

Torosa-2 (to-2), a tomato mutant with strong apical dominance,was studied in order to determine the mechanism of shoot outgrowthcontrol. In decapitated or defoliated to-2 plants only a fewshoots grew and IAA or morphactin application had little oronly short term effects. No differences were found in auxinand cytokinin activities between normal and mutant plants upto 20 days after sowing. In the period from 40 to 90 days theIAA content increased equally in both genotypes. During thesame period, however, cytokinin increased only in normal plants.The results obtained with the to-2 mutant indicate that budsdo not shoot, probably because bud differentiation does notoccur. The ratio of auxin to cytokinin clearly was affectedby the low level of cytokinin in all tissues of the to-2 plants.This led us to the conclusion that insufficient quantities ofcytokinin for lateral bud differentiation is the cause of thestrong apical dominance in to-2. (Received January 20, 1982; Accepted April 26, 1982)     

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     

The Mechanisms of Apple Bud Morphogenesis: Analysis and a Model

Information in the literature suggests that the process of applebud morphogenesis is controlled by the level of growth substances,notably gibberellins in the bud, and by the availability ofgrowth substrate (S). The spur buds of apples must contain acertain minimum number of nodes (N_m) before flower primordiacan be formed, and the process of bud morphogenesis can be describedby a rate of node production with time, t by the equation It is postulated that the parameter k_G is a function of thebalance between the enzymes systems in the bud, the rate ofsynthesis of the enzymes associated with the development offloral bud parts (floral enzymes) being inversely related tothe level of gibberellins (G) in the bud. The parameter k_G isa function of the nutritional state of the bud; a is a rateparameter, and i is a conversion factor. Node production rateis asymptotic with increase in S, but switches from high tolow values as G varies about a critical concentration. The implicationsof the model, which appears to describe most observations, arediscussed, and some suggestions for testing it are put forward.     

Involvement of Cyclic AMP in Adventitious Bud Initiation of Torenia Stem Segments

Adventitous bud initiation in epidermis of Torenia stem segmentscultured in vitro, which is usually induced by cytokinin, couldbe induced by application of dibutyryl cyclic AMP in the absenceof cytokinin. Similar stimulatory effects on bud initiationwere observed when various promoting reagents to accumulateendogenous cyclic AMP were added, such as activators for adenylatecyclase, forskolin and prostaglandin E₁, and inhibitors of cyclicnucleotide phospho-diesterase, theophylline and isobutyl methylxanthine. Endogenous content of cyclic AMP in Torenia stem segmentswere increased by the application of the above chemicals, calciumionophore or cytokinin. These results suggested that endogenousconcentrations of cyclic AMP were involved in adventitious budinitiation of Torenia stem segments. Furthermore, some inhibitorsof protein kinases inhibited bud initiation induced by cyclicAMP-accumulating reagents. (Received August 15, 1989; Accepted November 4, 1989)     

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; )     

Changes in the Endogenous Cytokinins of Bark and Buds ofSalix babylonica as a Result of Stem Girdling

Girdling of 1-year-old Salix babyionica L. plants resulted in an early accumulation of compounds which co-chromatographed with cytokinin glucosides in both the bark and buds below the girdle. In the bark the cytokinin glucosides were present in high levels in both girdled and non-girdled plants. In the buds of non-girdled plants. however, glucoside concentration was initially low but then increased rapidly after ringing and reached a maximum level prior to any visible signs of bud swell. With the onset of lateral shoot growth the glucoside cytokinins decreased while the cytokinins that co-chromatographed with zeatin and its derivatives increased. As the cytokinin glucosides are generally considered to be storage forms, their accumulation in the bark and buds below the girdle apparently does not reflect synthesis but rather transport towards a more competitive sink. In the case of Salix plants the lateral buds would appear to have the ability to hydrolyze these glucosylated zeatin derivatives and then to utilize them for bud development. It is suggested that in the presence of a functional root system lateral buds do not synthesize cytokinins de novo, but that they do have the metabolic capacity to convert cytokinins transported to them.     

The Position of Bud Differentiation on Protonema of the Moss, Physcomitrium sphaericum

The position of the gametophytic bud was examined in relationto the development of protonema in the moss, Physcomitrium sphaericum. Positions of protrusion formation, of the development of protrusionsinto lateral filaments, and of the differentiation of protrusionsinto buds are restricted within the narrow regions of the filaments.The number of cells from the apical cell of the filament tothese positions are constant in any size filament. The growth pattern of the protonema is shown as follow. As afilament grows one-dimensionally through divisions of the apicalcell, new protrusions are produced successively on the 5th cellfrom the apical cell or on its vicinity. The cells which intervenebetween the apical cell and this protrusion increase in numberas the apical cell divides. When this protrusion is positionedat the 8th or 9th cell from the apex, it differentiates intoa bud or a lateral filament. This growth pattern is common toboth the main and lateral filaments. Buds are differentiated not only on caulonema cells in the mainand lateral filament, but also on chloronema cells at the baseof the lateral filaments. (Received December 14, 1981; Accepted April 24, 1982)     

Regulation of shoot branching patterns by the basal root system: towards a predictive model

This study aimed to underpin the development of a generic predictivemodel of the regulation of shoot branching by roots in nodallyrooting perennial prostrate-stemmed species using knowledgegained from physiological studies of Trifolium repens. Experiment1 demonstrated that the net stimulatory influence from the basalrooted region of the plant on growth of newly emerging axillarybuds on the primary stem decreased as their phytomeric distancefrom the basal root system increased. Experiment 2 found thatat any one time the distribution of net root stimulus (NRS)to the apical bud on the primary stem and all lateral brancheswas fairly uniform within a single plant. Thus, although NRSavailability was uniform throughout the shoot system at anypoint in time, it progressively decreased as shoot apical budsgrew away from the basal root system. Based on these findings,a preliminary predictive model of the physiological regulationof branching pattern was developed. This model can explain thedecline in growth rate of buds on a primary stem as it growsaway from its basal root system but not the rapid progressivedecline in secondary branch development on successive lateralbranches. Thus knowledge of NRS availability to emerging budsis not, by itself, a sufficient basis from which to constructa predictive model. In addition, it seems that the ability ofan emerging bud to become activated in response to its localNRS availability is, at least in part, directly influenced bythe activation level of its parent apical bud. The experimentaltesting of this hypothesis, required for continued developmentof the model, is proceeding. Key words: Axillary bud outgrowth, branch development, bud activation, intra-plant variation, nodal roots, prostrate clonal herbs, root signals, Trifolium repens Received 11 September 2007; Revised 25 November 2007 Accepted 18 January 2008     

Early Cytological and Biochemical Events Induced by a 6-Benzylaminopurine Application on Inhibited Axillary Buds of Cicer arietinum Plants

Axillary buds of Cicer arietinum L. plants are released fromapical dominance by a direct 6-benzylaminopurine application.The cytokinin treatment induces a sequence of events, some featuresof which are described. An exponential increase of bud dry weightwas measured as soon as the sixth hour from the treatment andstarch accumulation was observed during the first 4 h. An importantincrease in uridine incorporation into RNA occurred 90 min afterapplication of the cytokinin. Cell division was stimulated veryearly while the increase of bud-DNA content was delayed. Theimplications of these results are discussed in relation to themechanisms of cytokinin action in the release of axillary budsfrom apical dominance.     

The ultrastructural aspects of the cytokinin-induced bud formation inCeratodon purpureus

Summary The fine structure of gametophore buds developing in response to a cytokinin treatment is described and compared with the results of biochemical and physiological investigations. In the early period of growth, the buds followed a regular pattern of development, with the differentiation of a tetrahedral apical cell at the 3-cell stage of the bud. After 6 and 48 hours of the cytokinin treatment, structural changes indicating an increased metabolic activity were found in the developing buds. Treatment for 5-days resulted in signs of degeneration in most of the bud cells. Nuclei and chloroplasts were the organelles most sensitive to the cytokinin. Among the structures described, complexes of minute, strongly osmiophilic globules, arranged in parallel rows between microfilaments were of particular interest. They seemed to appear temporarily in cells and they may constitute storage material for building structures at an appropriate stage of cell development.     

The gravity-regulated growth of axillary buds is mediated by a mechanism different from decapitation-induced release

When the upper part of the main shoot of the Japanese morning glory (Pharbitis nil or Ipomoea nil) is bent down, the axillary bud situated on the uppermost node of the bending region is released from apical dominance and elongates. Here, we demonstrate that this release of axillary buds from apical dominance is gravity regulated. We utilized two agravitropic mutants of morning glory defective in gravisensing cell differentiation, weeping (we) and weeping2 (we2). Bending the main shoots of either we or we2 plants resulted in minimal elongation of their axillary buds. This aberration was genetically linked to the agravitropism phenotype of the mutants, which implied that shoot bending-induced release from apical dominance required gravisensing cells. Previous studies have shown that basipetal translocation of auxin from the apical bud inhibits axillary bud growth, whereas cytokinin promotes axillary bud outgrowth. We therefore compared the roles of auxin and cytokinin in bending- or decapitation-induced axillary bud growth. In the wild-type and we plants, decapitation increased cytokinin levels and reduced auxin response. In contrast, shoot bending did not cause significant changes in either cytokinin level or auxin response, suggesting that the mechanisms underlying gravity- and decapitation-regulated release from apical dominance are distinct and unique.     

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     

Changes in Levels of Butanol- and Water-Soluble Cytokinins during the Life Cycle of Potato Tubers

The nature of the water-soluble cytokinin in potato tubers (Solanumtuberosum L.) and the changes in the levels of both butanol-and water-soluble cytokinins during their life cycle were examined.The main cytokinin detected in the water-soluble fraction hadthe same chromatographic behavior and susceptibility to enzymesas zeatin ribotide. The level of butanol-soluble cytokinin inelongating stolon tips was low, while that of water-solublecytokinin was extremely high. Upon swelling of the stolon tips,the former increased greatly as the latter decreased. The resultssuggest that the increased butanol-soluble cytokinin is responsiblefor the subsequent vigorous thickening growth of the stolonsto form tubers and that the water-soluble cytokinin is a temporarystorage form. (Received February 6, 1982; Accepted May 13, 1982)     

Studies on cytokinin-controlled bud formation in moss protonemata

Application of cytokinins to moss protonemata of the proper physiological age causes bud formation on specific cells (caulonema). During the early stages of their development, buds revert to protonemal filaments if the cytokinin has been removed by washing the protonemata. This indicates that the hormone is not acting as a “trigger” but has to be present during a critical period of time until differentiation is stabilized. Autoradiographs of protonemata treated with a labeled cytokinin, benzyladenine-benzyl-7-¹⁴C, show a striking accumulation of the radioactivity in caulonema cells which are in the stage of bud formation, and in the buds themselves. Cells which did not react to the hormone contained very little radioactivity. The accumulation of benzyladenine in the “target cells” may be due to the presence of binding sites which, in turn, may distinguish responding cells from non-responding ones.     

Hormones and Apical Dominance in the Fern Davallia

Lateral buds of the fern Davallia trichomanoides are releasedfrom inhibition by the removal of the main shoot apex. However,auxin is not capable of substituting for the apex in decapitatedshoots nor can auxin in shoot tips be detected by bioassay orextraction and chromatography. Expanding leaves of this speciescontain auxin, but these organs are not responsible for inhibitionof lateral bud growth. The response of lateral buds to an exogenouslyapplied cytokinin does not result in initial bud break. It isconcluded that the hormonal factors known to govern apical dominancein seed plants are not responsible for the regulation of differentialbud expansion in this fern.     

Growth Dynamics and Morphology of Annual Shoots, According to their Architectural Position, in Young Cedrus atlantica (Endl.) Manetti ex Carriere (Pinaceae)

The influence of shoot architectural position on growth andbranching pattern of young Cedrus atlantica (Endl.) Manettiex Carrière trees were studied. Extension growth andtype of axillary products (lateral bud, sylleptic short or longshoots) of annual shoots of increasing branching order (mainstem, branches and branchlets) were recorded weekly during the1993 growing season. Annual final shoot length, duration ofextension, and maximum extension rate decreased with increasingbranching order. Sylleptic axillary shoots occurred only onannual shoots of the main stem and branches and were producedwhen extension rate was at its highest. Differences in growthrate and final length of annual shoots, according to their architecturalposition, were related to differences in the total number anddiversity of types of sylleptic axillary shoots produced. Itis suggested that types and numbers of sylleptic axillary shootsproduced are linked with threshold values for both final lengthand extension rate of the parent shoot. Copyright 1999 Annalsof Botany Company Atlas cedar, extension growth, sylleptic branching, tree architecture, morphology.     

Auxin, Cytokinin and Ethylene Differentially Regulate Specific Developmental States Associated with Shoot Bud Morphogenesis in Leaf Tissues of Mangosteen (Garcinia mangostana L.) Cultured in Vitro

Hormonal regulation of de novo shoot bud formation in leaf explantsof mangosteen has been studied from a developmental perspective.This analysis indicates that at least three discrete, experimentallydistinguishable developmental states, namely, morphogenic competence,caulogenic determination and organ differentiation, were expressedduring shoot bud morphogenesis. The state of morphogenic competencein leaf tissues was expressed maximally between days 10 and12 of leaf development. Competent cells in explants requireda minimum of 6 days of BA treatment (20 µM) to becomecaulogenically determined. Such determined cells would continueshoot organogenesis on medium devoid of growth regulators. Delayingof BA exposure for as short as 2 days caused a dramatic declinein tissue competence. The state of competence and the processof caulogenic determination were adversely affected by IAA,but were insensitive to ethylene or its precursor, ACC. Shootbud differentiation was greatly enhanced by BA, but selectivelydelayed by ethylene. IAA also showed an inhibitory effect onshoot bud differentiation, but not mediated through ethylene.The distinct roles of auxin, cytokinin and ethylene on the regulationof shoot bud development in mangosteen leaf explants have beendiscussed on the basis of the current understanding of the conceptof tissue competence, determination and differentiation. (Received August 12, 1996; Accepted October 31, 1996)     

Comparison of zeatin indoleacetate with zeatin and indoleacetic Acid in the tobacco bioassay

Zeatin indole-3-acetate, 6-[4-(indole-3-acetoxy)-3-methyl-trans-2-butenylamino]purine, is at least as effective as zeatin on a molar basis in satisfying the cytokinin requirement for growth and bud formation in tobacco bioassays. It is less effective than indole-3-acetic acid and is needed as a variable function of the cytokinin concentration for satisfying the optimal requirement of an auxin. Comparisons of the types of growth and yield of tissue obtained with serial concentration of the ester and with equimolar mixtures of its free base and acid indicate that the relative requirement for auxin changes with the concentration of cytokinin and is related to the types of callus growth and differentiation which occur. The results also suggest that the ester serves as a source of auxin only after modification, presumably by hydrolysis to indoleacetic acid.     

Daylength Effects on Growth, Tracheid Development, and Photosynthesis in Seedlings of Picea sitchensis and Pinus sylvestris

Effects of change in daylength on tracheid expansion and tracheidwall thickening are considered in relation to shoot and rootgrowth, assimilation rate, and starch content, in seedlingsof Picea sitchensis and Pinus sylvestris grown in controlledenviroments. Rates of wall thickening decreased in the first tracheids tobegin wall thickening after decrease in daylength. A sharp decreasein starch-grain size at the same time supports previous suggestionsthat wall thickness is related to available substrate; however,rates of assimilation were found to be far greater in shortdays than in long, suggesting that a surplus of carbohydratemay be produced in long days. It is pointed out that if availablesubstrate does limit wall thickening it is likely to determineto al accumulation of wall material; wall material per tracheidwould follow logistically from this depending on the numberof tracheids around the xylem, and wall thickness would dependalso on the radial tracheid diameter. Unexpectedly, rate of shoot growth accelerated after transferto short days before its final cessation with terminal-bud formation.Root growth declined in short days, but later increased againafter terminal bud formation. Rate of root growth did not appearto be associated with tracheid development in the shoot.