Evidence for the involvement of cytokinins in the regulation of proteolytic activity in cotyledons of germinating beans

The proteolytic activity of an extract of cotyledons of Phaseolusvulgaris increased during the first 7 days of germination, bothwhen casein was the substrate and when the endogenous proteinserved as such. The increase was partially dependent on thepresence of the embryo axis. The effect of the axis was replaceableby kinetin or zeatin, but not by gibberellic acid or IAA. During the period of 3–6 days after the beginning of incubation,the level of amino acids in cotyledons attached to the embryoaxis was lower than in detached ones. No such difference couldbe detected in the first 2 days of incubation. On the otherhand, the influence of the axis on protease activity alreadywas clearly detectable on the second day of germination. Applicationof casein hydrolysate to the seeds brought about an increasein the concentration of amino acids in the cotyledons, but nosimultaneous decrease in the protease level could be detected.We concluded that these results do not confirm the hypothesisthat the influence of the axis on proteolytic activity is dueto its function as a sink for amino acids produced in the cotyledons. (Received August 9, 1979; )     

Does osmotic regulation of amylase activity in bean cotyledons exist?

The hypothesis that the promotive effect of the embryo axis of the germinating bean seed on amylase activity in the cotyledons is mediated by an osmoregulative mechanism was examined. After 2 days of germination the action of the axis on amylolytic activity was already clearly revealed, whereas at the same time it did not have any influence on osmotic pressure in the cotyledons. When the axis was attached to one cotyledon during 4 days of incubation, osmotic pressure in the cotyledon was lower than its value in the cotyledons of the intact seedling, whereas amylolytic activity was similar in both treatments. It was concluded that the tested hypothesis is not valid in the case of the bean seedling. External osmotic agents brought about a decrease in the level of amylase in the cotyledons, but this does not prove that osmotic changes which are brought about by production of internal metabolites are involved in the regulation of amylase synthesis.     

A promotive action of kinetin on amylase activity in cotyledons of Phaseolus vulgaris

Kinetin and the embryo axis acted similarly in bringing abouta promotion of amylase activity in cotyledons of Phaseolus vulgaris.No promotive effect of gibberellic acid or indole-3-acetic acidon amylase activity could be detected. It is suggested thatthe regulatory action of the embryo axis on starch degradationin the cotyledons of P. vulgaris is mediated by cytokinins. (Received May 4, 1970; )     

Promotion of radish cotyledon enlargement and reducing sugar content by zeatin and red light

Effects of zeatin on amino acid and sugar contents of detached radish (Raphanus sativus L.) cotyledons were investigated to determine if accumulation of these solutes contributes to cytokinin-enhanced growth. Protein and amino acid levels were not significantly affected, but in cotyledons incubated in light the hormone caused greater accumulations of reducing sugars than occurred in light controls. Continuous fluorescent light or a few minutes of red light increased both the growth rate and the reducing sugar levels compared to dark controls. A far red treatment following red light overcame the promoting effect of the latter. Amounts of reducing sugars were closely associated with growth under the above conditions. Activity of an unidentified amylase was elevated by continuous light or a red light treatment (nullifiable by far red), suggesting that reducing sugars were derived from starch. Zeatin-treated cotyledons exhibited less amylase activity than did light controls, perhaps implicating cytokinin-stimulated conversion of fats to sugars in light. In darkness zeatin promoted cotyledon growth but did not increase sugar levels nor amylase activity, suggesting that enhanced ion accumulation also contributes to the more rapid water uptake leading to growth.     

胚轴对萌发豌豆子叶中淀粉酶活性表达的影响

萌发豌豆的上、下肢轴均能诱导子叶中淀粉酶活性,外源GA和6—BA具有类似胚轴的作用。离体子叶的淀粉酶凝胶电泳只有一条活性极低的酶带,连生子叶中有两条酶带,其中由胚轴诱导新出现了一条活性很高的同工酶带,它的活性受亚胺环己酮的强烈抑制,而受放线菌素D影响不大。推测豌豆子叶中存在淀粉酶的长寿命mRN—A,胚轴和外源激素的作用在于促进mRNA的翻译。     

The Utilization of Cotyledonary Reserves in Phaseolus vulgaris L. cv. Carioca: II. THE EFFECTS OF 6-BENZY LADENINE AND GIBBERELLIC ACID UPON EMBRYONATED AND DETACHED COTYLEDONS

The presence of the embryo axis promotes starch hydrolysis incotyledons of Phaseolus vulgaris and, although reduced ratesof enzyme activity proceed in its absence, weight loss fromthe cotyledon is only significant in its presence. Applicationof gibberellic acid at various concentrations had no effectupon amylase or protease activity in either detached or embryonatedcotyledons: this was not the case for 6-benzyladenine whichpromoted both. In detached cotyledons amylolytic activity wasdirectly proportional to the concentration of applied 6-BA;concentrations below 10^–6 M were unable to completelysubstitute for the presence of the axis, while, above 10^–6M, hydrolytic activity higher than that of treated embryonatedcotyledons was observed. Increasing the concentration of 6-BAhad no effect, however, upon the amylolytic activity of embryonatedcotyledons. Detached cotyledons showed an increased chlorophyllcontent and 6-BA treatment further increased this; the proportionsof chlorophyll a and chlorophyll b remained unaltered. An inhibitor of amylase activity, destroyed by heating, is presentin embryonated cotyledons and can depress amylolysis in detachedcotyledons which appear to be inhibitor-free. The results intotal suggest that the developing axis may regulate reservehydrolysis in three distinct manners: firstly, by stimulatingthe synthesis of amylase via hormonal control, most probablya cytokinin; secondly, by checking the rate of amylolysis bymeans of an amylase inhibitor; and, thirdly, by being a sinkfor the products of reserve degradation.     

Vigna Radiata Seed Germination under Salinity

Salinity reduced mung bean (Vigna radiata Wilczek) radicle and root elongation, delayed and inhibited hypocotyl elongation and mobilization of reserves from the cotyledons to the embryo axis. Fresh and dry masses and water content of the embryo axes were reduced. Under salinity, a net leakage of K to the media increased with time and increasing NaCl concentrations. Sugars present in the cotyledons of seeds were of primary importance for growth of the embryo axis upto 18 h after sowing whereas breakdown of starch by amylase contributed later, the contribution being delayed and reduced with increasing NaCl concentration. Even when amylase activity in the cotyledons was progressively reduced with increasing NaCl concentration, the increasing contents of soluble sugars in the cotyledons indicated that sugars were not limiting for mung bean seedling growth under salinity.     

The influence of the embryonic axis and cytokinins on reserve mobilization in germinating lupin seeds

The influence of the embryonic axis and cytokinins (CKs) onreserve mobilization has been examined in yellow lupin (Lupinusluteus L. cv. JSG 6167) seed during germination and during earlygrowth for up to 9 d in the dark. The study included determinationof starch, soluble sugars, proteins, and amino acid content.Amylolytic and proteolytic enzyme activity was also measuredin untreated cotyledons with intact embryo (attached) or detachedcotyledons (embryo removed), and in detached cotyledons followingtreatment with CKs namely, dihydrozeatin, (diH)Z, and 6-benzylaminopurine,BAP. Generally, the detached cotyledons showed reduced mobilizationand decreased enzymatic activity in comparison to attached cotyledons,indicating the importance of the embryonic axis in this process.However, a rise in protease activity and free amino acid contentwas detected in 9-d-old detached cotyledons suggesting thatthe end products do not necessarily inhibit enzyme activity.While (diH)Z was partially effective in inducing reserve mobilizationand enzymatic activity in detached cotyledons, the effect ofBAP was more pronounced and appeared to replace the embryonicaxis. The embryonic axis of this species has recently been shownto synthesize CKs which are transported to the cotyledons, arehighly stabe and induce cotyledon expansion and chlorophyllsynthesis. The results of the present investigation and previousstudies from this laboratory collectively indicate that theregulation of reserve mobilization in yellow lupin seeds appearsto be mediated, at least in part, by a stimulus, probably aCK, emanating from the embryonic axis. Key words: Lupinus luteus, cytokinins, benzylaminopurine, dihydrozeatin, embryonic axis, lupin seeds, reserve mobilization     

Axial control of cotyledon expansion and chlorophyll formation in germinating lupin seeds

The embryonic axis plays a critical role in inducing expansion and chlorophyll formation in cotyledons of germinating yellow lupin seed, and cytokinins would appear to constitute an important part of the stimulus emanating from the axis. Externally applied cytokinins (6-benzylaminopurine >;>; zeatin >; dihydrozeatin) completely replaced the embryonic axis while gibberellic acid was ineffective. The two optical isomers of dihydrozeatin differed in activity, the unnatural form (R) being more active than the natural form (S). The cotyledons appeared to respond mrkedly to supplied cytokinin only after reaching a certain stage of development (3–5 days after the start of germination), reflecting development of sensitivity to cytokinin or of an ability to utilize the primary response evoked by cytokins.     

Embryonic control of isocitrate lyase activity in cotyledons of germinating soybean

The activity of isocitrate lyase (EC 4.1.3.1) in the cotyledons of germinating soybean is controlled by the embryonic axis. Plant growth regulators like gibberellic acid, indole acetic acid and 2,4-dichlorophenoxy acetic acid are able to increase the enzyme activity in cotyledons of whole seedlings but not in dissected cotyledons. The control of induction of the enzyme activity during germination by the embryo could be mediated by the elaboration of kinetin.     

cytokinin-induced amylolytic activity in bean cotyledons: Identification of the regulated enzyme

Separation of an extract of cotyledons of Phaseolus vulgarison a column of Sephadex G-200 revealed three amylolytic fractions.The slower migrating fraction hydrolyzed/ß-Limit dextrinazure and was inhibited by EDTA. The activity of this fractionwas enhanced by the embryo axis and this effect could be fullyreplaced by kinetin or benzyladenine. These results suggestthat the bean embryo axis exerts a promotive influence on theactivity of a-amylase in the cotyledons and that this effectis mediated by cytokinins. The other two amylolytic fractions did not show a-amylase activity.No effect of the embryo axis or of cytokinins on their activitycould be noted. ¹Present address: The Thimann Laboratories, University of California,Santa Cruz, California, U.S.A. (Received June 27, 1979; )     

Gibberellins and early growth in seedlings of Phaseolus vulgaris

Summary 1. Amounts of gibberellin extractable from young bean seedlings using phosphate buffer, and following acid hydrolysis, or protease treatment, have been examined and compared with those obtained using methanol extraction. 2. Considerable differences in the amounts of gibberellins extractable are found for different batches of material. The level of extracted gibberellin is less for dry seeds and for 1-day old seedlings than for seedlings 4 days old. Before germination, the amounts of free, buffer-soluble, gibberellins are low, but these rise rapidly in the postgermination period. 3. The appearance of large amounts of free gibberellins in the cotyledons, believed to represent the conversion of bound forms, is not dependent upon the presence of the embryonic axis, since removal of this at planting has only a small effect on the amount of gibberellin extractable at day 4. There is evidence for synthesis of new gibberellin in the intact seedling by day 4. 4. amylase activity in the cotyledons also develops in the absence of the embryo, but the high levels of activity shown by intact seedlings are not reached in cotyledons cultured in absence of the embryo.     

Involvement of cytokinins in the germination of chick-pea seeds

Eight cytokinins detected in germinated chick-pea (Cicer arietinum L. var. Castellana) seeds were first present in the embryonic axes but appeared in the cotyledons after 12h of germination. The cytokinins detected in the cotyledons originate in the embryonic axes, but no passage of these substances from the cotyledons to the axes was detected, except when the seeds were treated with red light.It is concluded that the role played by the embryonic axis in mobilizating the main reserves of the cotyledons is mainly effected through these cytokinins. Both natural and synthetic cytokinins exert an important regulatory role in the hydrolysis of reserve proteins and calcium could be involved as an intermediate.Abbreviations BA benzyladenine - cot. cotyledon - (diH)Z dihydrozeatin - (diH)ZR dihydrozeatin riboside - GZR glycosyl zeatin riboside - 2iP 277-1 - iPA 277-2 riboside - Kin kinetin - Z zeatin - ZG zeatin glucoside - ZR zeatin riboside     

Effect of GA3, kinetin and indole acetic acid on carbohydrate metabolism in chickpea seedlings germinating under water stress

Enhanced amylase activity was observed during a 7-day-growth period in the cotyledons of PEG imposed water stressed chickpea seedlings grown in the presence of GA₃ and kinetin, when compared with stressed seedlings. During the first 5 days of seedling growth, the seedlings growing under water deficit conditions as well as those growing in the presence of PGRs had a higher amylase activity in shoots than that of control seedlings. Neither GA₃ nor kinetin increased the amylase activity of roots whereas IAA reduced root amylase activity. Activity of acid and alkaline invertases was maximum in shoots and at a minimum in cotyledons. Compared with alkaline invertase, acid invertase activity was higher in all the tissues. The reduced acid and alkaline invertase activities in shoots of stressed seedlings were enhanced by GA₃ and kinetin. Roots of stressed seedlings had higher alkaline invertase activity and GA₃ and IAA helped in bringing the level near to those in the controls. GA₃ and kinetin increased the sucrose synthase (SS) and sucrose phosphate synthase (SPS) activities in cotyledons of stressed seedlings, whereas they brought the elevated level of SPS of stressed roots to near normal level. The higher level of reducing sugars in the shoots of GA₃ and kinetin treated stressed seedlings could be due to the high acid invertase activity observed in the shoots, and the high level of bound fructose in the cotyledons of stressed seedlings could be due to the high activity of SPS in this tissue.     

Modulation of Reserve Mobilization by Sucrose,Glutamine, and Abscisic Acid During Seedling Establishment in Sunflower

We carried out in vitro feeding experiments using sunflower as a model to differentiate the modulatory effects of metabolites (sucrose and glutamine) and hormones (gibberellic acid and abscisic acid) on reserve mobilization, metabolite partitioning, and key enzyme activities. Exogenous sucrose negatively not only modulated the mobilization of carbon reserves (oils and starch), but it also delayed the degradation of nitrogen reserves (storage proteins) in the cotyledons. Similarly, exogenous glutamine negatively not only modulated storage protein hydrolysis, but it also retarded oil and starch degradation. Different from the metabolites, exogenous abscisic acid affected only the mobilization of oils and storage proteins. Sucrose and glutamine caused non-reducing sugar accumulation in the cotyledons and axis, but abscisic acid did not change the content of these compounds in both seedling parts. Curiously, glutamine failed to cause amino acid accumulation in the cotyledons and abscisic acid increased the amino acid content in both cotyledons and axis. Gibberellic acid did not stimulate reserve mobilization and metabolite consumption. Although the mobilization of oils, storage proteins, and starch has been delayed by sucrose and glutamine, these metabolites augmented the activity of isocitrate lyase, acid proteases, and amylases. Only abscisic acid reduced amylase activity and increased glutamine synthetase activity. Accordingly, sucrose and glutamine exert a “crossed effect” on reserve mobilization, that is, sucrose delays storage protein hydrolysis and glutamine retards oil and starch degradation. These effects may be mediated by non-reducing sugars and they are, at least in part, different from those exerted by abscisic acid.     

Inhibitory effect of polyamines on the activity of endopeptidase in mung bean cotyledons

The activity of cysteine endopeptidase (EP) in the cotyledons of mung bean seeds increased with time after germination. When cotyledons were excised from the embryonic axis in the course of seedling growth, the activity of EP in the excised cotyledon markedly dropped during the following incubation of 1 d. However, the level of EP protein in excised cotyledons, as examined by immunoblotting, was similar to that in axis-attached cotyledons at the corresponding stage. Thus, it seems that the low activity of EP in excised cotyledons is not due to a decrease in the content of EP protein, but due to a loss of the activity of existing EP. Treatment of attached cotyledons with polyamines (PAs; putrescine and spermidine [Spd]) resulted in a decrease in EP activity, while the same PA-treatment brought about little alteration in the level of EP protein. This indicates that PAs somehow produce an inhibitory effect on the activity of EP. Axis-removal resulted in an accumulation of Spd in the cotyledon. The possibility is suggested that PA, especially Spd, is involved in the inhibition of EP activity in excised mung bean cotyledons.     

Amylase Activities in Attached and Excised Cotyledons and in Embryonic Axes of Pisum sativum L.

Amylase activity increased in attached cotyledons of peas, Pisumsativum L. var. Bördi, only during imbibition and remainedalmost constant up to 96 h after germination, but in excisedcotyledons the activity increased slightly at first then markedly.In contrast, the content of the reducing sugars was higher inattached cotyledons than in excised ones. A similar inverserelationship has been found between the concentration of reducingsugars in axes (both attached and excised) and amylase activity. The leakage from intact seeds contained more reducing sugarsthan the leakage from excised cotyledons, whereas the amountof proteins released from the cotyledons was four times greaterduring imbibition. This increase in amylase activity in excisedcotyledons is not thought to be the result of axis excision,but to be the result of the leakage of sugars from the cotyledonsduring incubation. These results suggest that the concentration of reducing sugarsmay be a factor that regulates amylase activity in vivo in boththe cotyledons and axis during the germination of pea seeds. (Received August 4, 1982; Accepted December 14, 1982)     

Histology of Organogenic and Embryogenic Responses in Cotyledons of Somatic Embryos of Quercus Suber L

In cork oak (Quercus suber L.), recurrent embryogenesis is produced in vitro through autoembryony without exogenous plant growth regulators (PGRs); secondary embryos appear on the embryo axis but seldom on cotyledons. Focusing mainly on the histological origin of neoformations, we investigated the influence of the embryo axis and exogenous PGRs on the embryogenic potential of somatic embryo cotyledons. Isolated cotyledons of somatic embryos became necrotic when cultured on PGR-free medium but gave secondary embryos when cultured on media containing benzyladenine and naphthaleneacetic acid. Cotyledons of cork oak somatic embryos are competent to give embryogenic responses. Isolated cotyledons without a petiole showed a lower percentage of embryogenic response than did those with a petiole. In petioles, somatic embryos arose from inner parenchyma tissues following a multicellular budding pattern. Joined to the embryo axis, cotyledons did not show morphogenic responses when cultured on PGR-free medium but revealed budlike and phylloid formations when cultured on medium with PGRs. The different morphogenic behavior displayed by somatic cotyledons indicates an influence of the embryo axis and indicates a relationship between organogenic and embryogenic regeneration pathways.     

Influence of Endogenous Cytokinins on Reverse Mobilization in Cotyledons of Cicer arietinum L: Reproduction of Endogenous Levels of Total Cytokinins, Zeatin, Zeatin Riboside, and Their Corresponding Glucosides

The embryonic axis plays an essential role in the mobilization of the main reserves of the cotyledons of seeds of Cicer arietinum L. cv Castellana. This control by the axis of the metabolism of the storage products of the cotyledons largely takes place through the cytokinins, which are transported from the embryonic axis to the cotyledons where the mobilization of reserves begins. The principal regulatory role of the endogenous cytokinins concerns the metabolism of carbohydrates and proteins; there is less influence on lipid metabolism. However, each cytokinin seems to have a different role in the mobilization processes. The glucosides, glucosyl zeatin riboside, and glucosyl zeatin act only as storage forms of the hormones. Zeatin riboside affects mainly the mobilization of carbohydrates and has less effect on protein mobilization. Zeatin regulates both the mobilization of carbohydrates and that of proteins and is more marked in the latter case.     

Differences in the activity and distribution of peroxidases from three different portions of germinating Brassica oleracea seeds

Peroxidase (POD, EC 1.11.1.7) activity, cellular localization and isozyme patterns were investigated in the seed integument, cotyledon and embryo axis of Brassica oleracea cv. Cappuccio during pregermination and seedling growth. Seeds started to germinate after 24 h of imbibition. POD activity was localized in the pigmented layer of the integument and in procambial strands of the cotyledon and embryo axis in the first 24 h of imbibition. It was localized in the integumental cells of palisade, pigmented and aleurone layers and in epidermal, meristematic, procambial cells and xylem elements of the root and hypocotyl after 48 h of imbibition. POD activity increased during germination and early seedling growth: in the integument, it reached a maximum value after 72 h of imbibition, in the embryo axis and cotyledons, it increased up to 144 h of imbibition. The increase in peroxidase activity was accompanied by the appearance of new isozymes correlated with the development of seedling tissues. The isozyme profile was characterized by nine peroxidases: isoperoxidase of 50 kDa peculiar to integuments, that of 150 kDa to cotyledons and that of 82 kDa to the embryo axis. During pregerminative phase isozymes of 84 kDa were detected in the integument and cotyledons, of 48.5 kDa in the embryo axis. After germination, peroxidase activity and the complexity of the isozyme pattern increased, suggesting that they play a relevant role after rupture of the integument.