The effects of abscisic Acid on growth and nucleic Acid synthesis in excised embryonic bean axes

Abscisic acid (ABA) is an effective inhibitor of cell elongation in excised embryonic bean axes whether added prior to or after the initiation of cell elongation. Zeatin partially reverses this growth inhibition. ABA inhibits ³²P incorporation into ribosomal RNA, transfer RNA, and DNA but not into the tenaciously bound fraction of elongating axes in a manner resembling 5-fluorouracil, a compound which does not inhibit axis growth. The methylated albumin on kie-selguhr elution profiles of nucleic acids obtained from axes treated with either ABA, 5-fluorouracil, or a combination of the two are similar, and zeatin treatment has little apparent effect on these results. Our results suggest that the inhibition of growth in the axes by ABA is not due to its inhibition of DNA synthesis.     

The Effect of Cycloheximide (Actidione) on Protein and Nucleic Acid Synthesis by Chlorella

Incorporation of ¹⁴C-phenylalanine, ¹⁴C-carbon dioxide, ¹⁴C-glucose,and ¹⁴C-glycine into the protein of Chlorella is inhibited bycycloheximide. A concentration of 2.5 µg per ml inhibitsincorporation by about 80 per cent; increasing the concentrationup to 10 µg per ml does not increase the degree of inhibition.The incorporation of ¹⁴C-adenine into ribonucleic acid (RNA)and deoxyribonucleic acid (DNA), and of ¹⁴C-glucose into polysaccharideis also inhibited. Unlike inhibition of protein synthesis, thatof nucleic acid and polysaccharide synthesis is observed onlyafter some delay. The delay is shortest for DNA synthesis andlongest for polysaccharide synthesis. Inhibition of ¹⁴C-glycineincorporation into DNA and RNA follows a similar pattern tothat obtained with ¹⁴C-adenine but the delay is much shorter.Cycloheximide also inhibits the formation of isocitrate lyasc(isocitrate-glyoxylate lyase, EC 4.1.3.1 [EC] ) when autotrophicallygrown cells are supplied with acetate.     

Effects of ABA on Synthesis of Cell-Wall Polysaccharides in Segments of Etiolated Squash Hypocotyl I. Changes in Incorporation of Glucose and myo-Inositol into Cell-Wall Components

Externally supplied [³H]myo-inositol and [¹⁴C]glucose were incorporatedin cell-wall fractions of segments of etiolated squash hypocotyl.The extent of incorporation of [¹⁴C]glucose into cell-wall fractionswas very much greater than that of [³H]myo-inositol. Radioactivityfrom [¹⁴C]-glucose was effectively incorporated into hemicelluloseB and cellulose fractions and was incorporated uniformly intohexose, pentose and uronic acid residues, but radioactivityfrom [³H]myo-inositol was incorporated predominantly into uronicacid and pentose residues in the pectin and hemicellulose Bfractions. Exogenously applied ABA significantly suppressed the elongationof segments of squash hypocotyl and the incorporation of radioactivityfrom [^l4C]glucose and [³H]myo-inositol into the segments. Furthermore,ABA significantly inhibited the distribution of incorporatedradioactivity from [¹⁴C]glucose into the cellulose fraction,but did not affect distribution into the pectic fraction. Bycontrast, ABA only slightly inhibited the distribution of theincorporated radioactivity from [³H]myo-inositol into the pecticfraction. These results suggest that most of the cell-wall polysaccharidesin segments of squash hypocotyl are synthesized via the UDP-sugarpathway, and that ABA significantly inhibits the synthesis ofcellulose but not the synthesis of pectic polysaccharides whenABA suppresses the elongation of the segments. (Received March 25, 1988; Accepted November 15, 1988)     

Germination of phaseolus vulgaris I. Resumption of axis growth

Growth of the excised axis of Phaseolus vulgaris L. (var. White Marrowfat) begins after a 7-hour incubation in buffer or water at 26°. Growth, as measured by axis elongation or fresh weight increase, is linear for at least 8 hours with a resultant fresh weight increase of approximately 65%. Cell elongation begins 4 or 5 hours prior to cell division and 5 or 6 hours prior to radicle protrusion in the intact seed.

The initiation of axis elongation is apparently dependent on synthesis of RNA and protein. Both actinomycin D and puromycin inhibit the initiation of elongation. Actinomycin I) inhibits the incorporation of ATP-8-C¹⁴ into axis RNA and C¹⁴-leucine into protein, while puromycin inhibits the incorporation of C¹⁴-leucine into axis protein.

The respiratory rate of the axes increases sharply at about the time of initiation of cell elongation. Dinitrophenol initially increases O₂ uptake by the axes, but at the end of 15 hours the rates of O₂ uptake by control or dinitrophenol-treated axes are approximately the same.

     

Metabolism of C1 unit precursors in Neurospora: Effects of media supplements on labelling of nucleic acids and protein

Mycclia of Neurospora crassa wild type (FE SC no. 853), harvestedduring the exponential phase of growth on defined minimal mediaincorporated glycine-2-¹⁴C, serine-3-¹⁴C and formate-¹⁴C intoproteins, DNA and RNA. Supplementing the growth medium with1 mM glycine increased the flow of glycine and formate carboninto these products. In contrast, this supplement decreasedthe incorporation of serine-¹⁴C. When such cultures were preincubatedfor 30 min with adenine, formaldehyde, formate or L-methionine,labelling of the nucleic acids and protein fractions by glycine-2-¹⁴Cwas altered. It is concluded that glycine increases the turnoverof C₁ units in Neurospora, resulting in greater contributionsof the C-2 in nucleic acid and protein synthesis. (Received May 14, 1977; )     

Post-transcriptional Control of Nitrate Reductase Formation in Green Algae

Cycloheximide (2·0 µg ml^–1) inhibits theincorporation of [¹⁴C]phenylalanine and [¹⁴C]adenine into insolublecompounds in Ankistrodesmus braunii. 6-Methylpurine (1·0mM) inhibits only the incorporation of [14C]adenine and it isconcluded that it inhibits RNA synthesis. When ammonium-growncells of Ankistrodesmus or Chlorella are nitrogen-starved orwhen ammonium-grown cells of Dunalitlla are resuspended in nitratemedium, the appearance of nitrate reductase in these organismsis not inhibited by 6-methylpurine. The appearance of nitratereductase activity in Ankistrodesmus or Chlorella is inhibitedby 6-methylpurine when ammonium-grown organisms are preincubatedwith this substance for 1-2 h before nitrogen starvation. Itis concluded that cells growing with ammonium and lacking nitratereductase activity nevertheless contain preformed mRNA for nitratereductase synthesis.     

Metabolic responses to lycorine in plants

Lycorine, an alkaloid found in Amarillidaceae, inhibits growthin higher plants and in yeasts. Lycorine-treated pea internodes,Avena coleoptiles and yeasts revealed a decrease in the amountof both ¹⁴C-leucine incorporated into protein and ³H-uridineincorporated into RNA. The time course of these incorporations,however, shows that the drop in ¹⁴C-leudne incorporated intoprotein appears prior to any inhibitory effect of ³H-uridineincorporation into RNA. Moreover, in lycorine-treated plants,the ascorbic acid/dehydroascorbic acid ratio is lowered. Nevertheless,our data seem to indicate that this latter effect becomes evidentlater than the inhibition of ¹⁴C-leucine incorporation intoprotein. In vitro experiments with a cell-free system showedno inhibitory effect by lycorine on elongation of the polypeptidechain when yeast ribosomes were used. At this point in our experimentalwork, we would venture to suggest that lycorine might affectplant growth by inhibiting protein synthesis at some step whichis not, however, the elongation of the polypeptide chain. ¹This research was supported by contract between the NationalResearch Council of Italy and the University of Bari, Instituteof Botany. (Received November 27, 1972; )     

Adenine and Guanine Salvage in Suspension Cultured Cells of Catharanthus roseus

Changes in the activity of adenine and guanine salvage in nucleotideand nucleic acid synthesis during the growth of Catharanthusroseus were investigated. Incorporation of [8-¹⁴C]adenine intoATP and ADP and that of [8-¹⁴C]guanine into GTP and GDP increasedmarkedly in the lag phase of cell growth and then sharply decreased.The incorporation into RNA from both precursors showed a similarpattern. The role of rapid purine salvage observed in the lagphase of cell growth is discussed. Catharanthus roseus, Madagascar periwinkle, suspension culture cells, purine salvage, adenine, guanine     

Biosynthesis of alicyclic acids from 14C-labeled glucose and erythrose by isolated cells from Vigna angularis leaves

Mesophyll cells isolated enzymatically from Vigna angularisleaves were fed ¹⁴Cglucose or ¹⁴C-erythrose and the time-courseof ¹⁴C incorporation into shikimic and quinic acids was examined.When ¹⁴C-glucose was fed to the cells, the highest radioactivityin quinic acid was observed after 10 hr of incubation, whilethat in shikimic acid was after 14 hr. In the experiment with¹⁴C-erythrose, the radioactivity in shikimic acid rose strikinglyup to the 3rd hour, but ¹⁴C in quinic acid increased graduallyduring the incubation. The incorporation of ¹⁴C into shikimicacid was enhanced when unlabeled shikimic or quinic acid wassupplied to the cells simultaneously with either ¹⁴C-glucoseor ¹⁴G-erythrose, whereas that into quinic acid was not significantlyincreased by these alicyclic acids. The difference in incorporationrate of ¹⁴C into quinic acid from that into shikimic acid wasmore conspicuous in the isolated mesophyll cells than in theepicotyls of V. angularis seedlings. ¹ Present address: Department of Biology, Faculty of Science,Kumamoto University, Kumamoto 860, Japan. (Received September 22, 1978; )     

Relationship between Floret Elongation and Pigment Synthesis in the Flowers of Carthamus tinctorius

Floret elongation and levels of precarthamin were investigatedin freshly collected flowers of Carthamus tinctorius. Accumulationof precarthamin was found to be induced at the early stagesof floret elongation. [U-¹⁴C]Acetate and [U-¹⁴C]phenylalaninewere incorporated into precarthamin in the detached floretsfrom the flower bud. The results suggest that precarthamin issynthesized via the acetate-shikimate pathway. Carthamus tinctorius L, floret elongation, pigment synthesis, precarthamin     

Enhancing effects of CO2 on chloroplast regeneration in glucose-bleached cells of Chlorella protothecoides II. Role of carbamylphosphate in chloroplast regeneration

Levels of the activities of glutamine-dependent carbamylphosphatesynthetase, ornithine-and aspartate-transcabamylase and phosphoenolpyruvatecarboxylase were followed in greening cells of Chlorella prolothecoides.Among the enzymes examined the activity of carbamylphosphatesynthetase was extremely low, especially at the early phaseof greening. Arginine (but not ornithine or aspartate), when administeredto algal cells at the 24th hour of greening, stimulated thesyntheses of RNA, protein and chlorophyll in the subsequentperiod. It also affected the metabolic pathway of the ¹⁴CO₂supplied simultaneously with arginine in the presence of CMU.Arginine produced a decreased incorporation of ¹⁴C into proteinand an increased incorporation into nucleic acid. The mechanismof the action of CO₂ on chloroplast regeneration is discussed.We concluded that chloroplast regeneration in glucose-bleachedcells is limited by the synthesis of carbamylphosphate, especiallyin the early phase of greening. (Received August 19, 1975; )     

PHYSIOLOGICAL AND BIOCHEMICAL CHANGES OF CARROT ROOT CALLUS DURING SUCCESSIVE CULTURES

1. The longer the period of stock culture, the more remarkableis the growth inhibition by 8-azaguanine in callus.
2. Chloramphenicol,5-methyltryptophane and mitomycin C exert greaterinhibitionon growth in CCL than in CCS.
3. Bud formation is inhibited bysome concentrations of chloramphenicolwithout accompanyinginhibition of the growth.
4. Cell size and the contents of RNA,DNA, protein and lipid percell of CCL are greater than thoseof CCS, respectively. Thecontents per cell of RNA and lipidin "mitochondrial fraction"are higher in CCL than in CCS.
5. Incorporationof guanine-8-¹⁴C into RNA of CCS occurs rapidlyin the first12 hr and slows down thereafter, but that in CCL-RNAincreasessteadily for 16 hr. This difference in rate of theincorporationafter 12 hr between CCS and CCL is principallydue to the differencein rate of the incorporation into RNAof nuclear, mitochondrialand soluble fractions.

1. The rate of RNA breakdown in CCL wasnot so great as the rateof synthesis.
2. 8-azaguanine (10^–3and 10^–4M) inhibits incorporationof guanine-8.¹⁴C intoRNA of both CCS and CCL during 14 hr,but thereafter (up to25 hr) it inhibits the incorporation intoCCL-RNA alone leavingthat into CCS-RNA unaffected.

1. In CCL 510^–5M 8.azaguaninedoes not affect total radioactivityincorporated into bulk RNA,but inhibits incorporation intoRNA of "mitochondrial fraction".

(Received December 23, 1964; )     

Effect of malformin on root growth

Malformin induces curvatures, stimulates root hair and lateralroot formation, promotes radial expansion, inhibits elongation,wet and dry weight, cell division and cell wall synthesis inroots of Zea mays, but has no effect on protein synthesis. Thegrowth curves (elongation, wet and dry weight) of Z. mays rootstreated with malformin are cubic. Processes which are involvedin inhibition of elongation are considered the primary causeof root curvatures by malformin. ¹This research was supported by grant GB-7158 from the NationalScience Foundation and grant E-146-F from the American CancerSociety. Journal Paper No. 3536 of the Purdue Agricultural ExperimentStation. ²Present address: Volcani Institute of Agricultural Research,P.O.B. 6, Bet-Dagan, Israel. (Received December 24, 1969; )     

ROLE OF NUCLEIC ACID AND PROTEIN METABOLISM IN THE INITIATION OF GROWTH AT GERMINATION

When dry decotyledonized embryos of Raphanus are supplied withwater, a brief period of water absorption (phase A) is followedby a period of no fresh weight increase (phase B) which lastsfor 8 hr at 30°. In this period, embryos become ready toadvance into the period of fresh weight increase (phase C). When embryos were exposed to various concentrations of thiouracilor actinomycin D solution from 0 hr of water supply, increasesin fresh weight and in RNA content measured at 13 hr were inhibitedin parallel with each other. Chloramphenicol and puromycin inhibitedthe fresh weight increase without affecting the RNA increase.When embryos were exposed to thiouracil or puromycin for 2,4 and 6 hr, beginning at 0 hr of water supply, the start ofphase C delayed 2, 4 and 6 hr, respectively. When these drugswere given after phase B had progressed at least for 2 hr, thedelay of the start of phase C was shorter than the period ofthe drug treatment. If given at the end of phase B, thiouraciland actinomycin D inhibited the incorporation of ¹⁴C-uracilbut not the fresh weight increase, while chloramphenicol andpuromycin inhibited the latter without inhibiting the former. During phase B, protein content per dry weight of embryo didnot increase, but the rate of ¹⁴C-leucine incorporation increasedremarkably to reach the level in phase C. Incorporation of labeledleucine was inhibited if embryos were subjected to thiouracilor actinomycin D action during phase B, but not if the drugswere given when phase B had been completed. Puromycin and chloramphenicolinhibited the incorporation whenever they were given. The increase in respiratory activity during phase B was inhibitedrelatively little by the above mentioned four drugs. In conclusion syntheses of RNA and protein seem to be essentialfor the progress of phases B and C, protein synthesis havinga more direct effect. (Received September 17, 1965; )     

Influence of ethylene on nucleic acid synthesis in etiolated Pisum sativum

Ethylene applied to intact etiolated seedlings of Pisum sativumcv. Alaska inhibits incorporation of ³H-thymidine into DNA insubsequently excised plumular and subapical tissue segmentsbut has no influence on incorporation of ³H-uridine into RNA.The effect on DNA synthesis begins about 2 hr after ethyleneis applied, and intensifies progressively. A similar inhibitionof DNA synthesis occurs when ethylene is applied directly toplumular sections cut from control plants, but not with subapicalsegments under these conditions. Inhibition of DNA synthesisby ethylene is reversed by benzyl adenine in plumular sections.Brief exposure of dark grown seedlings to red light causes asubsequent increase in DNA synthesis in plumular tissue. Thechanges in DNA synthesis in tissues exposed to ethylene, benzyladenine and red light are correlated with the effects of thesetreatments on the mitotic index. (Received March 12, 1973; )     

Effects of Abscisic Acid on Nucleic Acid Synthesis and the Induction of Nitrate Reductase in Lemna polyrhiza

Abscisic acid (ABA) at low concentrations brings about the formationof turions (dormant fronds) in Lemna polyrhiza within 3 to 5days after application. The incorporation of ³H-thymidine intoDNA, separated by polyacrylamide-gel electrophoresis, is inhibitedby 80 to 90 per cent within 1 to 3 h of ABA application. Theincorporation of ¹⁴C-orotate and ³²P into RNA is not inhibiteduntil 3 to 9 h after ABA application, but 70 per cent inhibitionis reached after 24 h on 10^–5 M ABA. There is little inhibitionof ¹⁴C-leucine incorporation into protein until 2 to 3 daysafter application of ABA. The capacity of nitrate to inducenitrate reductase in cultures previously grown on nitrate-freemedium is not affected by ABA even up to 3 days after application.The results are discussed in relation to the mode of actionof ABA.     

Indirect stimulation of protein synthesis by indoleacetic acid in the mung bean hypocotyl

No exact estimation of the amount of radioactive free aminoacids in the cells of the tissue with large size of apparentfree space was possible, since the exact size of the apparentfree space cannot be measured. Furthermore, estimation of thesize of the protein precursor pool, using the method of Hollemanand Key, was not possible in hypocotyl sections of mung bean(Phaseolus mungo L. cv. Black), because of the great differenceover the length of a section in the rate of the incorporationof leucine-¹⁴C into protein. Also, most of the radioactivityin the active pool disappeared within 10 min of the chase periodin the presence or absence of IAA, before the effect of IAAon protein synthesis was shown. Thus, neither can the pulse-chaseexperiment be used to study auxin-induced protein synthesis. IAA stimulated neither the formation of amino acids from acetate-¹⁴C,nor the incorporation of the newly formed amino acids into protein.However, IAA did stimulate both the uptake of sucrose-¹⁴C andpyruvate-¹⁴C into tissue and/or the formation of amino acidsfrom these substances, which resulted in stimulation of theincorporation of these radioactive amino acids into proteins.Enhancement effects of IAA on the rates of amino acid formationand the incorporation of amino acids into protein were of thesame magnitude. These results indicate that radioactive amino acids are spontaneouslyincorporated into proteins without any positive effect by IAA.Furthermore, IAA protects the degradation of some protein fractions.All diis evidence raises questions as to the validity of thehypothesis that auxin promotes protein synthesis. (Received July 17, 1972; )     

Oligomycin-insensitive incorporation of 32P into chloroplast protein by illumination

³²P incorporation into the protein fraction of chloroplast fragmentsby short illumination was investigated under various phosphorylatingconditions. ³²P incorporation was generally accompanied by cyclic and non-cyclicphotophosphorylations and also by formation of a high energyintermediate "X_E". However, the addition of a DPIP-ascorbatecouple caused inhibition of ³²P incorporation, while ATP formationproceeded. Effects of inhibitors and uncouplers of photophosphorylationon the formation of protein-bound ³²P were generally similarto those on ATP formation. AT³²P was not utilized for protein-bound ³²P formation in thedark by chloroplast fragments, but its radioactivity was transferredinto the chloroplast protein fraction in the light. Oligomycininhibited ATP formation but did not inhibit protein-bound ³²Pformation. m-Cl-CCP blocked both reactions. This suggests thatprotein-bound ³²P is not an actual intermediate in the phosphorylativeprocess leading to formation of ATP. It is probably formed ona side pathway from an intermediate of ATP formation. Analyses of protein-bound ³²P after digestion with proteaseand lipase showed that the ³²P incorporated was bound to peptidesin chloroplast lamellae. The possible form of this bound ³²Pis discussed. (Received November 22, 1971; )     

Relationship between Tracheary Element Differentiation and DNA Synthesis in Single Cells Isolated from the Mesophyll of Zinnia elegans--Analysis by Inhibitors of DNA Synthesis

Effects of inhibitors of DNA synthesis on tracheary element(TE) differentiation were investigated in a culture of singlecells isolated from the mesophyll of Zinnia elegans L. cv. Canarybird. In this system, neither mitosis nor replication of thewhole genome during the S phase in the cell cycle is a prerequisitefor TE differentiation [Fukuda and Komamine (1980) Plant Physiol.65: 61, unpublished data]. Fluorouracil (FU), fluorodeoxyuridine(FUdR), mitomycin G (MC), arabinosyl cytosine (ara-C) and aphidicolin,inhibitors of DNA synthesis, prevented the incorporation of[³H]-thymidine into nucleic acid, cell division and cytodifferentiationto TE. However, neither FUdR nor aphidicolin prevented the incorporationof [14C]-leucine into protein. Thymidine reversed the inhibitoryeffect of FUdR when given simultaneously with FUdR. These resultsshow that the inhibitors of DNA synthesis prevent TE differentiationvia blockage of the synthesis of some DNA, although replicationof the whole genome during the S phase is not a prerequisitefor cytodifferentiation. The role of DNA synthesis in TE differentiationis discussed. (Received October 13, 1980; Accepted November 17, 1980)