Azetidine-2-carboxylic Acid and Lily Pollen Tube Elongation

Azetidine-2-carboxylic acid (AZC), which occurs naturally inLiliaceous plants, is reported to be a proline (pro) analoguePlant cell walls contain ‘extensin’, which is richin hydroxyproline (hyp). Peptidyl hyp arises through hydroxylationof peptidyl pro followed by glycosylation (arabinose attachment)of hyp Because AZC replaces peptidyl prolyl residues, it maybe a useful tool for evaluating the significance of hyp-o-arabinoselinkages in cell elongation. Therefore, we determined the effectof AZC on [¹⁴C]pro uptake, incorporation and conversion to wall-bound[¹⁴C]hyp in relation to elongation of lily pollen tubes whosewalls consist, in part, of hyp-containing glycopeptides TheAZC suppressed pollen germination 9–42 per cent (1–10mM) and subsequent tube elongation 40–54 per cent (0·1–1mM without affecting respiration In contrast, similar hyp concentrationswere without effect on tube elongation Whereas uptake of [¹⁴C]prowas 16·5–6·2 per cent of the control at0·1–1 mM AZC, [¹⁴C]leucine uptake was 85–25per cent of the control. Light microscope radioautography revealedfewer silver grains over tubes elongated in 0·1–1mM AZC than in its absence. Incorporation of [¹⁴C]pro into tnchloroaceticacid (TCA)-precipitable cytoplasm was reduced by only 10 percent at 0·01–1 mM but 43 per cent at 10 mM AZCGel filtration of cytoplasm from pollen germinated without AZCbut with [¹⁴C]pro resulted in labelled void volume (V) and threeretarded peaks (RI–III) Incorporation into V and RI wasinhibited at both 0·01 and 1 mM AZC These AZC concentrationsreduced conversion of [¹⁴C]pro to wall-bound hyp by 20 percent However, total incorporation of [¹⁴C]pro into salt-water-purifiedwall fractions was suppressed 47–53 per cent (0·1–1mM AZC). Lilium longiflorum, lily, hydroxyproline, proline, azetidine-2-carboxylic acid, pollen, pollen tube elongation     

Lipid Synthesis and Ultrastructure of the Laticifers of Etiolated Euphorbia lathyris Seedlings

In 6–14-day-old etiolated seedlings of Euphorbia lashyrisa latex triterpene synthesis of 19 µg day^–1 wasrecorded. This production was proportional to stem growth. Laticiferdistribution in the cotyledons and stem was studied. In ultra-thinsections the occurrence of many mitochondria was observed. A¹⁴C-latex triterpene synthesis was measured after ¹⁴C-glucoseand ¹⁴C-sucrose uptake by the cotyledons in which most of the¹⁴C-triterpenes were synthesized. ¹⁴C-incorporation into theselipids from [1^–14C]glucose, [6-¹⁴C]glucose and [3,4^–14points to a glycolytic catabolism of glucose prior to terpenesynthesis. The possible involvement of mitochondria in thissynthesis is discussed. Euphorbia lathyris, triterpene synthesis, laticifer, latex, mitochondria, ultrastructure     

Effect of Inorganic Phosphate on the Biosynthesis of Purine and Pyrimidine Nucleotides in Suspension-Cultured Cells of Catharanthus roseus

The levels of purine and pyrimidine nucleotides in suspensioncultures of Catharanthus roseus were determined 24 h after stationary-phasecells were transferred to fresh complete (‘+Pi’)or phosphate-deficient (‘–Pi’) Murashige-Skoogmedium. The levels of ATP, GTP, UTP and CTP were from approx.3 to 5-fold greater in the cells grown in ‘+Pi’medium than in the cells grown in ‘–Pi’ medium.The levels of almost all other nucleotides were slightly higherin the cells in ‘+Pi’ medium. The rates of de novoand salvage biosynthesis of purine and pyrimidine nucleotideswere estimated from the rates of incorporation of radioactivityfrom [¹⁴C]formate, [2–¹⁴C]glycine, NaH¹⁴CO₃, [6–¹⁴C]orotate,[8–¹⁴C]adenine, [8–¹⁴C]adenosine, [2–¹⁴C]uraciland [2–¹⁴C]uridine. The results indicated that the activityof both the de novo and the salvage pathway was higher in thecells in ‘+Pi’ medium than in the cells in ‘–Pi’medium. The rate of degradation estimated from the rate of releaseof ¹⁴CO₂ from labelled purines and pyrimidines indicated thatdegradation of uridine was significantly reduced in the cellsin ‘+Pi’ medium, but no significant difference wasfound in the degradation of adenine, adenosine and uracil. Thepossible role of Pi in the control of the biosynthesis of nucleotidesand in the degradation of uridine is discussed. Catharanthus roseus, Madagascar periwinkle, suspension culture, inorganic phosphate, nucleotides, purines, pyrimidines, biosynthesis, degradation     

Biosynthesis of Caffeine in Flower Buds of Camellia sinensis

The biosynthesis of purine alkaloids in flower buds of tea plantswas investigated. More than 25% of total radioactivity of [8-¹⁴C]adeninetaken up by stamens isolated from tea flower buds was foundto have been incorporated into purine alkaloids, namely, theobromineand caffeine, 24 h after administration of the labelled compound.Pulse-chase experiments indicated that [8-¹⁴C]adenine takenup by the stamens was converted to adenine nucleotides and subsequentlyincorporated into theobromine and caffeine. Since 5 µMcoformycin, an inhibitor of AMP deaminase, inhibited the incorporationof radioactivity into the purine alkaloids, synthesis of caffeinefrom adenine nucleotides seems to be initiated by the reactionof AMP deaminase. Although most of the radioactivity from [8-¹⁴C]inosinewas recovered as CO₂ and ureides, considerable amounts of radioactivitywere recovered as purine alkaloids. The incorporation of radioactivityfrom [8-¹⁴C]inosine into the purine alkaloids was not affectedby coformycin. The five enzymes involved in synthesis of 5-phosphoribosyl-1-pyrophosphatefrom glucose were present in the stamens and petals of tea flowerbuds. From present and previous results, the pathway for thebiosynthesis of caffeine from adenine nucleotides in flowerbuds of tea is discussed.Copyright 1993, 1999 Academic Press Camellia sinensis, tea, stamen, flower, biosynthesis, purine alkaloids, caffeine, theobromine, adenine nucleotides, nucleotide biosynthesis     

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.     

Isocitrate Lyase from Germinating Soybean Cotyledons: Purification and Characterization

Ruchti, M. and Widmer, F. 1986. Isocitrate lyase from germinatingsoybean cotyledons: purification and characterization.—J.exp. Bot. 37: 1685–1690. Isocitrate lyase (E.C. 4.1.3.1 [EC] ) was purified from the cotyledonsof 7-d-old soybean seedlings. Three molecular forms were detectedwith pi values of 6·46, 6·25 and 6·0. Themain form (pl = 6·46) had an approximate Mr of 130000,a pH optimum of 8·0, a K_m (isocitrate) close to 2·0mol m^–3 and a molecular activity of 615 min ^–1 at25 °C. The purified enzyme is not a glycoprotein and isheat labile. Key words: Isocitrate lyase, soybean     

Polysaccharide Synthesis from GDP-Glucose in Pea Epicotyl Slices

Pea epicotyl slices were incubated with GDP-[¹⁴C]glucose (1µM), and the incorporation of radioactivity into productsinsoluble in hot 0·5 M NaOH was measured. All the radioactivityin the alkali-insoluble product was present as ß-(14)-linkedglucose residues. The following tests suggest that the productwas not cellulose: 88% of it was soluble in hot 4·4 MNaOH, it was shown to be of relatively low molecular weightby gel filtration in cadoxen, and its synthesis was not inhibitedby inhibitors of cellulose synthesis. When non-radioactive GDP-mannose(10 µM) was included in incubation medium, the incorporationcontinued for a longer period, but its initial rate was notincreased. This suggests that the product was a glucomannan.Incubation of pea epicotyl slices with 50 µM GDP-[¹⁴C]glucosehowever, gave products which appeared to include a significantproportion of cellulose: 25% of the product was insoluble inhot 4·4 M NaOH, the incorporation continued up to atleast 90 min of incubation, and the product was of higher molecularweight than that from 1 µM GDP-glucose. The tests describedpermit positive evidence for cellulose biosynthesis in in vitrosystems to be obtained.     

Radiolabelling Studies of Lipids in the Marine Cryptomonad Chroomonas salina in Relation to Fatty Acid Desaturation

Cells of Chroomonas salina were exposed to [¹⁴C]acetate, [^l4C]16:0,[¹⁴C]18:0, [¹⁴C]18:1(n-9), [¹⁴C]18:2(n–6) or [¹⁴C]18:3(n–3)for 1 h and then incubated for 24 h in non-radioactive medium.At the end of the pulse period, non-glycolipid polar lipidscontained the highest proportions of radioactivity incorporatedfrom [¹⁴C]acetate and [¹⁴C]18:3(n–3) whereas with [¹⁴C]16:0,[¹⁴C]18:1 and [¹⁴C]18:2(n–6), triacylglycerols were mosthighly labelled. ¹⁴C-18:0 was recovered mainly as non-esterifiedfatty acid. Monogalactosyldiacylglycerol initially contained17% of label incorporated from [¹⁴C]acetate but less than 3%of that from [¹⁴C]fatty acids. With all substrates, excluding[¹⁴C]18:0, a gradual transfer of label from polar lipids totriacylglycerols was observed during the chase period. Saturatesand monoenes synthesised from [¹⁴C]acetate were mostly transferedfrom phospholipids and glycolipids to neutral lipid withoutfurther desaturation. Most of the incorporated ¹⁴C-fatty acidsremained unchanged and only with [¹⁴C]18:3(n–3) was substantialamounts of label recovered in penta- and hexaenoic fatty acids.The results indicate that, under the conditions of the study,lipid synthesis in the algae was heavily dominated by triacylglycerolformation and that the mechanisms of fatty acid desaturationin this species may differ from those in higher plants. (Received December 10, 1991; Accepted March 6, 1992)     

Carbon-specific phytoplankton growth rates: a comparison of methods

Measurements of biomass and growth rate of two axenic algalcultures were carried out using three different methodologicalapproaches: the specific ¹⁴C-labelling of chlorophyll a, [³H]adenineincorporation into DNA and net organic carbon assimilation.Time-course experiments revealed that the specific activitiesof chlorophyll a were significantly higher than the specificactivity of total algal carbon in six of seven experiments.When the specific activity of chlorophyll a is used to calculatethe carbon biomass and growth rate, the carbon biomass of thealgae will thus be underestimated and the specific growth ratewill be too high. Determination of growth rates from incorporationof [³H]adenine gave lower values than those obtained from netorganic carbon assimilation and from ¹⁴C incorporation intochlorophyll a. Problems with adenine saturation are suggested.When [³H]adenine is used to measure growth rates in dense algalcultures, additions of >1 µM [³H]adenine are oftenrequired to maximally label the extracellular and intracellularadenine pools and hence DNA.     

Rate of Leaf Appearance and Final Number of Leaves in Wheat: Effects of Duration and Rate of Change of Photoperiod

This study was conducted to test the hypothesis that photoperiodor its rate of change significantly affects the rate of leafappearance (RLA) and final number of leaves (FNL) in wheat,as suggested from several time-of-sowing experiments. Two wheatcultivars (Condor and Thatcher) were sown in the field on 2Sep. 1992 at Melbourne (38°S). Photoperiod was extendedartificially to give five treatments up to terminal spikeletinitiation (TS) viz.: natural photoperiod (rate of change ofphotoperiod = 2 min d^-1), two faster rates of change (8·5and 13·3 min d^-1) and two constant photoperiods of 14·0and 15·5 h. After TS, the two constant photoperiods wereextended to 15·0 and 16·5 h, respectively, andtreatments were re-randomised, i.e. some plots received differentphotoperiod regimes before and after TS. The rate of leaf appearance maintained strong linear relationshipswith thermal time. It was greater for Condor [0·012-0·013(°C d)^-1] than for Thatcher [0·011-0·012 (°Cd)^-1] and did not alter during plant development or in responseto the change in photoperiod at TS. Rate of leaf appearanceon the main culm was not influenced by the rate of change ofphotoperiod nor by the average photoperiod. Cultivar and photoperiod significantly affected FNL on the mainculm. Condor produced more leaves than Thatcher under long butnot under short photoperiods. The rate of change of photoperioddid not affect FNL independently of the effect of average photoperiod.Most of the variation in FNL due to photoperiod resulted fromdifferences in duration of leaf initiation. The lack of effects of the photoperiod treatments on RLA contrastwith previous reports of its effects on the rate of phasic developmentfrom seedling emergence to double ridge. Therefore, the numberof visible leaves on the main culm (NL) at double ridge andat TS were not constant. However, NL on the main culm at doubleridge was closely correlated with FNL.Copyright 1994, 1999 AcademicPress Triticum aestivum L., wheat, leaf appearance, phyllochron, photoperiod     

Estimation of the Annual Cost of Kiwifruit Vine Growth and Maintenance

Elemental analysis (for carbon, hydrogen, nitrogen and sulphur)and ash data for kiwifruit [Actinidia deliciosa (A. Chev.) C.F. Liang et A. R. Ferguson var. deliciosa cv. Hayward] stems,leaves and fine roots were used to calculate the specific costs(kg carbohydrate kg^-1 dry matter) of organ synthesis with ammoniacalnitrogen supply. Those costs ranged between 1·19 and1·35 for stems and 1·19 and 1·27 for leaves.The mean annual specific cost for fine roots was 1·17.Seasonal vine growth costs were calculated by multiplying thespecific costs by biomass data for a typical vine. Total costof synthesis was 57·2 kg carbohydrate per vine year^-1,taking fine root turnover as three times per season. Nitratenitrogen supply increased that cost by 6·6% to 61·0kg carbohydrate per vine year^-1. Fruit growth accounted forthe largest proportion of synthetic costs. Vine growth respiration(expressed in terms of carbohydrate equivalents) accounted forapproximately 11·5% of the total cost of synthesis. Maintenancerespiration was estimated to be 5·28, 8·44, 1·90,8·62 and 13·3 kg carbohydrate per organ year^-1for stems, leaves, fruit, above-ground perennial componentsand roots, respectively. Total annual cost of growth and maintenancefor a mature vine was 94·7 and 98·5 kg carbohydrateper vine year^-1 with ammoniacal and nitrate nitrogen supply,respectively. Both values are similar to an estimate of vinephotosynthesis. Maintenance respiration accounted for approximately40% of the total annual cost of vine growth, regardless of theform of nitrogen supplied. Peak carbohydrate demand was duringthe period from 60 to 160 d after budbreak.Copyright 1995, 1999Academic Press Actinidia deliciosa, kiwifruit, carbon economy, growth respiration, maintenance respiration     

Radiolabelling Studies on the Lipid Metabolism in the Marine Brown Alga Dictyopteris membranacea

The lipid metabolism of the marine brown alga D. membranaceawas investigated using [2–¹⁴C]acetate, [1–¹⁴C]myristate,[l–^I4C]oleate and [l–¹⁴C]arachidonate as precursors.On incubation with [2–¹⁴C]acetate, 18:1 and 16:0 werethe main products formed by de novo synthesis and incorporatedinto polar lipids. With all the exogenous substrates used, DGTAwas strongly labelled and the subsequent rapid turnover of radioactivitysuggested a key role for this lipid in the redistribution ofacyl chains and most likely also in the biosynthesis of theeukaryotic galacto-lipids produced in the absence of PC. Inthe glycolipids a continuous accumulation of radioactivity wasobserved with all the substrates used. The labelling kineticsof molecular species of MGDG suggested the desaturation of 18:1to 18:4 and of 20:4 (n-6) to 20:5 (n–3) acids on thislipid. Both PG and PE were primary acceptors of de novo synthesizedfatty acids and exogenous [l–¹⁴C]oleate, but no evidenceexists for a further processing of acyl chains on these lipids.TAG, although strongly labelled with all exogenous [l–¹⁴CJacids,was not labelled when [2–¹⁴C]acetate was used as a precursorindicating the flux of endogenous fatty acids to be differentof that of exogenously supplied fatty acids. (Received November 4, 1997; Accepted February 23, 1998)     

Cytokinins in Germinating Seeds of Phaseolus vulgaris L. III. Transport and Metabolism of 8[14C]t-Zeatin Applied to the Radicle

The application of 8[¹⁴C]t-zeatin to the cotyledons of germinatingbean seeds demonstrated that cytokinins are not readily exportedfrom the cotyledons to the embryonic axis during the early stagesof this process. In the cotyledons the applied zeatin is metabolizedextensively to metabolites which are polar and which occur atR_F 0·2–0·5 on paper chromatograms. Thesemetabolites are stable and are not readily exported from thecotyledons. In contrast the metabolites found at R_F 0–0·2are more readily exported. When exported to the radicles andplumules a large proportion of the translocated metaboliteswere converted to compounds which on paper co-chromatographedwith zeatin. This seems to suggest that the embryonic axis hasthe capacity to synthesize cytokinins and that some of the metabolitesformed during its catabolism can also be used for its synthesis. Phaseolus vulgaris, bean, germination, cytokinins, transport, cotyledons     

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     

Uptake and metabolism of biotin by human peripheral blood mononuclear cells

We studied the uptake of biotin into human peripheral bloodmononuclear cells (PBMC) using[³H]biotin and studiedthe catabolism of biotin in PBMC using[¹⁴C]biotin. Over 30 min, [³H]biotin uptakewas greater at 37°C than at 25°C(K_T = 2.6 ± 0.4 nM, maximal velocity = 2.9 ± 0.2 fmol · 10⁶cells¹ · 30 min¹). Ouabain reduced[³H]biotin uptake to65% of control values, suggesting that biotin uptake is Na-K-ATPasedependent. Unlabeled biotin and biotin analogs reduced the uptake of[³H]biotin to22-70% of control values, suggesting the presence of acompetition for a structurally specific biotin transporter. Whenendocytosis by PBMC was stimulated by various acyl glycerols, [³H]biotin uptake was40-73% of control values; these data are consistent with thehypothesis that stimulated endocytosis reduces biotin transporterdensity on the cell surface. During a 168-h incubation, PBMC did notcatabolize[¹⁴C]biotin.

     

Cytokinin-Mediated Translational Control of Protein Synthesis in Cultured Cells of Glycine max

Polyribosome formation was stimulated by cytokinin treatmentof cultured cells of Glycine max cv. Funk Delicious. When suspensioncultures were given 0·5 µM zeatin after 24 h inculture in medium lacking a cytokinin, a nearly 2-fold increasein the polyribosome/monoribosome ratio occurred over the subsequent3 h. The effect of actinomycin D and of 5-fluorouridine on RNAsynthesis and on the polyribosome/monoribosome ratios of thesecells was examined. Actinomycin D at 5 and 20 µg/ml^–1inhibitedtotal RNA synthesis by 39 and 60%, respectively, as measuredby [³H]uridine incorporation into acid-precipitable material.The degree of inhibition of precursor incorporation into polyribosomalRNA was similar. At 0·1 mM, 5-fluorouridine inhibited[³H]uridine incorporation by 76%, and [³H]guanosine incorporationby 66% into polyribosomal RNA after 3 h of treatment. Fractionationof the polyribosomal RNA by oligo(dT)-cellulose chromatographydemonstrated that low concentrations of both actinomycin D (5µg ml^–1) and 5-fluorouridine (0·1 mM) inhibitedthe synthesis of ribosomal RNA to a greater extent than thepoly(A)-containing fraction of the messenger RNA. Synthesisof the poly(A)-containing RNA was inhibited by 24% with 5µgml^–1 actinomycin D and by 30% with 0·1 mM 5-fluorouridine.At the above concentrations, these two inhibitors reduced thepolyribosome/monoribosome ratio of the cytokinin-deprived cellsover a 3 h period, but they did not prevent cytokinin-inducedpolyribosome formation. These results provide further evidencethat cytokinin regulates polyribosome levels through an effecton protein synthesis at the translational level     

Biosynthesis of Purine Alkaloids in Camellia Plants

The metabolism of [8-¹⁴C]adenine and [8-¹⁴C]hypoxanthine infour species of Camellia plants was investigated in relationto the synthesis of purine alkaloids, caffeine and theobromine.Young leaves of C. sinensis had the ability to synthesize caffeine,but in C. irrawadiensis, these labelled precursors were incorporatedinto theobromine, not caffeine. No synthesis of purine alkaloidscould be detected in C. japonica and C. sasanqua leaves. Conventional"salvage" and degradation pathways of purines were present inall species of Camellia plants examined. ¹ Present address: Research Center, Mitsubishi Chemical IndustriesLtd., 1000 Kamisida-cho, Midori-ku, Yokohama, 227 Japan. (Received September 29, 1986; Accepted January 22, 1987)     

Short-term Products of 14C-acetate Assimilation by Chlorella pyrenoidosa in the Light

The kinetics of ¹⁴C-2-acetate assimilation by Chlorella pyrenoidosain the light were examined. Under aerobic conditions the primaryproduct of acetate assimilation was succinic acid which, afterten seconds, contained over 60 per cent of the ¹⁴C incorporatedby the cells. The percentage of the total ¹⁴C in succinate fellwith time, while that in citrate and glutamate increased. After1800 sec over 60 per cent of ¹⁴C was present in two compounds,glutamic acid and an unknown compound (X). Glucose-6-phosphate,fructose-6-phosphate, phosphoglyceric acid and phosphoenolpyruvicacid became labelled after 60 sec but together never containedmore than one per cent of the total ¹⁴C incorporated. Underanaerobic conditions succinate was still the primary productof acetate assimilation, and the absence of carbon dioxide resultedin a decrease in ¹⁴C incorporation into compound X. The patternof acetate assimilation in acetate grown and acetate adaptedChlorella was very similar to that in photo-autotrophicallygrown Chlorella. In the presence of 10^–6M DCMU, succinicacid was the primary product of acetate assimilation, but therewas an early Incorporation of ¹⁴C into glutamate, aspartate,and malate. 4 x10^–3M MFA did not effect the early incorporationof ¹⁴C into succinic acid, but resulted in accumulation of ¹⁴Cin citrate and a decreased amount in glutamate and in compound X.     

Heat Shock Proteins of Cyanobacterium Anacystis nidulans

Cells of Anacystis nidulans grown at 30°C were incubatedwith ¹⁴C-Chlorella protein hydrolysate at the elevated temperatures(30–55°C) and the effect of heat shock treatment onprotein synthesis was studied. Incubation temperatures higherthan 45°C caused a significant decrease in the incorporationof amino acids into proteins. Further, the heat shock treatmentinduced significant changes in the fluorographic profile ofthe newly synthesized proteins. (Received October 25, 1985; Accepted December 4, 1985)     

The Oxidation of 14C-labelled Glucose by Chlorella vulgaris: 2. The Fate of Radioactive Carbon

Most of the ¹⁴C added as glucose to carbohydrate-starved cellsof Chlorella Vulgaris can be recovered as alcohol-soluble compoundsor as polysaccharide. Only 5–I6 per cent., depending onthe position of ¹⁴C in the glucose supplied, is released ascarbon dioxide. Similar results were obtained with Chlorellapyrenoidosa and Ankistrodesmus. The labelled alcohol-solublecompounds in Chlorella vulgaris include amino-acids, particularlyglutamic acid, aspartic acid, and alanine, and, when glucose-I-¹⁴Cis metabolized, the amount of ¹⁴C recovered in these amino-acidsis about the same as that recovered as carbon dioxide. Degradationof the glucose incorporated into polysaccharide shown that theC₁ and C₆ atoms of glucose rapidly interchange when in the cells.The bearing of these results on attempts to estimate the relativeimportance of different pathways of glucose breakdown is discussed.