Activity of the Pentose Phosphate Pathway and Changes in Nicotinamide Nucleotide Content during Germination of Seeds of Cicer arietinum L.

Changes in the level of nicotinamide nucleotides, rate of ¹⁴CO₂output from [1^–14C] or [6¹⁴ C₆/C₁ ratios, glucose-6-phosphatedehydrogenase, 6-phosphogluconate dehydrogenase, and NAD kinaseactivities were determined during the first 72 h of germinationof seeds of Cicer arietinum L. The level of oxidized and reducedforms of nicotinamide nucleotides, together with the activityof glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase,NAD kinase, and C₆/C₁ ratios, suggest that the pentose phosphatepathway is activated during early germination in cotyledonsof chick pea seeds. The results obtained in embryonic axes seemsto indicate a lower participation of the PP pathway, probablydue to the development of the activity of the glycolytic-TCApathway.     

STUDIES ON THE RE-ASSIMILATION OF RESPIRATORY CO2 IN ILLUMINATED LEAVES

Experiments were performed, using rice, barley and Hydrangealeaves, to examine the re-assimilation of respiratory ¹⁴CO₂while photosynthesis is going on in an open air flow system. It was found that the leaves which had assimilated ¹⁴CO₂ beforehandevolved, when kept under photosynthesizing conditions, threeto four tenths (variable according to plant species and externalconditions) of the amount of ¹⁴CO₂ to be produced in the dark.Such an incomplete re-utilization of ¹⁴CO₂ was observed alsoin spinach leaf homogenate as well as in the leaves which hadpreviously absorbed ¹⁴C-glucose. The ¹⁴CO₂ output in rice leaves was found to be acceleratedby the light of high intensity. A possibility of light stimulationon the respiration was suggested. (Received October 7, 1961; )     

Glycolate Pathway and Serine Synthesis in Relation to CO2 Concentration in Tomato Leaves

Isotopic trapping of the carbon flowing through the glycolatepathway by exogenous glycolate, glycine and L-serine was investigatedduring ¹⁴CO₂ photosynthesis at different CO₂ concentrationsin tomato leaves. L-Serine markedly trapped the carbon flowingfrom ¹⁴CO₂. The amounts of ¹⁴C incorporated into serine decreasedat a high CO₂ concentration, but increased with an increasein the CO₂ concentration in the presence of exogenous serineduring 10-min photosynthesis in ¹⁴CO₂. When ¹⁴CO₂ was fed for5 to 40 sec at 1300 ppm CO₂ to tomato leaves which had beengiven L-serine, an increase in the accumulation of ¹⁴C-serinebegan after 20 sec, and the ¹⁴C-serine molecules formed at 20and 40 sec were labeled uniformly. In the presence of exogenousserine during 10-min photosynthesis in 1300 ppm CO₂, isonicotinicacid hydrazide increased the incorporation of ¹⁴CO₂ into glycinewith a corresponding decrease in the accumulation of ¹⁴C-serine,but it did not inhibit serine accumulation completely; an evidencefor that some serine was formed by a pathway other than theglycolate pathway. The effect of the CO₂ concentration on theglycolate pathway is discussed in terms of serine synthesisin the presence of exogenous serine. (Received June 1, 1981; Accepted September 30, 1981)     

Studies in the Respiratory and Carbohydrate Metabolism of Plant Tissues1: XVI. FURTHER STUDIES OF THE INFLUENCE OF IODOACETATE AS A STIMULANT OF RESPIRATION IN STRAWBERRY LEAVES

Low concentrations of iodoacetate produced large increases inCO₂ output of strawberry leaves which were not completely accountedfor by the observed losses of sugars and starch. No significantchange was observed in RQ in iodoacetate but the values, eitherin water or in iodoacetate, were generally below unity. Thus,in addition to other carbohydrates not estimated in our work,there may also be respiration of protein or organic acids. The increased rate of CO₂, output in iodoacetate was associatedwith rises in pyruvate and oxaloacetate but citrate and -ketoglutarateremained unchanged. The former changes suggested a faster trafficinto the tricarboxylic acid cycle; the content of oxaloacetateappeared to be a close index of the rate of this traffic. Atentative interpretation is given of the anomalous behaviourof citrate and -ketoglutarate in iodoacetate.     

Modulated Degradation of Ribulose Bisphosphate Carboxylase in Leaves on Top-Pruned Shoots of the Mulberry Tree (Morus alba L.)

Yamashita, T. 1987. Modulated degradation of ribulose ftisphosphatecarboxylase in leaves on top-pruned shoots of the mulberry tree(Morus alba L.).—J. exp. Bot. 38: 1957–1964. The effects of pruning shoot tops on the synthesis and degradationof ribulose 1,5–Wsphosphate carboxylase (RuBPCase) inleaves on remaining shoots were investigated in mulberry trees.Leucine labelled with ¹⁴C was fed to leaf discs from field-grownmulberry trees and ¹⁴C incorporation into RuBPCase was examined.Proportion of ¹⁴C in RuBPCase to leucine–¹⁴C absorbedby leaf discs was remarkably lowered by top-pruning, thoughoccasionally a slight increase was observed soon after pruning.Yet RuBPCase content in leaves on top-pruned shoots became progressivelyhigher than that in leaves on intact shoots. Changes in ¹⁴Cin Ru1BPCase in leaves of mulberry saplings previously fed ¹⁴CO₂were followed. Following ¹⁴CO₂ feeding, the attainment of themaximal level of ₁₄C in RuBPCase was retarded by top-pruning.The highest level of ₁₄C in RuBPCase was maintained in leaveson top-pruned shoots but decreased in leaves on intact shoots.Specific radioactivity in RuBPCase continued to increase inleaves on top-pruned shoots even after attaining a maximum levelin the control leaves. These facts suggest that the increasein RuBPCase by top-pruning results from a cessation of its degradationfor the remobilization of nitrogen for newly developing leaveson shoot tops. Key words: RuBP carboxylase, shoot pruning, mulberry (Morus alba)     

Studies in the Respiratory and Carbohydrate Metabolism of Plant Tissues1

Oxygen at pressures of 2 and 3 atmospheres caused an initialincrease in CO₂ output of strawberry leaves followed by a decrease.In oxygen at 2 atmospheres, but not in oxygen at 3 atmospheres,the increase in CO₂ output could be attributed to an increasein glucose-6-phosphate and in fructose diphosphate; in oxygenat 3 atmospheres the increase may be due to an increased accessibilityof substrates and enzymes or to other causes. The decline inCO₂ output in oxygen at both 2 and 3 atmospheres was associatedwith large decreases in glucose-6-phosphate and 3-phosphoglycerate,probably due to a large decrease in adenosine triphosphate relatedto a ‘block’ of the tricarboxylic acid cycle.     

Activity of the Pentose Phosphate and Glycolytic Pathways During Anaerobic Germination of Echinochloa crus-galli (barnyard grass) Seeds

Changes in the activity of key enzymes in glycolysis and theoxidative pentose phosphate pathway were studied in Echinochloacrus-galli (L.) Beauv. var. oryzicola seeds during germinationin air or nitrogen. In addition, the metabolism of specificallylabelled [^I4C]glucose was followed to evaluate the activityof both pathways during anaerobic germination. During the 7 d time period studied there was no difference betweenair and nitrogen in phosphofructokinase activity. Under anaerobicconditions, fructose-1, 6-bisphosphate aldolase increased morethan two-fold in 7 d; whereas in air, it decreased. The activityof the pentose phosphate pathway enzyme, glucose-6-phosphatedehydrogenase, increased under N₂ until day three, when it levelledoff, whilst it continued to increase up to day seven in air. Incubation of Echinochloa seedlings with specifically labelledglucose also resulted in differences between anaerobic- andair-grown seedlings. Labelling of phosphorylated sugars andlipids predominated under N₂; whereas in air, malate and fumaratewere the most heavily labelled compounds. In both air and N₂,there was a greater percentage of label in CO2 from [l-¹⁴C]glucose,while [6-14C] resulted in a greater percentage label in ethanol.These differences were more pronounced under N2, especiallyduring the first 24 h of imbibition, suggesting increased activityof the pentose phosphate pathway. Key words: Echinochloa, Anaerobic metabolism, Oxidative pentose phosphate pathway     

Studies in the Respiratory and Carbohydrate Metabolism of Plant Tissues2

Feeding strawberry and poplar leaves with iodoacetate, arsenite,or fluoride decreased the contents of sucrose and ascorbate.The content of hexose increased in high concentrations of iodoacetatebut decreased in moderate strengths. Iodo-acetate increasedthe rate of CO₂ output and caused a large decrease in phospholipidwith increase of inorganic phosphate. When iodoacetate was fedin nitrogen, CO₂ output did not increase. An explanation of the results is that the sucrose and ascorbateof the cell are mainly confined to the vacuole and that theabove poisons accelerate the leakage of these compounds fromthe vacuole so that they are metabolized more rapidly in thecytoplasm. An additional possibility is that iodoacetate ‘uncouples’oxidative phosphorylation, thereby stimulating respiration andmore rapid metabolism of both sucrose and ascorbate.     

The Effect of Subjecting Peas to Air Enriched with Carbon Dioxide: II. RESPIRATION AND THE METABOLISM OF THE MAJOR ACIDS

Whole peas at about 75 per cent of their maximum fresh weightwere subjected to 5–30 per cent CO₂ in air for periodsof from 1–6 d, then returned to air for a further 1 d.Samples were withdrawn at intervals and organic acids, ^TCO₂and ethanol estimated as well as the rate of respiration. Slicesof cotyledons suspended in water were also subjected to highconcentrations of CO₂ in air for 3 h. The rate of respiration was inhibited progressively by increasein CO₂ content of the tissue. The high internal CO₂ contentof the intact pea causes an inhibition of its rate of respirationby about 25 per cent. Alcohol production commenced at between10 and 15 per cent CO₂ in the ambient gas and slowly increasedin rate up to 37 per cent. The CO₂-air mixtures reduced the content of malate, pyruvateand -oxoglutarate, increased that of succinate and left citrateunaffected. On return to air malate rose rapidly and succinatefell slowly to their original concentrations. During the sameperiod the concentration of PEP fell sharply and after about1 h rose again, whereas oxalacetate showed a reverse response.It is argued that the rapid re-synthesis of malate was by carboxylationof PEP to oxalacetate and that this reaction was stimulatedby a change in pH rather than by the direct effect of the changein concentration of CO₂. In one experiment ¹⁴CO₂ was supplied for 2 h before return toair and the movement of ¹⁴C followed for 6 h. The results supportthe method of re-synthesis of malate proposed.     

Growth of Ryegrass (Lolium perenne L.) Exposed to SO2: II. CHANGES IN THE DISTRIBUTION OF PHOTO ASSIMILATED 14C

Perennial ryegrass (Lolium perenne L.) cv. S23 was exposed to0, 50, and400 µg m– ³ SO₂ for a 29 d period, harvested,and then exposed under the same regime for a further 22 d periodof regrowth. Leaves from plants representing each exposure concentrationwere photosynthetically fed ¹⁴CO₂ for 5 min at the end of eachperiod. A significant increase in photoassimilation of ¹⁴CO₂and retention of ^I4C, concomitant with significant decreasesin [¹⁴C]glycine and [¹⁴C]serine with increasing SO₂ concentration,implied that there was an inhibition of the photorespiratorypathway. At the second harvest, leaves from plants exposed to400 µg m– ³ SO₂ also exhibited significant increasesin [¹⁴C]sucrose and [¹⁴C]fructose.     

Rhythms in respiratory metabolism of Lemna gibba G3 under continuous illumination

Changes in chemical constituents and respiratory metabolismof a long-day duck-weed, Lemna gibba G₃ exposed to continuousillumination after short-day cultivation were investigated.The dry weight to fresh weight ratio was constant during thefirst 72 hr of continuous illumination. pH of the crude extractwas constant at 6.6, but pH of the culture medium was raisedwith the Lemna growth. Titratable acidity decreased after about44 hr, whereas malic acid content increased in 18 hr. Therewere no significant changes in total reducing sugar and pentose.Total protein content and lipid showed rhythmical changes withcycles of 48 hr. O₂-Uptake gave a damped oscillation with cycles of 24 hr. Itwas low in the first half day and high in the second half. ¹⁴CO₂-Outputfrom glucose-l-¹⁴C showed a similar damped oscillation. ¹⁴CO₂-Outputfrom glucose-2-14^C or glucose-6-₁₄C was almost constant. TheC₆/C₂ ratio, then, showed damped oscillation in the reverseway to O₂- uptake between 0.3–0.5, and the C₈/C₂ ratiowas constant at 0.9. Accordingly, the diurnal rhythm of O₂-uptakewas thought to be brought about by variation in activity ofthe pentose-phosphate pathway. Reproduction of glucose-6-phosphateby the pentose-phosphate pathway was presumably limited in amount. Glyceraldehyde-3-phosphate dehydrogenase activity varied diurnally.The activities of NADP-linked and NAD-linked enzymes increasedand decreased, respectively, in the first half day. Variationsin these enzymatic activities are discussed in correlation withrhythmical changes in O₂-uptake and in the C₆/C₁ ratio. Acidphosphatase activity also followed a diurnal variation. No activitiesof alcohol and formic dehydrogenases were found. The activitiesof NADP glucose-6-phosphate dehydrogenase, 6-phosphogluconatedehydrogenase, pyruvic kinase and NADP isocitric dehydrogenasewere high, but showed no rhythmical variation. ¹Presented at the Annual Meeting of the Botanical Society ofJapan, 1966 (Proceedings, p. 46). Adapted from a thesis submittedby the first author (H. M.) in 1967 to the Biological Institute,Nagoya University in partial fulfillment of the requirementsfor the degree of M. S. (Received May 8, 1969; )     

Photosynthetic and light-enhanced dark fixation of 14CO2 from the ambient atmosphere and 14C-bicarbonate infiltrated through vascular bundles in maize leaves

1. The capacity of light-enhanced dark fixation of ¹⁴CO₂ from theambient atmosphere decayed following time-course characteristicsof a first-order reaction (half-life, 1–2 min). The levelof phosphoenolpyruvate in maize leaves under CO₂-free air didnot decrease in the dark subsequent to preillumination. Theseresults indicate that phosphoenolpyruvate carboxylase is activatedin light and quickly inactivated in the following darkness.
2. Removal of oxygen from the atmosphere did not exert any effecton the products of light-enhanced dark fixation of ¹⁴CO₂ providedfrom the atmosphere, the major labeled compounds being malateand aspartate. This confirms that the transfer of carboxyl carbonof C₄-acids to form 3-phosphoglycerate is light-dependent.
3. WhenNaH¹⁴CO₃ solution was vacuum-infiltrated through vasculartissuesof maize leaves, the main initial photosynthetic ¹⁴CO₂fixationproducts were phosphate esters. This indicates thatby thistechnique, ¹⁴CO₂ could be directly provided to the bundlesheathcells, and was fixed via the reductive pentose phosphatecycle.On the other hand, the main initial ¹⁴CO₂-fixation productswere malate and aspartate even when ¹⁴CO₂ was provided throughvascular tissues in the dark immediately following preillumination.The possible regulatory mechanisms underlying the above findingsare discussed.

¹ This work was reported at the 4th International Congress onPhotosynthesis, Reading, September 1977. Request for reprintsshould be addressed to S. Miyachi, Institute of Applied Microbiology,University of Tokyo, Bunkyo-ku, Tokyo 113, Japan ² Present address: Okinawa Branch of Tropical Agriculture ResearchCenter, Ishigaki-shi, Okinawa 907, Japan. (Received October 28, 1977; )     

CHANGES IN ACTIVITY OF DGLUCOSE-6-PHOSPHATE: NADP AND 6-PHOSPHO-D-GLUCONATE: NADP OXIDOREDUCTASES IN RELATION TO LIGNIFICATION OF BAMBOO

D-Glucose-6-phosphate: NADP oxidoreductase (glucose-6-phosphatedehydrogenase; EC 1.1.1.49 [EC] ) and 6-phospho-D-gluconate: NADPoxidoreductase (6-phosphogluconate dehydrogenase; EC 1.1.1.44 [EC] )were found to be present in immature bamboo. Optimal pHs ofthe glucose-6-phosphate- and 6-phosphogluconate dehydrogenaseswere found to be 8.0 and 8.5, respectively. Both enzymes were demonstrated to be NADP-specific and NADPcould not be replaced by NAD. Fructose-6-phosphate was indirectlyutilized after convrsion to glucose-6-phosphate by glucose-6-phosphateisomerase coexisting in the enzyme preparation. Pattern of enzyme activity and of respiratory breakdown of glucose-1-¹⁴Cand glucose-6-¹⁴C were investigated in connection with lignificationof bamboo and discussed in comparison with sugar metabolismof fungi-infected plant tissues. As for the changes in the enzymeactivity with growth of bamboo, it was recognized that therewas a tendency that the activity of both enzymes increased andwas maintained at a certain level even in the aged tissues.In addition there was a drop of the C₆/C₁ ratio toward the tissuesof lower parts containing considerable amount of lignin andthis phenomenon was the same as that observed in pentose phosphatemetabolism of fungi-infected plant tissues. (Received September 5, 1966; )     

Long chain fatty acid synthesis in developing castor bean seeds IV. The synthetic system in proplastids

The proplastid fraction containing no cytosol and mitochondrionwas isolated from developing castor bean endosperm by stepwisesucrose density centrifugation. This fraction possesses thecapacity to synthesize LFAs from [u-14C]sucrose, [u-¹⁴C]-glucose,[u-¹⁴C]G-1-P, [u-¹⁴C]G-6-P, [2-¹⁴C]pyruvate and [1-¹⁴C]acetate.Little was incorporated from [1-¹⁴C]pyruvate into LFAs, butmuch into ¹⁴CO_a. Addition of cytosol to the proplastid fractiondid not enhance the LFA synthesis. From these data, the wholepath from sucrose to LFAs through glycolytic path and pyruvatedecarboxylation seems to be located within the proplastid indeveloping castor bean endosperm. The difference in utilizationof substrates indicates that the rate of LFA synthesis in castorbean proplastids is limited at a step between sucrose and hexosephosphate. In addition, experiments with CO₂ output and LFAsynthesis from [1-¹⁴C]glucose, [6-¹⁴C]glucose and [u-¹⁴C]G-6-Pstrongly suggest that the path flow branches actively throughG-6-P to the pentose phosphate path and little through acetylCoAto the TCA cycle. (Received May 12, 1975; )     

Studies on the effect of certain enzymic poisons on the metabolism of storage organs III. Uptake and utilization of sucrose by radish root slices in presence of iodoacetate

Iodoacetate greatly retarded the uptake of sucrose and slightlyaffected its inversion by radish root slices. Carbohydrate content of the samples decreased substantiallyboth in water and in iodoacetate. Feeding with sucrose led tomarked accumulation of carbohydrates and supplemental additionof iodoacetate induced less accumulation of carbohydrates. Iodoacetate caused exudation of nitrogen fractions into theculture media. Protein synthesis via amino acids seems to beoperative in iodoacetate treated slices. It is also suggestedthat nitrate-N, in presence of sucrose, is converted into peptidesand proteins. Addition of iodoacetate to sucrose media inhibitedthis pathway of protein synthesis. Both sucrose and iodoacetate (4 x 10^–4M) stimulated theCO₂ output whereas 25 x 10^–4M iodoacetate did not changethe CO₂ output when compared with that of controls. Sucroseand iodoacetate (4 x 10^–4 M) when joined together maskedthe accelerating effect of each other. ¹Present address: Department of Botany, Faculty of Science,University of A'in Shams, Abbassia, Cairo, Egypt, U. A. R. (Received November 6, 1968; )     

Isozymes of Glucose-6-phosphate Dehydrogenase and NAD+-malate Dehydrogenase in Shoot-forming Foliar Discs of Tobacco

Discrete pale, meristematic, shoot-forming zones (SF) and green,relatively nondividing, non-shoot-forming zones (NSF) of cellswere obtained from leaf discs of tobacco cultured for 12 dayson a shoot-forming medium. Higher chlorophyll and starch content,increased rates of O₂ evolution and CO₂ fixation in light, andincreased activities of amylases and chloroplastic enzymes suchas ribulose 1,5-bisphosphate carboxylase and NADP⁺-linked glyceraldehyde-3-phosphatedehydrogenase (G3PDH) were characteristic of the cells constitutingNSF. On the other hand, active participation of sucrose hydrolysis,dark-mediated CO₂ incorporation, an oxidative pentose phosphatepathway, glycolysis and mitochondrial complements in shoot formationwere evident from the significantly high activities of phosphoenolpyruvatecarboxylase, invertase, glucose-6-phosphate dehydrogenase (G6PDH),NAD+-G3PDH and NAD+-linked malate dehydrogenase (NAD+-MDH) respectively,in SF cells. Detection of activity of the enzymes by stainingon polyacrylamide gels disclosed synthesis of additional isoenzyme(s)of G6PDH, NAD+-MDH and peroxidase in shoot initiation sites.The much pronounced activity and isozyme groups of G6PDH andNAD+-MDH in the photosynthetically incompetent shoot-formingcells, are considered to increase the carbon budget of the differentiatingcells through non-autotrohpic CO₂ fixation and to supplementreducing power (NADPH) for the organogenetic process which requiresmuch energy. The changes in isozymes of these enzymes, as inthe isoperoxidase system, probably can serve as useful markersof the differentiation process. (Received January 23, 1981; Accepted June 17, 1981)     

RESPIRATORY METABOLISM IN THE PHLOEM, XYLEM AND CAMBIUM OF CARROT ROOT

Comparisons of respiratory metabolism among the phloem, cambiumand xylem of mature carrot root were carried out and the followingresults were obtained. 1) The activity of O₂ uptake on a dry weight basis in the cambiumwas higher than that in the xylem. The phloem showed the lowestactivity. 2) RQ was close to unity in all the three tissues.3) The inhibition rate of O₂ uptake by malonate was considerablyhigh in the three tissues. The highest inhibition was observedin the cambium. 4) In the phloem and xylem the malonic inhibitionrate of ¹⁴CO₂ release from G-U-¹⁴C was not so high as comparedwith that of O₂ uptake. In the cambium, however, those of O₂uptake and ¹⁴CO₂ output were comparable. 5) Malonate treatmentdid not cause any significant change in RQ. 6) The C₆/C₁ ratiowas highest in the cambium and lowest in the phloem. From these it is concluded that the participation of the TCAcycle in respiration is great in all the three tissues of carrotroot, and among the three the cambium has the highest activityof the cycle. As for the PP pathway, the xylem and phloem havea higher activity than the cambium. (Received April 11, 1967; )     

Metabolism of Exogenous Malonate by Coffee Leaf Tissue

When [l-¹⁴C]-malonate was supplied to discs cut from matureleaves of Coffea arabica, ¹⁴CO₂ was released (approximately12% of the total CO₂ respired) and organic acids of the Krebscycle, uronic acids, sugars and amino acids became radioactive.There was no incorporation of MC into either lipids or phenoliccompounds. The formation of glucose from malonate has not beenobserved in other studies with plant tissues. The synthesisof labelled glucose together with an active pentose phosphatepathway that is stimulated by malonate explains the accumulationof radioactive phosphogluconate in the leaf discs. Tentativeproposals are made for pathways to account for the results obtained. Key words: Coffee leaves, Malonate metabolism, Pentose phosphate pathway     

Studies on the Growth in Culture of Plant Cells: XIV. CARBOHYDRATE OXIDATION DURING THE GROWTH OF ACER PSEUDOPLATANUS L. CELLS IN SUSPENSION CULTURE

Marked changes in the activities of the Embden–Meyerhof–Parnas(EMP) pathway and the pentose phosphate pathway occur duringthe progress of growth of sycamore cells in batch suspensionculture. The activities of the two pathways were investigatedby measuring the activities of six EMP pathway and four pentosephosphate pathway enzymes, and by determining the contributionsof ¹⁴C from (1-¹⁴C)- and (6-¹⁴C)-glucose to CO₂. During theearly stages of culture both the EMP pathway and the pentosephosphate pathway make appreciable contributions to carbohydrateoxidation, but following the initiation of cell division, carbohydrateoxidation is predominantly via the EMP pathway. All the enzymesassayed were found to be associated with the soluble fractionof the cells. The regulation of carbohydrate oxidation in sycamorecells and the possible role of the pentose phosphate pathwayin supplying NADPH for biosynthesis are discussed.     

Effects of Carbon Dioxide on Metabolism by the Glycollate Pathway in Leaves

When solutions of [¹⁴C]glycollate, glycine, serine, glycerate,or glucose were supplied to segments of wheat leaves throughtheir cut bases in the light, most of the ¹⁴C was incorporatedinto sucrose in air but in CO₂-free air less sucrose was made.The synthesis of sucrose was decreased because metabolism ofserine was partly blocked. Sucrose synthesis from glucose andglycerate in CO₂-free air was decreased but to a smaller extent;relatively more CO₂ was evolved and serine accumulated. Theeffects of DCMU and light of different wavelengths on metabolismby leaves of L-[U-¹⁴C]serine confirmed that simultaneous photosyntheticassimilation of carbon was necessary for the conversion of serineto sucrose. Of various products of photosynthesis fed exogenouslyto the leaves -keto acids were the most effective in promotingphotosynthesis of sucrose and release of ¹⁴CO₂ from ¹⁴C-labelledserine. This suggests that in CO₂-free air the metabolism ofserine may be limited by a shortage of -keto acid acceptorsfor the amino group. In CO₂-free air added glucose stimulatedproduction of CO₂ and sucrose from D-[U-¹⁴C]- glycerate andno competitive effects were evident even though glucose is convertedrapidly to sucrose under these conditions. In addition to asupply of keto acid, photosynthesis may also provide substratesthat can be degraded and provide energy in the cytoplasm forthe conversion of glycerate to sugar and phosphates and sucrose.