Biosynthesis of Xyloglucan in Suspension-cultured Soybean Cells. Evidence that the Enzyme System of Xyloglucan Synthesis does not Contain {beta}-1,4-Glucan 4-{beta}-D-Glucosyltransferase Activity (EC 2.4.1.12)

Xyloglucan 4-ß-D-glucosyltransferase, an enzyme responsiblefor the formation of the xyloglucan backbone, in a particulatepreparation of soybean cells has been compared with ß-1,4-glucan4-ß-D-glucosyltransferase of the same origin. Thefollowing observations indicate that the enzyme system of xyloglucansynthesis does not contain ß-1,4-glucan 4-ß-D-glucosyltransferaseactivity, although both enzymes transfer the glucosyl residuefrom UDP-glucose to form the ß-1,4-glucosidic linkage:1. The incorporation of [¹⁴C]glucose into xyloglucan dependedon the presence of UDP-xylose in the incubation mixture. 2.No measurable amount of radioactivity was incorporated fromUDP-[¹⁴C]xylose into the cello-oligosaccharides, although theincorporation of [¹⁴C]xylose into xyloglucan depended on thepresence of UDP-glucose in the incubation mixture (Hayashi andMatsuda 1981b). 3. The activity of xyloglucan 4-ß-D-glucosyltransferasewas stimulated more strongly by Mn²⁺ than by Mg²⁺, whereas Mg²⁺was the most active stimulator for the activity of ß-1,4-glucan4-ß-D-glucosyltransferase. 4. An addition of GDP-glucose(100 µM) to the incubation mixture inhibited the activityof xyloglucan 4-ß-D-glucosyltransferase by 17%, whereasthe activity of ß-1,4-glucan 4-ß-D-glucosyltransferasewas inhibited 56% under the same conditions. 5. Irpex exo-cellulasedid not hydrolyze the xyloglucan synthesized in vitro. 6. Theß-1,4-glucan synthesized in vitro was not a branchedxyloglucan because it gave no 2,3-di-O-methyl glucose derivativeon methylation analysis. 7. Pulse-chase experiments indicatedthat the ß-1,4-glucan was not transformed into thexyloglucan. The subcellular distribution of the xyloglucan synthase, however,was similar to that of the ß-1,4-glucan synthase (Golgi-located1,4-ß-D-glucan 4-ß-D-glucosyltransferase).Thus, it appears that the latter enzyme is located at a siteclose to xyloglucan synthase and is set aside for the assemblyof these polysaccharides into the plant cell surface. (Received May 21, 1981; Accepted October 13, 1981)     

Glucans in the Cell Walls Regenerated from Vinca rosea Protoplasts

Protoplasts prepared from suspension-cultured Vinca rosea cellswere cultured for 5 days. The cell walls regenerated from theprotoplasts were mainly composed of glucans having 1,3- and1,4-linkages. To investigate the molecular species, these glucanswere separated into four fractions: EDTA (50 mM, pH 4.5)-soluble(fraction E), KOH (24%)- soluble but not precipitatable by neutralizationwith acetic acid (fraction K-S), KOH (24%)-soluble and precipitatableby neutralization with acetic acid (fraction K-P), and KOH (24%)-insoluble(fraction C). By means of sugar composition analysis, methylationanalysis, periodate oxidation and enzymatic digestion, the molecularspecies of the glucans contained in the regenerated cell wallswere deduced to be ß-1,4-glucan (cellulose) and ß-1,3-glucan.Fraction C was mainly composed of ß-1,4-glucan; ß-1,3-glucanwas mainly recovered in fraction K-P. The ß-l,3-glucanwas soluble in dilute alkali solution, but was only slightlysoluble in water. The ß-1,3-glucan had an essentiallyunbranched structure, and its weight average molecular weightestimated by gel permeation chromatography was 4.5–5.0x 10⁴. ¹ Present address: Division of Environmental Biology, NationalInstitute for Environmental Studies, Yatabe, Tsukuba, Ibaraki305, Japan (Received May 21, 1981; Accepted October 13, 1981)     

The Metabolism of Abscisic Acid

The light-catalysed isomerization of (+)-abscisic acid (ABA)to its trans isomer during isolation from leaves was monitoredby the addition of (±)-[2-¹⁴C]ABA to the extraction medium.(+)Trans-abscisic acid (t-ABA) was found to occur naturallyin rose (Rosa arvensis) leaves at 20µg/kg fresh weight;(+)-ABA was present at 594µg/kg. (±)-[2-¹⁴D]Trans-abscisicacid was not isomerized enzymically to ABA in tomato shoots. (±)-Abscisic acid was converted by tomato shoots to awater-soluble neutral product, ‘Metabolite B’, whichwas identified as abscisyl-ß-D-glucopyranoside. When(±)-[2-¹⁴C]trans-abscisic acid in an equimolar mixturewith (±)-[2-¹⁴C}ABA was fed to tomato shoots it was convertedto its glucose ester 10 times faster than was ABA. Trans-abscisyl-ß-D-glucopyrano8ide only was formedfrom (±)-[2-¹⁴C]t-ABA in experiments lasting up to 30h. Glucosyl abscisate was formed slowly from ABA and the freeacid fraction contained an excess of the unnatural (–).ABAas did the ABA released from abscisyl-ß-D-glucopyranosideby alkaline hydrolysis. The (+).ABA appeared to be the solesource of the acidic ‘Metabolite C" previously noted. The concentrations of endogenous (+)-, (+)-[2-¹⁴C]-, and (–)-[2-¹⁴C]ABAremaining as free acid, and also in the hydrolysate of abscisyl-ß-D-glucopyranoside,were measured by the ORD, UV absorption, and scintillation spectrometryof highly purified extracts of ABA from tomato shoots whichhad been supplied with racemic [2-^l4C]ABA.     

Evidence for Several Galactan Synthases in Flax (Linum usitassimum L.) Suspension-Cultured Cells

A membrane fraction from flax cells was able to incorporate[¹⁴C]galactose from UDP-D-[¹⁴C]galactose in vitro. The productsof the reaction, characterized by methylation analysis, consistedof a rß-1,4-galactan (solubilized mainly in water)and a rß-1,3- rß-1,6-galactan (solubilizedmainly in alkali). These results indicated the presence of severalgalactan synthase complexes, as did a profile of the relationshipbetween pH and activity which revealed both a maximum at pH6.5 and a shoulder at pH 8. Moreover, galactan synthase activitieswere found at two densities: 1.125 g cm^–3 (Golgi membranes)and 1.07–1.08 g cm^–3 (corresponding to low-densityvesicles). Partial characterization of one enzymatic system (maximaly activeat pH 8 in the presence of 5 mM MgCl₂) was achieved. The K_mfor UDP-galactose and V_max were 38 µM and 4.5 nmol h^–1(mg protein)^–1, respectively. (Received June 6, 1993; Accepted September 22, 1993)     

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)     

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.     

Purification and Properties of an Extracellular Endo-1,4-r{beta}-Glucanase from Suspension-Cultured Poplar Cells

An endo-1,4-rß-glucanase (EC 3.2.1.4 [EC] ) was purifiedto apparent homogeneity from the culture medium of poplar (Populusalba L.) cells by sequential anion-exchange, hydrophobic, andgel-filtration chromatography. The preparation of extracellularrß-glucanase was homogeneous on SDS-polyacrylamidegel electrophoresis (PAGE) and native PAGE. The molecular weight,as determined by SDS-PAGE was 50,000, whereas that determinedby gel filtration was 40,000. The isoelectric point (pI) was5.5. The purified enzyme catalyzed the endohydrolysis of carboxy-methylcellulosewith a pH optimum of 6.0 and a k_m of 1.0 mg ml^–1. Theenzyme specifically cleaved the 1,4-rß-glucosyl linkagesof carboxymethylcellulose, swollen cellulose, lichenan and xyloglucan,although the last was hydrolyzed more slowly than the othertested substrates. The activity of the endo-1,4-rß-glucanaseincreased up to the early stage of the mid-logarithmic phaseof growth and then decreased rapidly, suggesting that the rß-glucanaseis induced before cell development. (Received April 28, 1993; Accepted July 19, 1993)     

Synthesis of Polysaccharides in Phragmoplasts Isolated from Tobacco BY-2 Cells

Autoradiographic experiments using preparations of isolatedphragmoplast obtained from tobacco cultured cells revealed thatthe radioactivity incorporated into insoluble material fromUDP-[³H]glucose was exclusively present at the cell plate ofisolated phragmoplasts. Most of the radioactivity incorporatedinto isolated phragmoplasts from UDP-[¹⁴C]glucose was solubilizedby 1,3-ß-glucanase and the solubilized radioactivitywas associated only with glucose, indicating that most of theradioactivity was incorporated into 1,3-ß-glucan.In the presence of high concentrations of unlabeled UDP-glucose,isolated phragmoplasts incorporated radioactivity from UDP-[³H]xylose.Most of the radioactivity incorporated into insoluble materialwas present at several sites distributed around the nuclei,while only little was found at the cell plate. (Received October 2, 1991; Accepted February 24, 1992)     

{beta}1,4-Galactosyltransferase activity in B cells detected using a simple ELISA-based assay

Lymphocytic ß1,4-galactosyltransferase (ß1,4-GalTase,EC 2.4.1.38 [EC] ) activity was measured in B cells using a neoglycoprotein,N-acetylglucosamine-phenylisothlocyanate-bovine serum albumin(GlcNAc-pITC-BSA), as an acceptor substrate in a novel enzyme-linkedimmunosorbent assay (ELISA)-based method. This assay provedto be much simpler to use than the lengthy and expensive radiochemicalassays commonly used, and has the additional advantage thatit specifically detects the enzyme mediating transfer via theGalß1,4GlcNAc linkage. A F(ab')₂ antibody againstGalTase was able to specifically inhibit the reaction. Greatersensitivity for ß1,4-GalTase activity was obtainedusing GlcNAc-pITC-BSA as an acceptor substrate rather than ovalbumin.Low levels of ß-galactosidase activity were detectablein lymphocyte cell lysates at acidic pH, although such activitywas not detectable at the neutral pH used in the ß1,4-GalTaseactivity assay. Using this assay with the GlcNAc-pITC-BSA acceptor,similar ß1,4-GalTase activities were observed in CD19⁺B cells from patients with rheumatoid arthritis (RA) to thoseseen in normal control individuals. ELISA ß1,4-galactosyltransferase lymphocyte neoglycoprotein radiochemical     

Biosynthesis of Resin Terpenes in Leaves and Glandular Hairs of Newcastelia viscida

Label from ¹⁴CO₂ and [2-¹⁴C]mevalonic acid was incorporatedinto resin components of Newcastelia viscida. About 25% of thelabel from [2-¹⁴C]MVA was incorporated into resin componentsafter 4 h. Approximately 80% of the label in the resin was ina TLC band coinciding with the major terpenoid components, with60% associated with the major tricyclic diterpene, a pimaradienewhich contributes 15% to the leaf resin dry weight. Experimentswith detached trichomes showed about 0?01% incorporation oflabel from [2-¹⁴C]MVA into pimaradiene, with most of the [abelbeing associated with ß-sitosterol. It is proposedthat the glandular hairs are the sites of terpene resin synthesis,as well as secretion, in this species.     

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.     

Effect of cycloheximide and cordycepin on auxin-induced elongation and {beta}-glucan degradation of noncellulosic polysaccharides of Avena coleoptile cell wall

The effect of cycloheximide (10^–5 M) and cordycepin (10^–4M) used as protein and RNA synthesis inhibitors, respectively,on auxin action in noncellulosic ß-glucan degradationof Avena coleoptile cell wall was investigated. Both depressedauxin-induced ßglucan degradation of the cell wallas well as auxin-induced elongation and cell wall loosening,suggesting that the process of ß-glucan degradationof the cell wall is closely associated with cell wall looseningand that auxin enhances the activity of an enzyme for ß-glucandegradation through de novo synthesis of RNA and protein butnot through activation of the enzyme in situ. Kinetic studywith the inhibitors showed that RNA metabolism involved in ß-glucandegradation was stimulated by auxin treatment of only 15 minwhile a longer lag phase (about 1 hr) existed for the synthesisof the enzyme. (Received December 16, 1978; )     

Xylan Synthase Activity in Isolated Mesophyll Cells of Zinnia elegans during Differentiation to Tracheary Elements

A paniculate fraction obtained from mesophyll cells of Zinniaelegans that were differentiating into tracheary elements exhibitedxylan synthase activity, catalyzing the transfer of ^MC-xylosefrom UDP-D-[U-¹⁴C]-xylose into 1,4-linked xylan. The activityincreased transiently at the same time as thickening of secondarycell walls occurred, a process that is accompanied by the depositionof cellulose, xylan and lignin. (Received August 3, 1990; Accepted December 6, 1990)     

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     

Dioxindole-3-Acetic Acid Conjugates Formation from Indole-3-Acetylaspartic Acid in Vicia Seedlings

When indole-3-acetic acid (IAA) is applied to the cotyledonsof broad bean seedlings (Vicia faba L. cv Chukyo), the majormetabolites found in the roots are 3-(O-ß-glucosyl)-2-indoIone-3-acetylaspartic acid (Glc-DIA-Asp) and 3-hydroxy-2-indolone-3-acetylasparticacid (DIA-Asp). In this report, the metabolic pathway from IAAto the two dioxindole-3-acetic acid (DIA) conjugates was investigatedby using [¹⁴C]IAA, [¹⁴C]DIA, [¹⁴C]indole-3-acetylaspartic acid(IAA-Asp), and [¹⁴C]IAA-[³H]Asp. The precursor of DIA-Asp wasfound to be IAA-Asp but not DIA. Incorporation of the doublelabeled IAA-Asp into the DIA conjugates demonstrated that hydrolysisof IAA-Asp was not involved in the formation of the DIA conjugates.DIA-Asp was further metabolized to Glc-DIA-Asp in the cotyledons,while formation of Glc-DIA-Asp in the roots was very low. Glc-DIA-Aspformed in the cotyledons was transported to the roots. (Received April 21, 1986; Accepted September 10, 1986)     

Formation of L-(+)-Tartaric Acid in Leaves of the Bean, Phaseolus vulgaris L.: Radioisotopic Studies with Putative Precursors

The biosynthetic pathway from D-glucose to L-(+)-tartaric acid(TA) in detached leaves of the bean, Phaseolus vulgaris L.,was studied in three cultivars, two of which were known to containTA and one of which lacked TA, with the aid of several putativeradiolabeled intermediates, namely D-[l-¹⁴C]glucose, D-[6-¹⁴C]glucose,D-[U-¹⁴C]glucose, D-[U-¹⁴C]gluconate, L-[U-¹⁴C]-ascorbic acid,L-[l-^l4C]idonate, D-xylo-5-[U-¹⁴C]hexulosonate, D-xylo-5-[l-¹⁴C]hexulosonate,D-xylo-5-[6-^l4C]hexulosonate and L-[U-^l4C]threonate. D-[U-¹⁴C]Glucoseand D-[U-^l4C]gluconate were converted to TA with low isotopicyield but this yield was further reduced when leaf tissues weresupplied with unlabeled D-gluconate or D-xylo-5-hexulosonate.D-xylo-5-[U-¹⁴C]Hexulosonate and D-xylo-5-[l-¹⁴C]hexulosonatewere good precursors of TA. D-xylo-5-[6-¹⁴C]Hexulosonate didnot furnish ¹⁴C to TA. Addition of a metabolic product of D-xylo-5-hexulosonate(which was labeled by D-xylo-5-[l-¹⁴C]hexulosonate but not byD-xylo-5-[6-¹⁴C]hexulosonate) to leaves labeled with D-xylo-5-[l-¹⁴C]hexulosonatedoubled the incorporation of ¹⁴C into TA. L-[U-¹⁴C]Ascorbicacid, L-[l-¹⁴C]idonate and L-[U-¹⁴C]threonate failed to producelabeled TA. A metabolic scheme to accommodate these observationsis presented. (Received October 21, 1988; Accepted March 29, 1989)     

The Biosynthesis of Abscisic Acid from all-trans-{beta}-Carotene in a Cell-Free System from Citrus sinensis Exocarp

A cell-free system prepared from exocarp of Citrus sinensisfruits converted [¹⁴C]-all-trans-ß-carotene into zeaxanthin,antheraxanthin, violaxanthin and abscisic acid (ABA). ABA wasunequivocally characterized by combined capillary GC-MS. (Received August 3, 1993; Accepted August 6, 1993)     

Involvement of cellulose synthesis in actions of gibberellin and kinetin on cell expansion. Gibberellin-coumarin and kinetin-coumarin interactions on stem elongation

In azuki bean (Azukia angularis = Vignia angularis) epicotylsections, 5 ? 10^–4 M coumarin inhibited the incorporationof radioactivity from [U^–14C]glucose into the cellulosefraction by 35% in the absence of indole-3-acetic acid (IAA)and by 40% in the presence of 1 ? 10^–4 M IAA. There wasno inhibitory effect on the incorporation of radioactivity intothe other fractions. Coumarin at 5 ? 10^–4 M reversed thepromoting effect of 1 ? 10^–5 M gibberellin A₃ (GA) andthe inhibitory effect of 1 ? 10^–5 M kinetin on IAA-inducedelongation of sections with no significant effects on IAA-inducedelongation. Neither GA nor kinetin had any appreciable effectson cellulose synthesis. No inhibition of cellulose syntheiswas observed with 1 ? 10^–3 M colchichine, which has beenreported to have effects similar to those of coumarin on GA-or kinetin-affected stem elongation. Coumarin at 5 ? 10^–4M was ineffectual in breaking up wall microtubules, while adisrupting effect on wall microtubules was clearly demonstratedwith 3 ? 10^–4M colchicine. From these results, the possible involvement of cellulose synthesisin cell expansion controlled by GA or kinetin was suggested. (Received August 3, 1973; )     

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     

Isolation of 1-O-trans-p-Coumaroyl-r{beta}-D-glucopyranose from Sweet Potato Roots and Examination of Its Role in Chlorogenic Acid Biosynthesis

1-O-trans-p-Coumaroyl-rß-D-glucopyranose (p-coumaroyl-D-glucose)was isolated from slices of sweet potato root which had beenincubated with trans-cinnamic acid. Pre-loaded trans-cinnamicacid efficiently trapped the radioactivity from L-[U-¹⁴C]-phenylalanineand reduced its incorporation into chlorogenic acid by 75% ofcontrol values in disks of sweet potato root. In the root diskssupplied with trans-[3-¹⁴C]-cinnamic acid, the radioactivitywas transferred first to trans-cinnamoyl- D-glucose, then top-coumaroyl-D-glucose, and subsequently to chlorogenic acidand isochlorogenic acid. These results support our earlier propositionthat p-coumaroyl-D-glucose is involved in the biosynthesis ofchlorogenic acid as an intermediate adjacent in the pathwayto trans-cinnamoyl-D-glucose in sweet potato roots. (Received April 11, 1988; Accepted August 9, 1988)