Isolation of Smooth Endoplasmic Reticulum and Tonoplast from Mung Bean Hypocotyls (Vigna radiata [L.] Wilczek) Using a Ficoli Gradient and Two-Polymer Phase Partition

A new method for the isolation of smooth endoplasmic reticulumand tonoplast from etiolated mung bean hypocotyls (Vigna radiata[L.] Wilczek) has been developed. After centrifugation in aFicoli density gradient [5.5% (w/w) in 15% (w/w) sucrose] ofa crude microsomal membrane fraction (10,000–156,000?gpellet) which had been prepared and resuspended in buffer systemsthat contained 0.25 M sorbitol, more than 80% of the total amountsof smooth endoplasmic reticulum and tonoplast were co-bandedat the interface between the sample load and the Ficoll layer,while most of the other cellular membranes, including plasmamembrane, Golgi membranes and yellow-colored membrane materials,which were presumably the etioplast envelopes, were sedimentedthrough the Ficoli layer. Smooth endoplasmic reticulum and tonoplastwere separated from each other to a high degree of enrichmentby a subsequent two-polymer phase partitioning. The separationis based on the principle that mung bean tonoplast has a highpartition coefficient for the polyethylene glycol-enriched upperphase and the smooth endoplasmic reticulum has a high partitioncoefficient for the Dextran-enriched lower phase. Assessed interms of degree of contamination by activities of membrane markerenzymes, the isolated smooth endoplasmic reticulum and tonoplastfractions were found to be highly purified. An ATPase sensitiveto neutral detergent and vanadate was found to be specificallyassociated with the smooth endoplasmic reticulum. ¹Contribution No. 3172 from the Institute of Low TemperatureScience (Received April 22, 1988; Accepted September 28, 1988)     

Subcellular localization, of glucosyl transferases involved in lectin glucosylation in Pisum sativum seedlings

Cellular membranes from 4 to 5-days old etiolated pea seedlingswere isolated by isopyenic centrifugation. Marker enzymes wereused to measure the purity of the subcellular fractions. Theformation of dolichy!-P-glucose and of glucosylated lectin wastested in all the fractions. Both activities were associatedwith the endoplasmic reticulum fractions. When the membraneswere prepared in the presence of EDTA, a shift in both activitiesto a lower density in the gradient was observed. These results are in agreement with the current assumption thatglycosylation of proteins via lipid-linked sugars is a cotranslationalprocess. ¹ Present address: Centra de Investigaciones Agron?micas, INTA,C.C. 25, Castelar, Argentina. ² Present address: Department of Biochemistry, University ofMiami, P. O. Box 016129, Miami, FL 33101, U.S.A. ³ To whom correspondence should be addressed. Present address:Instituto de Investigaciones Biologicas, Universidad Nac. deMar del Plata, C. C. 1348, 7600 Mar del Plata, Argentina. (Received April 24, 1979; )     

Studies on chilling injury in plant cells I. Ultrastructural changes associated with chilling injury in callus tissues of Cornus stolonifera

This study was designed to elucidate the primary ultrastructuralchanges associated with chilling injury of cultured cells ofCornus stolonifera (TK-1). The cultured cells suffered seriousinjury after exposure to 0?C for longer than 24 hr, while noinjury was observed with less than 12 hr of treatment. Earlyultrastructural responses to chilling treatment were detectedin proplastids and the rough endoplasmic reticulum within 12hr of treatment. A remarkable ultrastructural change in thetonoplast, i.e., invagination, infolding and partial disruption,became apparent in the 24-hr stage of chilling treatment. Novisible change, however, was observed in mitochondria, nucleiand plasma membranes within 24 hr. Upon exposure to 0?C for48 hr, an abrupt degradation proceeded in the cytoplasm. Thesequential ultrastructural changes observed in cell organdies,especially proplastids, rough endoplasmic reticulum and thetonoplast, were closely related to the degradation of the cellscaused by chilling treatment. ¹ Contribution No. 1840 from the Institute of Low TemperatureScience, Hokkaido University. ² This work was supported in part by Grant 248004 from the Ministryof Education. (Received September 8, 1977; )     

In Vitro Localization of Hydroxyproline O-Glycosyl Transferases in Chlamydomonas reinhardii

The intracellular location of the two major O-glycosylatingenzymes (hydroxyproline-arabinosyl and -galactosyl transferases)involved in the synthesis of the cell wall glycoproteins ofChlamydomonas reinhardii was determined by isopycnic sucrosedensity gradient centrifugation. A comparison of gradients preparedunder low and high Mg²⁺-conditions has enabled us to clearlyallocate the galactosyl transferase to membranes of the Golgiapparatus. In contrast, the membranes which bear the arabinosyltransferase respond to a change in Mg²⁺-concentration in justthe same way as the endoplasmic reticulum does. Analysis ofthe product formed in vitro from UDP-[¹⁴C]arabinose and microsomalmembranes has confirmed the synthesis of an arabinose-containinghydroxyproline-rich glycoprotein. Our results indicate thatwhilst the Golgi apparatus is responsible for some of the glycosylationreactions in hydroxyproline-rich glycoprotein biosynthesis anappreciable portion of the arabinosylation is accomplished whilethe polypeptide is still in the lumen of the endoplasmic reticulum. ³This paper is dedicated to Professor Lothar Jaenicke on theoccasion of his 65th birthday. (Received July 2, 1988; Accepted March 8, 1989)     

Synthesis and deposition of zein in protein bodies of maize endosperm

The origin of protein bodies in maize (Zea mays L.) endosperm was investigated to determine whether they are formed as highly differentiated organelles or as protein deposits within the rough endoplasmic reticulum. Electron microscopy of developing maize endosperm cells showed that membranes surrounding protein bodies were continuous with rough endoplasmic reticulum membranes. Membranes of protein bodies and rough endoplasmic reticulum both contained cytochrome c reductase activity indicating a similarity between these membranes. Furthermore, the proportion of alcohol-soluble protein synthesized by polyribosomes isolated from protein body or rough endoplasmic reticulum membranes was similar, and the alcohol-soluble or -insoluble proteins showed identical [¹⁴C]leucine labeling. These results demonstrated that protein bodies form simply as deposits within the rough endoplasmic reticulum.

Messenger RNA that directed synthesis of only the smaller molecular weight zein subunit was separated from mRNA that synthesized both subunits by sucrose gradient centrifugation. This result demonstrated that separate but similar sized mRNAs synthesize the major zein components. In vitro translation products of purified mRNAs or polyribosomes were approximately 2,000 daltons larger than native zein proteins, suggesting that the proteins are synthesized as zein precursors. When intact rough endoplasmic reticulum was placed in the in vitro protein synthesis system, proteins corresponding in molecular weight to the native zein proteins were obtained.

     

Novel lectins in the endoplasmic reticulum of wheat germ and their possible role

Novel lectins were isolated from the endoplasmic reticulum fractionof wheat germ by affinity chromatography. Their binding specificitywas similar to that of concanavalin A. However, the lectinsdid not cross-react with the antiserum against concanavalinA. Gel filtration indicated that there were at least two kindsof lectin molecules, one with molecular weight about 4,300 daltonsand the other with more than 300,000 daltons. By the differencein their binding specificity and molecular weights, the lectinsare distinguished from wheat germ agglutinin. Their possiblerole in the binding of ribosomes to endoplasmic reticulum isdiscussed. ¹ This work was reported at the Annual Meeting of the JapaneseSociety of Plant Physiologists (1978)(18). (Received April 10, 1978; )     

Collapse of Peroxide-Scavenging Systems in Apple Flower-Buds Associated with Freezing Injury

Changes in the metabolic activities of peroxide-producing systemsand peroxide-scavenging systems after freezing and thawing inflower buds of the apple, Malus pumila Mill., were studied withspecial reference to freezing injury. In flower buds of the‘McIntosh’ apple that were frozen below lethal temperatures,the activity of NADH-Cyt c reductase (EC 1.6.99.3 [EC] ), one of theenzymes in the electron-transport chains that are related tothe peroxide-producing systems, decreased slightly, while thatof Cyt c oxidase (EC 1.9.3.1 [EC] ) hardly changed. By contrast, theactivities of glucose-6-phosphate dehydrogenase (EC 1.1.1.49 [EC] ),dehydroascorbate reductase (EC 1.8.5.1 [EC] ) and ascorbate peroxidase(EC 1.11.1.11 [EC] ), which are involved in the peroxide-scavengingsystems, decreased to very low levels. The activity of glyceraldehyde-3-phosphatedehydrogenase (EC 1.2.1.12 [EC] ) also decreased markedly. However,little change was observed in the activities of hexokinase (EC2.7.1.1 [EC] ), glucosephosphate isomerase (EC 5.3.1.9 [EC] ), glutathionereductase (EC 1.6.4.2 [EC] ) and glutathione peroxidase (EC 1.11.1.9 [EC] ).Examination of substrates involved in the peroxide-scavengingsystems revealed that the levels of glucose-6-phosphate andfructoses-phosphate decreased to approximately 10^–4 to10^–5 M and 10^–5 M, respectively, and the levelsof GSH decreased to about 10^–5 M or became barely detectable.A decrease in the levels of GSSG also occurred while levelsof ascorbate rose slightly. Similar results were observed withflower buds from ‘Starking Delicious’ and ‘Jonathan’apple trees. These results suggest that the freezing injury to apple flower-budsis closely related to the collapse of the peroxide-scavengingsystems that are coupled with the pentose phosphate cycle. Theresults also suggest that the dysfunction of these peroxide-scavengingsystems is caused by H₂O₂, which may be produced during freezingand thawing. (Received March 14, 1992; Accepted June 5, 1992)     

Structure of the Gene for an Auxin-Binding Protein and a Gene for 7SL RNA from Arabidopsis thaliana

A genomic clone encoding an auxin-binding protein (ABP) fromthe endoplasmic reticulum was isolated from Arabidopsis thaliana.The ABP gene consisted of 5 exons and 4 introns and encodeda polypeptide of 198 residues. A gene encoding the 7SL RNA ofthe signal recognition particle was located downstream of theABP gene. ⁴Recipient of a scholarship from the National Education Commission,People's Republic of China.     

Effect of shade treatment on biosynthesis of catechins in tea plants

When tea plants were shaded with black lawn cloth for severaldays in the field, the accumulations of (—)-epicatechin,(—)-epicatechin-3-gallate, (—)-epigallocatechinand (—)-epigallocatechin-3-gallate decreased in newlydeveloping tea shoots. Radioactive tracer studies showed thatthe conversions of glucose-U-¹⁴C, shikimic acid-G-¹⁴C and phenylalanine-U-¹⁴Cinto (—)-epicatechin and (—)-epigallocatechin moietieswere depressed by the shade treatment for tea plants but theincorporation of trans-cinnamic acid-3-¹⁴C was not affected.The treatment was found to have no significant effect on theactivities of phospho-2-keto-3-deoxy-heptonate. aldolase (EC.4.1.2.15 [EC] ), 3-dehydroquinate synthase (EC. 4.6.1.3 [EC] ), 3-dehydroquinatedehydratase (EC. 4.2.1.10 [EC] ), shikimate dehydrogenase (EC. 1.1.1.25 [EC] )and trans-cinnamate 4-monooxygenase (EC. 1.14.13.11 [EC] ) in theshoots, whereas the activity of phenylalanine ammonia-lyase(EC. 4.3.1.5 [EC] ) clearly decreased. (Received March 17, 1980; )     

Studies on chilling injury in plant cells II. Ultrastructural changes in cells rewarmed at 26?C after chilling treatment

Both the restoration and deterioration of ultrastructures wereobserved during therewarming of cultured cells of Cornus stoloniferain which chilling at 0?C had caused an apparent change in themorphology of the organelles. Complete restoration of the ultrastructures,moderately altered by the 12-hr chilling, took place within12 hr of wanning at 26?C. Even in cells chilled for 24 hr, severelyaltered ultrastructures were partially or completely repairedin more than fifty percent of the treated cells. Some cellschilled for 24 hr, however, displayed further deteriorationof their ultrastructures during rewarming. Restoration of therough endoplasmic reticulum and the development of polysomesin recovering cells were characteristic of the early stage ofrewarming. Rupture of the tonoplast was sometimes observed duringrewarming of cells chilled for 24 hr. A possible role for therough endoplasmic reticulum and for the integrity of the tonoplastin cell recovery during the chill-warm sequence is discussed. ¹Contribution No. 2026 from the Institute of Low TemperatureScience, Hokkaido University. ²This work was supported in part by Grant 248004 from the Ministryof Education. (Received November 6, 1978; )     

Comparison of Enzymes Involved in Carbon and Nitrogen Metabolism in Normal Nodules and Ineffective Nodules Induced by a Pea Mutant E135 (sym 13)

Activities of enzymes involved in carbon and nitrogen metabolismwere examined in nodules of normal pea (Pisum sativum L. cv.Sparkle) and an ineffective plant mutant E135 (sym 13). Specificactivities of some enzymes were lower in ineffective nodulesthan in effective nodules. However, there were no major differencesbetween respective bacteroid fractions. ¹Present address: Department of Life Science, Aichi Universityof Education, Kariya, Aichi, 448 Japan     

Changes in the Cytochrome c Oxidase Activity in Response to Light Regime for Photosynthesis Observed with the Cyanophyte Synechocystis PCC 6714

Changes in the activity of cytochrome c oxidase (EC 1.9.3.1 [EC] ,Cyt-oxidase) in response to growth conditions were studied withthe cyanophyte Synechocystis PCC 6714 in relation to changesin PSI abundance induced by light regime for photosynthesis.The activity was determined with the V_max of mammalian cytochromec oxidation by isolated membranes. The activity of glucose-6-phosphate(G-6-P):NADP⁺ oxidoreductase (EC 1.1.1.49 [EC] ) was also determinedsupplementarily. Cyt-oxidase activity was enhanced by glucoseadded to the medium even when cell growth maintained mainlyby oxygenic photosynthesis. G-6-P:NADP⁺ oxidoreductase was alsoactivated by glucose. The enhanced level of Cyt-oxidase washigher under PSII light, which causes high PSI abundance, thanthat under PSI light, which causes low PSI abundance. The levelwas intermediate under hetetrotrophic conditions. Although theactivity level was low in cells grown under autotrophic conditions,the level was again lower in cells grown under PSI light thanunder PSII light. The change of Cyt-oxidase activity in responseto light regime occurred in the same direction as that for thevariation of PSI abundance. Results suggest that in SynechocystisPCC 6714, the capacity of electron turnover at the two terminalcomponents of thylakoid electron transport system, Cyt-oxidaseand PSI, changes in parallel with each other in response tothe state of thylakoid electron transport system. ¹Present address: Institute of Botany, Academia Sinica, Beijing100044, China ²Present address: Department of Botany, Utkal University, Bhubaneswar,India 751004     

Three Size Classes of Higher Plant DNA-Like RNA Grouped by MAK Column Chromatography IV. Molecular Size of Rapidly Labeled RNA Binding Tightly to MAK Columns

Rapidly labeled, eukaryotic RNA which binds tenaciously to anMAK column (TB-RNA) has been reported to be of small size. However,the binding ability of broad bean shoot TB-RNA, previously fractionatedon a sucrose density gradient, indicated that TB-RNA in situis a large molecule with a sedimentation coefficient from 25to 45 S, and is indistinguishable from DNA-like RNA of highmolecular weight (D-RNA). Degradation of RNA during elutionfrom the column with a detergent was indicated. ¹ Present address: Aichi Cancer Research Center, Nagoya 464,Japan. (Received February 25, 1981; Accepted June 30, 1981)     

Activation Energies of Reactions Catalyzed by the Nitrate Reductase from Chlorella vulgaris

The thermal dependence of two of the reactions catalyzed bythe nitrate reductase from Chlorella vulgaris was determined.The activation energies for NADH:nitrate oxidoreductase (EC1.6.6.1 [EC] ) and NADH:Cytochrome c oxidoreductase (EC 1.6.99.3 [EC] )are 42.1 kJ?mol^–1 and 21.5 kJ?mol^–1, respectively.Since the thermal dependency of the two enzymes is different,ratios of the activities will vary with temperature. The importanceof both rigorous thermal control during nitrate reductase assaysas well as the need to specify the temperature at which theratio of activities for the enzyme are clearly established. ¹Present Address: Cropping Systems Research Laboratory, USDA-ARS,Route 3, Box 215, Lubbock, TX 79401, U.S.A. (Received November 25, 1987; Accepted March 2, 1988)     

Properties of S-adenosyl-L-methionine-magnesium-protoporphyrin IX methyltransferase from barley

S-Adenosyl-L-methionine-magnesium-protoporphyrin IX methyltransferase(EC 2.1.1.11 [EC] ) is present in greening barley seedlings associatedwith the particulate fraction. This enzyme was purified 20 foldusing protamine and ammonium sulfate precipitation. The enzymewas active over a wide pH range with highest activity at pH7.5. The Km values for Mg-protoporphyrin IX and S-adenosylmethioninewere 48 and 39 µM, respectively; S-adenosylethionine andS-adenosyihomocysteine were competitive inhibitors with respectto S-adenosylmethionine; hemin inhibition was non-competitivewith respect to Mg-protoporphyrin IX; thiol compounds exhibiteda stimulatory effect on enzyme activity. The properties of theenzyme are discussed and compared with the enzyme from otherorganisms. ¹ This research was supported in part by the Utah State AgriculturalExperiment Station. ² Present address: Department of Chemistry, Boston University,Boston, Massachusetts, U. S. A. ³ Present address: Department of Biochemistry and Microbiology,Faculty of Pharmacy, Comenius University, Bratislava, Czechoslovakia. (Received February 20, 1978; )     

Characterization of membrane-bound electron transport enzymes from castor bean glyoxysomes and endoplasmic reticulum

Membranes purified from castor bean endosperm glyoxysomes by washing with sodium carbonate exhibited integral NADH:ferricyanide and NADH:cytochrome c reductase activities. The enzyme activities could not be attributed to contamination by other endomembranes. Purified endoplasmic reticulum membranes also contained the redox activities; and marker enzyme analysis indicated minimum cross contamination between glyoxysomal and endoplasmic reticulum fractions. The glyoxysomal redox activities were optimally solubilized at detergent to protein ratios (weight to weight) of 10 (Triton X-100), 50 (3-[3-cholamidopropyl)-dimethylammonio]-1-propanesulfonate), and 100 (octylglucoside). Detergent in excess of the solubilization optimum was stimulatory to NADH:ferricyanide reductase and inhibitory to NADH:cytochrome c reductase. Endoplasmic reticulum redox activity solubilization profiles were similar to those obtained for glyoxysomal enzymes using Triton X-100. Purification of the glyoxysomal and endoplasmic reticulum NADH:ferricyanide reductases was accomplished using dye-ligand affinity chromatography on Cibacron blue 3GA agarose. Sodium dodecyl sulfate-polyacrylamide gel electrophoretic analysis of NADH:ferricyanide reductase preparations purified by rate-zonal density gradient centrifugation, affinity chromatography, and nondenaturing electrophoresis of detergent-solubilized glyoxysomal and endoplasmic reticulum membranes consistently displayed 32- and 33-kDa silver-stained polypeptide bands, respectively.     

Plastid Development in Primary Leaves of Phaseolus vulgaris: THE EFFECTS OF BRIEF FLASHES OF LIGHT ON DARK-GROWN PLANTS

Exposure of dark-grown beans to 1 ms flashes of light (2 ? 10¹⁴quanta/cm²/flash) at 15-min intervals induced growth of theprimary leaves as shown by increases in fresh weight, dry weight,and total protein. Effects of the flashes on plastid size andfine structure were not obvious until leaf growth was more thanhalf completed, when the prolamellar bodies became consumedand thylakoids were formed. Leaf samples taken after 638 and922 flashes contained some mesophyll cells with plastids ofabnormal appearance which had structures resembling stromacentrefibrils. Flashes of light increased both the chlorophyll content of theleaves and the activities seven enzymes of the photosyntheticcarbon cycle and of NAD-linked triosephosphate dehydrogenase(EC 1.2.1.12 [EC] ), these changes being correlated with leaf growthrather than the plastid changes detected by electron microscopy.There was only a small increase in the activity of phosphoribulokinase(EC 2.7.1.19 [EC] ) and no change in the activity of phosphopyruvatecarboxylase (EC 4.1.1.31 [EC] ).     

Intracellular localization of enzymes related to photorespiration in green leaves

Localization in green leaves of glycine decarboxylase and serinehydroxymethyltransferase (EC 2.1.2.1 [EC] ) was investigated. Subcellularpreparations of green leaves were fractionated by non-linearsucrose isopicnic centrifugation of 2.5 to 1.3 M at 74,700 xor 1.8 to 0.6M at 11,800xg and by centrifugation in non-aqueousmedia. Glycine decarboxylase was located in mitochondria andserine hydroxymethyltransferase was principally located in mitochondriaand partly in chloroplasts. Chloroplastic serine hydroxymethyltransferaseis thought to be responsible for glycine formation from serinederived from photosynthesized 3-phosphoglycerate. A scheme forglycolate metabolism and photorespiration is presented. ¹ A part of this work was presented at the Annual Meeding (April,1969) of the Japanese Society of Plant Physiologists, Kanazawa. ² Department of Biochemistry, Michigan State University, EastLansing, Michigan 48823, U.S.A. (Received August 3, 1970; )     

Effects of Some Growth Regulators on Polyamine Biosynthetic Enzymes in Etiolated Pea Seedlings

This study was designed to examine possible links between polyaminebiosynthesis and effects of growth regulatory compounds. Anauxin (IAA), a cytokinin [benzyladenine; benzylaminopurine (BAP)],an ethylene source (ethephon) and abscisic acid (ABA) were individuallyapplied to terminal buds of excised etiolated or red light (R)-exposedpea epicotyls. Effects were noted on bud fresh weight and onthe two main enzymes of putrescine biosynthesis, arginine decarboxylase(ADC; EC 4.1.1.19 [EC] ) and ornithine decarboxylase (ODC; EC 4.1.1.17 [EC] ).As previously reported [Dai and Galston (1981) Plant Physiol.67: 266], both bud growth and ADC activity are increased byR light. In such buds, ADC is raised further by 1–10 µMBAP or ABA and inhibited by 1–10 µM IAA or ethylene(50 mg/liter or more of ethephon). In all cases, effects ofR-irradiation plus 1 mM growth regulators on ODC activity wasthe inverse of their effects on ADC, indicating independentcontrol of these pathways. These results do not support theview that putrescine biosynthetic activity is correlated withgrowth in etiolated pea seedlings. ¹Supported by a grant from NSF to A.W.G. ²Supported by a grant from the Turkish Government. Permanentaddress: Department of General Botany, University of Istanbul,S?leymaniye, Istanbul, Turkey. ³On sabbatical leave from the Department of Horticulture, HebrewUniversity of Jerusalem, Rehovot, Israel. (Received September 22, 1983; Accepted February 28, 1984)     

The binding of ribosomal subunits to endoplasmic reticulum membranes

The binding of ribosomes and ribosomal subunits to endoplasmic reticulum preparations of mouse liver was studied. (1) Membranes prepared from rough endoplasmic reticulum by preincubation with 0.5m-KCl and puromycin bound 60-80% of added 60S subunits and 10-15% of added 40S subunits. Membranes prepared with pyrophosphate and citrate showed less clear specificity for 60S subunits particularly when assayed at low ionic strengths. (2) Ribosomal 40S subunits bound efficiently to membranes only in the presence of 60S subunits. The reconstituted membrane-60S subunit-40S subunit complex was active in synthesis of peptide bonds. (3) No differences in binding to membranes were seen between subunits derived from free and from membrane-bound ribosomes. (4) It is concluded that the binding of ribosomes to membranes does not require that they be translating a messenger RNA, and that the mechanism whereby bound and free ribosomes synthesize different groups of proteins does not depend on two groups of ribosomes that differ in their ability to bind to endoplasmic reticulum.