RIBONUCLEIC ACID-POLYPHOSPHATE FROM ALGAE: III. HYDROLYSIS STUDIES

RNA-polyphosphate was isolated from synchronous Chlorella cells.After each of a series of hydrolytic treatments, RNA-polyphosphatewas chromatographically analyzed by means of a two-column ion-exchangesystem. Alkaline hydrolysates contained primarily ribonu-cleotides,pyrophosphate, and tripolyphosphate. Acid hydrolysates containedribonucleotides, purine bases, ribonucleosides, orthophosphate,and an unknown, inorganic, phosphorus-containing compound (X-P).Treatments with pancreatic ribonuclease, spleen phosphodiesterase,and yeast polyphosphatase left large amounts of RNA-polyphosphatefragments. Treatment with venom phosphodiesterase yielded ahigh molecular weight inorganic polyphosphate fraction freefrom RNA. Such material was hydrolyzed to pyro- and tripolyphosphateby potassium hydroxide, to orthophosphate and an unknown compoundX-P by perchloric acid, and to ortho-, pyro-, and tripolyphosphateby hydroxylamine under ester hydrolysis conditions. Syntheticinorganic polyphosphate was stable to potassium hydroxide andhydroxylamine under the same conditions and yielded only orthophosphateupon perchloric acid hydrolysis. Both natural and syntheticpolyphosphates were hydrolyzed to low molecular weight fragmentsby yeast polyphosphatase. The evidence at present indicatesthat in Chlorella polyphosphate is not a simple phosphate anhydridechain. (Received June 14, 1965; )     

Difference in nitrate reduction in "light" and "dark" stages of synchronously grown Chlorella pyrenoidosa and resultant metabolic changes

Using synchronized cells of Chlorella pyrenoidosa, the incorporationpatterns of ¹⁴C into various metabolites with and without nitrogensources were studied under steady-state and non steady-stateconditions. From the patterns it was found that the smallestcells which are divided in the dark utilize nitrate and nitritevery little, if at all. The importance of ammonia for regulation of secondary flow forChlorella is discussed and the suggested regulatory points aredescribed. ¹This work was sponsored, in part, by the U.S. Atomic EnergyCommission (Received January 26, 1970; )     

"GIGANTISM" OF CHLORELLA VULGARIS I. RELATION OF GIGANTISM TO CELL GROWTH AND DIVISION

1. The sugars which induced gigantism of Chlorella cells wereglucose,fructose, galactose, mannose, xylose and arabinose.These sugarswere utilized as respiratory substrates by thealgal cells.
2. The cellular division of Chlorella was stimulatedby glucoseand galactose, but suppressed by fructose, mannose,xylose andarabinose, while all these sugars evoked gigantism.No correlationwas found between cellular division and gigantism,
3. The photosynthetic activity of giant Chlorella varied withthesorts of sugars added. It was decreased by glucose, fructoseand mannose, but was unaffected by other sugars such as galactose,xylose and arabinose.
4. The respiratory activity of giant Chlorellacells as much higherthan that of control cells.
5. The amountsof protein-N and dry weight per unit volume of giantChlorellawere much less than those of control cells.

¹ Present address: Department of Chemistry, College of GeneralEducation, Osaka University, Toyonaka, Osaka.     

BIOTIN LIBERATION BY THE LICHEN ALGA COCCOMYXA SP. AND BY CHLORELLA PYRENOIDOSA

The unicellular green alga Coccomyxa, a component of the lichenPeltigera aphthosa, liberated about 7.2mµg biotin permg dry weight of cells into the culture medium during a growthperiod of 15–20 days. The corresponding figure for thefree-living alga Chlorella pyrenoidosa was 0.45mµg ofbiotin. Chromatographic analysis indicated that this was freebiotin and not a bound form of the vitamin. The biotin concentrationof rinsed Coccomyxa cells was 1.88mµg per mg dry weightof cells, of which less than 0.01mµg was extractable byhot water. Cells of Chlorella contained 0.16mµg of biotinper mg dry weight, of which 0.11mµg was extractable byhot water. The biotin content of Coccomyxa, which was about12 times that of Chlorella, is thus almost entirely in the boundform. The importance of biotin in the symbiotic interactionsbetween the alga and the fungus in Peltigera is discussed. ¹Present address: University Department of Agriculture, Oxford,England. ²Present address: Institute of Marine Resources, Universityof California, La Jolla, California, U.S.A.     

185W-labelled nitrate reductase from Chlorella

By adding ¹⁸⁵W-tungstate to a Chlorella culture, it has beenpossible to incorporate this metal into the nitrate reductasecomplex. The W-labelled enzyme was completely inactive as nitratereductase, but maintained unaffected its diaphorase activity.In vivo incorporation of tungsten into the enzyme was competitivelyhindered by molybdenum. ¹ This work was supported by a grant from the Instituto de EstudiosNucleares, J.E.N., Spain. (Received July 6, 1971; )     

ON THE NATURE OF MOSS OXALIC ACID OXIDASE

Moss oxalic acid oxidase freed from catalase by boiling is stronglyinhibited by the "metal-complexing" compounds such as thiocyanate,azide, diethyldithiocarbamate, and hydrosulfite. Inactivatedby dialysis against thiocyanate or azide, the enzyme can bereactivated to a considerable extent by the addition of ferricsalt, cytochrome-c or hemoglobin, not by other metal ions, suchas Cu²⁺, Zn²⁺ , Mn²⁺, and Fe²⁺. Nitrate, chlorate, monoiodoacetate,and iodide also act as strong inhibitors towards moss oxalicacid oxidase. Some enzyme fractions which were obtained by the sodium sulfateprecipitation method were stimulated by Fe³⁺, but not by cytochrome-cor by other metallic ions. This stimulation was inhibited bythiocyanate, azide and monoiodoacetate. ¹ Present address: Biological Institute, University of Toyama,Toyama     

Studies of sulfate utilization by algae 17. Reactions of the adenosine 5'-phosphosulfate (APS) sulfotransferase from Chlorella and studies of model reactions which explain the diversity of side products with thiols

Adenosine 5'-phosphosulfate sulfotransferase has been partiallypurified from Chlorella and is shown to catalyze the transferof the sulfate group of adenosine 5'-phosphosulfate to a varietyof thiol acceptors to form the corresponding organic thiosulfate.While the normal acceptor in the sulfate reducing pathway isthought to be a peptide carrier containing a thiol group theenzyme is very non-specific with respect to the thiols to whichit will transfer leading to a large number of side reactionswhich are possible when thiols are added to the system. Usingadenosine 5'-phosphosulfate and the enzyme, monothiols formsulfite and the organic thiosulfate of the thiol, with dithiolswhich readily form intramolecular disulfides, sulfite is theonly product, while with vicinal dithiols, sulfite and finallythiosulfate is formed. The -SO₃^– sulfur of the thiosulfateoriginates from adenosine 5'-phosphosulfate while the -S^–-sulfur is supplied by the vicinal dithiol. The same productscan be obtained using glutathione-S-sulfonate in place of adenosine5'-phosphosulfate and the enzyme, in a non-enzymatic reactionwith the same thiols. Thus it appears that the enzymatic reactioncatalyzes the transfer of the sulfate group of adenosine-5'-phosphosulfateto a thiol carrier or to any other thiol. When these other thiolsare present, however, sulfite, thiosulfate or organic thiosulfatesof the thiols are formed in non-enzymatic side reactions. Thetransferase from Chlorella is specific for adenosine 5'-phosphosulfateand will not catalyze the reaction with adenosine-3'-phosphate-5'-phosphosulfate. ¹Supported by Grants GB 4321, GB 40856X and BMS 73 00987 AO1from the National Science Foundation. ²Supported by a Gillette Graduate Fellowship. Portions of thispaper formed part of a dissertation presented to the graduatefaculty of Brandeis University in partial fulfillment of thePh.D. Degree. (Received June 30, 1976; )     

Plant Cell Wall Proteins: Partial Characterization of Maize Wall Proteins With Putative Roles in Auxin-Induced Growth

Antibodies raised against cell wall proteins inhibited auxin-inducedgrowth of Zea mays L. coleoptile segments. The total complementof proteins isolated from the cell walls of Zea mays seedlingswas fractionated by cation exchange and gel filtration chromatography.A procedure was developed to evaluate these cell wall-proteinfractions for their ability to reverse growth inhibition causeby specific antibody binding. Inhibition of growth was attributedto specific antibody-antigen interaction based on the observationsthat only serum containing antibodies against certain cell wallproteins inhibited growth, that gamma globulins purified fromappropriate serum samples inhibited growth, and that a specificsubfraction of isolated cell wall proteins precipitate the growthinhibiting antibody. Antigens which generated growth inhibitoryantibodies were identified as an acidic group of proteins withapparent relative molecular masses in the range of 20–25kDa. This subfraction of cell wall proteins was not effectivein hydrolyzing cell wall polysaccharides. A small amount ofcarbohydrate was found associated with this fraction and mayreflect some degree of glycosylation of some of the proteins ¹Supported in part by National Science Foundation Research GrantPCM 7818588 ²Present Address: USDA-ARS, U.S. Dairy Forage Research Center,University of Wisconsin, Madison, WI 53706 ³Present Address: Department of Vegetable Crops, Universityof California, Davis, CA 95616 (Received November 2, 1987; Accepted March 31, 1988)     

STEROLS OF CHLORELLA. I. THE NATURALLY OCCURRING STEROLS OF CHLORELLA VULGARIS, C. ELLIPSOIDEA, AND C. SACCHAROPHILA

The characteristics of the sterols naturally occurring in threespecies of Chlorella were examined. The algae were grown heterotrophicallyon glucose. Sterols were extracted and isolated from the lipidfraction and were characterized by means of chemical and physicaltests. Chlorella vulgaris contained three sterols. Only the principalone, chondrillasterol, was identified. Chondrillasterol hasbeen isolated previously from the genus Scenedesmus. Chlorella ellipsoidea and Chlorella saccharophila were foundto contain sterols with ß-oriented alkyl groups atC-24 in contrast to the -oriented groups commonly found in higherplants. Poriferasterol was identified as the principal sterolof both algae. Clionasterol and 22-dihydrobrassicasterol wereidentified as the two secondary sterols present. None of thesesterols have previously been reported to occur in plants. Theisolation of 22-dihydrobrassicasterol has not been previouslyreported from any natural source. ¹Scientific Article A1153, Contribution No. 3623 of the Universityof Maryland Agricultural Experiment Station. ²This work has been supported in part by a grant from the NationalAeronautics and Space Administration.     

CHROMATOGRAPHIC ANALYSES OF ACID-SOLUBLE POLYPHOSPHATES IN CHLORELLA CELLS

Using uniformly ³²P-labeled Chlorella cells as material, compositionof acid-soluble inorganic polyphosphates was studied by paperchromatography and ion-exchange chromatography. 2.By the paper chromatographic analysis it was found that theacid-soluble polyphosphates consisted of highly condensed polyphosphates.Ring-forming tri- and tetrametaphosphates, pyrophosphate andtripolyphosphate were not detected in the acid-soluble fractionof the algal cells. 3.By an ion-exchange chromatography with the use of increasingconcentrations of KCl-solution as eluant, it was found thatthe acid-soluble polyphosphate was a mixture of polyphosphateswith a variety of condensation number (n-values). Polyphosphatesof the n-values between 3 and 15 were only 20% of the totalacid-soluble polyphosphate. The majority of the other polyphospateshad greater n-values which was eluted with 0.5–1.0 M KCl. (Received March 2, 1964; )     

Increase in Proton-Transport Activity of Tonoplast Vesicles as an Adaptive Response of Barley Roots to NaCl Stress

H⁺-Transport activity of the vesicles prepared from barley rootswas studied at the early phase after application of NaCl stress.The activity reached maximal level at 3 days after the treatmentwith 200 mM NaCl which moderately reduced the growth. This activityincrease could be suppressed in the presence of cycloheximideand actinomycin D. The properties of the membrane vesicles associated with H⁺-transportactivity prepared from both control and NaCl-stressed rootssuggested that it was of tonoplast origin based on the followingfindings: optimal pH at 7.5, strong inhibition by nitrate butnot by vanadate, and stimulation by chloride. The density gradient centrifugation of vesicles with DextranT70 did not show any detectable difference in the distributionpatterns of H⁺-transport activities between control and NaClstressedroots. Furthermore, K_m values for ATP of the H⁺-transport activityof vesicles prepared from control and NaCl-stressed roots werethe same. Therefore, H⁺-transport activity with properties similarto those of the control roots was increased by NaCl stress.The results are discussed in terms of an adaptive mechanismof barley against salt stress. ¹Permanent address: Department of Horticulture, College of Agriculture,Chonnam National University, Chonnam 500, Korea. (Received April 18, 1988; Accepted July 20, 1988)     

Folylpolyglutamate Derivatives of Pisum sativum L. Determination of Polyglutamate Chain Lengths by High Performance Liquid Chromatography Following Conversion to p-aminobenzoylpolyglutamates

The folypolyglutamate derivatives of pea seedlings (Pisum sativumL. cv. Homesteader) were extracted in the presence of 2-mercaptoethanoland cleaved to p-aminobenzoylpolyglutamates by treatment withZn-HCl. Azo dyes were formed by reaction with naphthylethylenediamine and purified by polyacrylamide gel chromatography. p-Aminobenzoylpolyglutamateswere regenerated from these dyes by Zn treatment and then concentratedin vacuo. These derivatives were separated according to glutamylchain length by high performance liquid chromatography on WhatmanPartisil SAX columns. The folylpolyglutamates of 4 day old peacotyledons, pea leaves and isolated chloroplasts were mainlytetra- and pentaglutamates. These and folates of shorter chainlength were labelled when seeds and aerial shoots were incubatedwith p-aminobenzoate-[¹⁴C]. Labelling of the pentaglutamatewas reduced in seeds that were imbibed in the presence of 0.1mM methotrexate. Studies of cotyledon folylpolyglutamate synthetaseshowed that polyglutamate chain length was affected by incubationtime and the concentration of tetra-hydrofolate monoglutamatein the reaction system. ¹Present address: Department of Biology, University of Lethbridge,Alberta, Canada T1K 3M4 ²Present address: Department of Horticulture, Xiong-yue AgriculturalCollege, Xiong-yue, Liaoning Province, China (Received August 4, 1989; Accepted December 5, 1989)     

Immunocytochemical Localization of Uricase in Peroxisomes of Soybean Cotyledons

Antibodies specific for nodule uricase were used for immunocytochemistryto demonstrate the presence of uricase in cotyledons of soybean(Glycine max) during germination and early seedling growth.The enzyme was localized exclusively in peroxisomes. ¹Permanent address: Department of Plant Cytology and Cytochemistry,University of Lodz, Lodz, Poland ²Current address: Department of Plant Science, University ofArizona, Tucson, AZ 85721, U.S.A.     

"GIGANTISM" OF CHLORELLA VULGARIS I. MECHANISM OF INDUCTION OF CIGANTISM

1. Based on the microscopic observations, two stages, "giant cellstage" and the subsequent "palmelloid body stage", were distinguishedin the process of formation of giant Chlorella induced by theaddition of sugars. The "giant cell" is much larger in sizethan the control cell, but the other morphological featuresare the same as those of the latter. The "palmelloid body" isa form composed of many conjoined autospores.
2. When a highconcentration of glucose was maintained in the medium,gigantismwas also maintained. Under this condition, the algashows acyclic transformation between "giant cell" and "palmelloidbody"without returning to the small single cells.
3. Large amountsof carbohydrate composed of hexose were foundto be accumulatedin the giant algal cells, and it was inferredthat this carbohydrateaccumulation causes greater enlargementof cell volume as comparedwith control cells.
4. Uronic acids, which were found to be absentin the control cells,were formed and lost in the cells culturedin the glucose mediumin parallel with the appearance and disappearanceof gigantism.
5. Pectic substances, from which uronic acids areconsidered tobe derived during the extraction procedure, werefound to bepresent only in giant Chlorella.
6. The conjoinedautospores in giant Chlorella (at the palmelloidbody stage)were separated to some extent by the addition ofEDTA, and theresulting cells were similar to control Chlorellacells.
7. Basedon these results it was inferred that inductive formationofthe pectic substances is causally related with the appearanceof "palmelloid body".

¹ Present address: Department of Chemistry, College of GeneralEducation, Osaka University, Toyonaka, Osaka.     

ISOLATION AND IDENTIFICATION OF ASYMMETRIN

Asymmetrin was isolated as the sodium salt from culture filtrateof Penicillium thomii. By comparison with hadacidin (N-formylhydroxyamino-acetic acid) we concluded that the two compoundsare identical. ¹Journal Paper No. 2329 of the Purdue Agricultural ExperimentStation. Supported in part by Grant G-20989 from the NationalScience Foundation to R. W. CURTIS. ²Present address: United Fruit Company, Norwood, Massachusetts.     

The occurrence and properties of dihydrofolate reductase in pea seedlings

Dihydrofolate reductase (E.C. 1.5.1.3 [EC] ) was found in pea seedlingsand was partially purified by treatments with ammonium sulfate,protamine sulfate and by DEAE-cellulose column chromatography.Some properties of the enzyme were investigated. Optimum pHfor the reaction was 6.5. In the enzyme reaction, FAH₂ and NADPH₂were specifically required. MICHAELIS constants for FAH₂ andNADPH₂ were 4.3x10^–6 M and 4.0x10^–5 M, respectively.Folate antagonists such as aminopterin, methotrexate and pyrimethaminewere potent inhibitors of this enzyme. Enzyme activity was almostcompletely inhibited at a concentration of 10^–7 M of aminopterinand methotrexate and 10^–6 M of pyrimethamine. Growth of germinating pea seeds was inhibited by aminopterin,methotrexate and pyrimethamine, and it recovered significantlywith a tetrahydro-derivative of folate, CF, but not with dihydrofolicor folic acid. These results suggest that growth inhibitionof pea seedlings by these antagonists is due to inhibition ofdihydrofolate reductase in seedlings. ¹Studies on the enzymatic synthesis and metabolism of folatecoenzymes in plants IV. (For the previous paper, Part III, seeReference (21)) . Part of this paper was presented at the AnnualMeeting of the Agricultural Chemical Society of Japan held atTokyo on April 4, 1967 (Received October 8, 1969; )     

Further studies on potassium uptake rhythm in the long-day duckweed Lemna gibba G3 with special reference to vegetative growth

Some properties of the circadian rhythm in potassium uptakeof flow medium culture of the long-day duckweed Lemna gibbaG3 were examined.

1. In total darkness, the rhythm faded out in ca. 48 hr; it restartedon transfer to continuous light. Under low-intensity light (below700 lux), the rhythm was damped rapidly
2. The rhythm appearedregardless of the potassium concentrationin the culture medium(from 10/m to 2 HIM). The amplitude, butnot the period, ofthe rhythm was influenced by the ambientpotassium concentration.
3. Alteration in the light intensity or medium composition causeda change in the growth rate without modifying the period ofthe rhythm.
4. These results indicate that potassium uptake rhythmin thisduckweed is typical light-on rhythm, which has no directrelationwith the rate of vegetative growth and requires lightenergyfor its duration.

¹Present address: Aichi-Gakuin University, Chikusa-ku, Nagoya464, Japan. ²Present address: National Institute for Basic Biology, Okazaki,Aichi 444, Japan. (Received February 1, 1979; )     

Comparative Studies of NAD-Malic Enzyme from Leaves of Various C4 Plants

Using butyl-TSK-gel chromatography, we purified NAD-malic enzyme(ME) (EC 1.1.1.39 [EC] ), which is involved in C₄ photosynthesis,to electrophoretic homogeneity, from leaves of Amaran-thus tricolor.Molecular weights of the native and SDS-denatured enzyme fromA. tricolor were 490 kDa and 61 kDa, respectively. During assayof the enzyme there was a slow reaction transient in the formof a lag before a steady-state rate was reached. The durationof this lag was inversely proportional to the concentrationof each substrate and the activator, fructose- 1,6-bis-phosphate(FBP). The optimal pH of the reaction fell with decreasing concentrationsof either malate or FBP. High pH prolonged the lag in reaction. Double reciprocal plots of the enzymatic activity as a functionof the concentration of malate yielded straight lines and didnot show any cooperativity for binding of malate. The enzymefrom A. tricolor was not inhibited by either HCO^–₃ orCO₂. At different concentrations of malate, the nature of theactivating effect of FBP was compared among the purified enzymesfrom A. tricolor and the C₄ monocots Eleusine coracana and Panicumdichotomiflorum. At low levels of malate, FBP markedly stimulatedthe enzyme from each species. In contrast, at saturating levelsof malate, the response of enzymes to increasing concentrationsof FBP was different and depended on the source of enzyme. The immunochemical properties of the enzymes from the threespecies were compared using an enzyme-linked immunoadsorbentassay with antisera raised against the purified enzymes fromthe three species. Different cross-reactivities were observedamong the enzymes from different sources. The N-terminal aminoacid sequences of NAD-MEs from the three species were determinedand some differences were found among the three enzymes. ²Permanent address; Tohoku National Agricultural ExperimentStation, Morioka, 020-01 Japan. ³Permanent address; National Grassland Research Institute, Nishinasuno,Tochigi, 329-27 Japan. (Received December 12, 1988; Accepted February 17, 1989)