Carbonic Anhydrase from the Blue-Green Alga (Cyanobacterium) Anabaena variabilis

Carbonic anhydrase (CA) activity was detected in homogenatesfrom Anabaena variabilis ATCC 29413, M-2 and M-3, but not inthe suspension of the intact cells. Activity was higher in cellsgrown in ordinary air (low-CO₂ cells) than in those grown inair enriched with 2–4% CO₂ (high-CO₂ cells). Fractionationby centrifugation indicated that the CA from A. variabilis ATCC29413 is soluble, whereas both soluble and insoluble forms existin A. variabilis M-2 and M-3. The addition of dithiothreitoland Mg^{2 $} greatly decreased the CA activity of A. variabilisATCC 29413. The specific activity of the CA from A. variabilis ATCC 29413was increased ca. 200 times by purification with ammonium sulfate,DEAE-Sephadex A-50 and Sephadex G-100. Major and minor CA peaksin Sephadex G-100 chromatography showed respective molecularweights of 48,000 and 25,000. The molecular weight of the CAdetermined by polyacrylamide disc gel electrophoresis was 42,000?5,000.The activity of CA was inhibited by ethoxyzolamide (I₅₀=2.8?10^-9M), acetazolamide (I₅₀=2.5?10^-7 M) and sulfanilamide (I₅₀=2.9?10^-6M). (Received January 5, 1984; Accepted April 26, 1984)     

Effects of Gibberellic Acid on the Activation, Synthesis, and Release of Acid Phosphatase in Barley Seed

Acid phosphatase activity was present in unimbibed barley seed,but rose during incubation of embryoless half-seeds and isolatedaleurone layers, and was further increased by 10^–6 M gibberellicacid (GA₃). Release of total acid phosphatase activity fromhalf-seeds and aleurone layers was markedly enhanced by GA₃.Inhibitor studies with cycloheximide and actinomycin D suggestedthat de novo synthesis of acid phosphatase occurred followingimbibition. Gel nitration, electrophoresis, and [¹⁴C]leucineincorporation studies revealed that a single molecular formof acid phosphatase was present in dry seed, whereas on incubationtwo further forms arose. A proportion of the three molecularforms of the enzyme was synthesized de novo. Gibberellic acidstimulated activation, but not de novo synthesis, of all threemolecular forms of acid phosphatase. Although a small amountof one of the molecular forms was secreted in the absence ofGA₃, the presence of gibberellin greatly increased secretionof the same form of acid phosphatase.     

Biochemical properties of 1-aminocyclopropane-1-carboxylate N-malonyltransferase activity from early growing embryonic axes of chick-pea (Cicer arietinum L.) seeds

In the present work, certain biochemical characteristics ofthe enzyme 1-aminocyclopropane-1-carboxylate N-malonyltransferase(ACC N-MTase) which is responsible for the malonylation of 1-aminocyclopropane-1-carboxylate(ACC) in chickpea (Cicer arietinum) are described. Phosphatebuffer was the most appropriate buffer with regard to enzymestability and, therefore, ACC N-MTase was extracted, assayedand purified in the presence of this buffer. ACC N-MTase waspartially purified approximately 900-fold from embryonic axesof chick-pea seeds using ammonium sulphate precipitation, hydrophobicinteraction and molecular filtration chromatography. By gelfiltration chromatography on Superose-12, the molecular massof the enzyme was estimated to be 54 4 kDa. ACC N-MTase hadan optimal pH and temperature of 7.5 and 40C, respectively,as well as a K_m for ACC and malonyl-CoA of 400 M and 90 M,respectively. D-Phenylalanine was a competitive inhibitor ofACC N-MTase with respect to ACC (K_i of 720 M), whereas co-enzymeA was a competitive product inhibitor with respect to malonyl-CoA(K_i of 300 M) and a non-competitive inhibitor with respectto ACC (K_i of 600 M). Under optimal assay conditions, ACC N-MTasewas strongly inhibited by (a)divalent [Zn²⁺>Mg²⁺>>Co²⁺>Co²⁺>(NH₄)²⁺>Fe²⁺]and monovalent metal cations (Li⁺>Na⁺>K⁺), without activitybeing detected in the presence of Hg²⁺, and (b) PCMB or mersalicacid, suggesting that sulphydryl group(s) are involved at theactive site of the enzyme. Key words: ACC-N-malonyltransferase, Cicer arietinum, embryonic axes, ethylene, germination, seeds     

Structure, function, and genomic organization of human Na(+)-dependent high-affinity dicarboxylate transporter

We have clonedand functionally characterized the human Na⁺-dependenthigh-affinity dicarboxylate transporter (hNaDC3) from placenta. ThehNaDC3 cDNA codes for a protein of 602 amino acids with 12 transmembrane domains. When expressed in mammalian cells, the clonedtransporter mediates the transport of succinate in the presence ofNa⁺ [concentration of substrate necessary for half-maximaltransport (K_t) for succinate = 20 ± 1 µM]. Dimethylsuccinate also interacts with hNaDC3. TheNa⁺-to-succinate stoichiometry is 3:1 and concentration ofNa⁺ necessary for half-maximal transport(K^Na+_0.5) is 49 ± 1 mM as determined by uptake studies withradiolabeled succinate. When expressed in Xenopuslaevis oocytes, hNaDC3 induces Na⁺-dependent inwardcurrents in the presence of succinate and dimethylsuccinate. At amembrane potential of 50 mV,K^Suc_0.5 is 102 ± 20 µM andK^Na+_0.5 is 22 ± 4 mM as determined by the electrophysiological approach. Simultaneous measurements of succinate-evoked charge transfer andradiolabeled succinate uptake in hNaDC3-expressing oocytes indicate acharge-to-succinate ratio of 1:1 for the transport process, suggestinga Na⁺-to-succinate stoichiometry of 3:1. pH titration ofcitrate-induced currents shows that hNaDC3 accepts preferentially thedivalent anionic form of citrate as a substrate. Li⁺inhibits succinate-induced currents in the presence of Na⁺.Functional analysis of rat-human and human-rat NaDC3 chimeric transporters indicates that the catalytic domain of the transporter lies in the carboxy-terminal half of the protein. The humanNaDC3 gene is located on chromosome20q12-13.1, as evidenced by fluorescent in situ hybridization. Thegene is >80 kbp long and consists of 13 exons and 12 introns.

     

Enzymatic Properties of Phosphoenolpyruvate Carboxylase Isoforms in the CAM Plant Kalanchoe daigremontiana

Three isoforms (Types 1, 2 and 3) of phosphoenolpyruvate (PEP)carboxylase in young leaves of the Crassulacean acid metabolism(CAM) plant Kalanchoe daigremontiana were separated by DEAE-cellulosecolumn chromatography and preparative polyacrylamide-agarosegel electrophoresis, and their enzymatic properties were characterized. All three isoforms had similar molecular weights of about 234,000.At pH 8.0 Type 1 showed a high affinity to PEP, (K_m=0.08 mM),whereas Type 3 showed a low affinity (K_m=1.0mM). K_m values forMgCl₂ were 0.26 HIM in Types 1 and 3 and 0.5 nut in Type 2.All three types exhibited the same pH optimum at 8.0, but Type1 showed relatively low activity below pH 6.0, whereas Type3 showed high activity. Type 3 was more acid stable than theother forms. In the presence of glucose-6-phosphate, the K_mvalues of Types 1, 2 and 3 for PEP lowered to 0.027, 0.037 and0.044 mu at pH 8.0, respectively. Inhibition of activity byorganic acids such as malate and pyruvate was pronounced inType 3. Type 2 exhibited properties intermediate to Types 1and 3 with regard to pH curve, affinity to PEP and its effectof various metabolites. The physiological significance of PEPcarboxylase isoforms in CAM plants is discussed on the basisof these findings. ¹Present address: Agricultural Chemicals Research Lab., SankyoCo., Ltd., Yasu-cho, Yasugun, Shiga 520-23, Japan. (Received November 30, 1983; Accepted March 24, 1984)     

Purification and some properties of polyphenol oxidase from root-forming carrot callus tissues

1. Polyphenol oxidase (o-diphenol : O₂ oxidoreductase; E.C.1.10.3.1 [EC] ) was isolated from the other phenolases which werepresent in root-forming carrot callus, and its properties wereexamined. 2. The enzyme was purified about 45-fold over crudeextracts (precipitates between 40–70% saturation widiammonium sulfate) by a combination of Bio-gel filtration, protein-bagfiltration, and carboxymethyl cellulose chromatography. Thepurified oxidase was homogeneous according to polyacrylamidegel electrophoresis and Sephadex gel filtration. It was confirmedby CM-cellulose chromatography that the enzyme was absent incallus tissues without accompanying redifferentiation. 3. Themolecular weight of this oxidase was estimated to be 110,000-120,000 from molecular weight-mobility profiles on polyacrylamidegels containing sodium dodecyl sulfate and molecular size-elutionvolume correlations on Sephadex G-150 columns. 4. The enzymeoxidized o-diphenols but showed no detectable activity againstmonophenols. Pyrocatechol, dopamine, caffeic acid, and chlorogenicacid were effectual substrates of the enzyme with K_m valuesranging from 10^–3 M to 10^–5M. The enzyme effectivelycatalyzed the oxidation of o-diphenols over the range of pH6.0 to 7.0 and was readily inactivated by heating. The enzymeactivity was slightly influenced by increasing ionic strength.The initial rate of the enzymic reaction was enhanced by additionof Cu²⁺, Co²⁺ and Mn²⁺ ions, and was reduced in the presenceof DTT, PCMPS, glycylglycine, and DIECA. (Received June 17, 1978; )     

Electron transport dependent adenosine triphosphatase activity in castor bean endosperm mitochondria

The release of inorganic phosphate from ATP by mitochondriaisolated from endosperms of castor bean (Ricinus communis) wasstimulated by Mg⁺⁺, but not by Ca⁺⁺. EDTA, succinate, NADH₂or oligomycin depressed the reaction. The depression by succinatewas removed by KCN, antimycin A or anoxia. DNP alone did notaffect activity but did stimulate the Pi release in the presenceof succinate under aerobic conditions. Enhanced Pi release inthe presence of succinate and DNP was cancelled by KCN, antimycinA, oligomycin or anoxia. On the basis of these results, themechanism of ATPase action in castor bean endosperm mitochondriais discussed. (Received January 27, 1969; )     

Tritium labelling of amino sugars at C-2 by alkaline epimerization in tritiated water

N-Acetyl-D-[2-³H]glucosamine was synthesized from N-acetyl-D-mannosamineby alkaline 2-epimerization in pyridine containing ³H₂O andnickelous acetate. The reaction involves reversible formationof an enol intermediate and therefore also resulted in incorporationof tritium into N-acetylmannosamine. After completed reaction,the two N-acetylhexosamines were separated from other radioactiveproducts and Morgan-Elson chromogens by chromatography on acolumn of Sephadex G-10, which was eluted with 10% ethanol,and were then separated from each other by chromatography onSephadex G-15 in 0·27 M sodium borate (pH 7·8).The location of the incorporated tritium was established bytreatment of the N-acetylhexosamines with borate under the conditionsof the Morgan-Elson reaction, which converts the sugars to Kuhn'schromogen I with concomitant loss of the C-2 hydrogen. As expected,this treatment resulted in the formation of ³H₂O, indicatingthat the tritium was located at C-2. [2-³H]Glucosamine was preparedby acid hydrolysis of the labelled N-acetylglucosamine and wasconverted to [2-³H]glucosamine 6-phosphate by incubation withhexokinase and ATP. The sugar phosphate was used as a substratefor glucosamine 6-phosphate deaminase (isomerase, EC 5.3.1.10 [EC] )in a simple ³H₂O release assay. N-acetyl[2-³H]glucosamine N-acetyl[2-³H]mannosamine [2-³H]glucosamine glucosamine 6-phosphate deaminase [2-³H]mannosamine     

Structural and Kinetic Properties of NADP-Malic Enzyme from the Inducible Crassulacean Acid Metabolism Plant Mesembryanthemum crystallinum L.

NADP-malic enzyme (EC 1.1.1.40 [EC] ), which is involved in Crassulaceanacid metabolism (CAM), was purified to electrophoretic homogeneityfrom the leaves of the inducible CAM plant Mesembryanthemumcrystallinum. The NADP-malic enzyme, which was purified 1,146-fold,has a specific activity of 68.8 µmol (mg protein)^–1min^–1. The molecular weight of the subunits of the enzymewas 64 kDa. The native molecular weight of the enzyme was determinedby gel-filtration to be 390 kDa, indicating that the purifiedNADP-malic enzyme is a hexamer of identical subunits. The optimalpH for activity of the enzyme was around 7.2. Double-reciprocalplots of the enzymatic activity as a function of the concentrationof L-malate yielded straight lines both at pH 7.2 and at pH7.8 and did not reveal any evidence for cooperativity of bindingof L-malate. The K_m value for L-malate was 0.35 mM. Hill plotsof the activity as a function of the concentration of NADP⁺indicated positive cooperativity in the binding of NADP⁺ tothe enzyme with a Hill coefficient (nH) of 2.0. An S_0.5 value(the concentration giving half-maximal activity) of 9.9 µMfor NADP⁺ was obtained. Oxaloacetate inhibited the activityof the NADP-malic enzyme. Effects of succinate and NaHCO₃ onthe activity of NADP-malic enzyme were small. (Received October 30, 1991; Accepted May 1, 1992)     

Oxidative phosphorylation and the electron transport system of castor bean mitochondria

The difference spectrum (reduced minus oxidized) of castor bean(Ricinus communis L.) mitochondria showed the presence of cytochromeoxidase (cytochromes a+a₃), b-type cytochromes and cytochromec. The mitochondria actively oxidized succinate, -ketoglutarate,pyruvate and exogenous NADH, and oxidations of these substrateswere stimulated by added ADP, as in mammalian mitochondria.Values for the P/O ratio obtained for succinate, pyruvate and-ketoglutarate were the same as those reported for mammalianmitochondria, indicating that theoretical values are 2, 3 and4, respectively. The theoretical P/O ratio for exogenous NADHseemed to be 2. Oxidations of succinate and exogenous NADH instate 3 were almost completely inhibited by 0.3 mM cyanide and10 µM its antimycin A, while those of NAD⁺-linked substratesin state 3 were not completely suppressed even by excess concentrationsof these inhibitors. There seem to be two types of pathway forelectron transfer in the oxidation of NAD⁺-linked substratesin castor bean mitochondria, i.e. pathways which are sensitiveand insensitive to these inhibitors. Oxidation of exogenousNADH in state 3 was not inhibited by rotenone. Transitions of redox levels of the respiratory components fromstate 4 to state 3 on addition of ADP and from state 3 to state4 on exhaustion of added ADP were observed with a dual-wavelengthspectrophotometer. Effects of inhibitors on redox levels ofthe respiratory components in state 3 were investigated. Cytochromesof b-type and cytochrome c were fully reduced on addition ofcyanide. Cytochromes of b-type were also fully reduced on additionof antimycin A, but cytochrome oxidase (cytochromes a + a₃)and cytochrome c changed to the oxidized forms. The redox levelof the component(s) with an absorption maximum at 465 mµshifted further, but not completely, to the reduced side onaddition of antimycin A. However, this component(s) was oxidizedon addition of cyanide. Cyanide-, or antimycin A-resistant oxidationof NAD⁺-linked substrates seems to occur via an alternate electrontransfer pathway branching from NAD⁺-linked flavoprotein(s)in the mitochondria, not via the normal pathway through thecytochromes-cytochrome oxidase system. (Received June 8, 1970; )     

Effects of Cyclic AMP on the Activity of Soluble Protein Kinases in Lemna paucicostata

Three protein kinases which phosphorylate histone were isolatedfrom cellular extract of Lemna plants. They were separated byelution from DEAE-Sephacel column and referred to as PI, PITand PHI. The PI protein kinase activity was partially inhibitedby 10µM cyclic AMP, cyclic GMP or cyclic IMP, while thePII enzyme was activated in the presence of these cyclic nucleotides.The PIII enzyme was cAMPindependent, but slightly inhibitedby cyclic CMP and cyclic UMP. The molecular weights of thesethree protein kinases were 165,000, 85,000 and 145,000, respectively,as estimated from Sephacryl S-300 gel filtration. A single cyclicAMP-binding protein was detected in the PII enzyme fractionby using the photoaffinity cAMP-analogue, 8-N₃-cAMP. The proteinwhich specifically bound [³H]-8-N₃-cAMP had an apparent molecularweight of 48,000 as determined by SDS-polyacrylamide gel electrophoresis.The phosphorylation of cellular proteins in Lemna was examinedby SDS-polyacrylamide gel electrophoresis. Four phosphorylatedpolypeptides were detected, the phosphorylations of which werestimulated by cAMP. The molecular weights of these four polypeptideswere 59,000, 19,000, 16,000 and 14,000, respectively. (Received January 26, 1983; Accepted April 13, 1983)     

Purification of NADP-Malic Enzyme and Phosphoenolpyruvate Carboxylase from Sugar Cane Leaves

A procedure is described for the purification of phosphoenolpyruvatecarboxylase (EC 4.1.1.31 [EC] ) and NADP-dependent malic enzyme (EC1.1.1.40 [EC] ) from sugar cane leaves. Each enzyme was purified tohomogeneity as judged by sodium dodecyl sulfate-polyacrylamidegel electro-phoresis, with about 30% yield. Phosphoenolpyruvatecarboxylase was purified 54-fold. A molecular weight of 400,000and a homotetrameric structure were determined for the nativeenzyme. The purified carboxylase had a specific activity of20.0 {diaeresis}mol (mg protein)_–1 min_–1, and wasactivated by glucose-6-phosphate and inhibited by L-malate.K_m values at pH 8.0 for phosphoenolpyruvate and bicarbonatewere 0.25 and O.l0 mM, respectively. NADP-malic enzyme, 356-foldpurified, exhibited a specific activity of 71.2 {diaeresis}mol(mg protein)_–1 min_–1 and was characterized as ahomotetramer with native molecular weight of 250,000. Purifiedmalic enzyme showed an absolute specificity for NADP⁺ and requireda divalent metal ion for activity. K_m values of 0.33 and 0.008mM for L-malate and NADP⁺, respectively, were determined. Thisenzyme was inhibited by several organic acids, including ketoand amino acids; while succinate and citrate increased the enzymeactivity when assayed with 10{diaeresis}M L-malate. The effectsshown by amino acids and by citrate were dependent on pH, beinghigher at pH 8.0 than at pH 7.0. (Received October 26, 1988; Accepted February 3, 1989)     

Purification and Characterization of Two Isozymes of Chlorophyllase from Mature Leaves of Chenopodium album

Chlorophyllase (Chlase) was purified from mature leaves of Chenopodiumalbum, and its enzymatic properties were investigated. Chlasewas extracted from acetone powder of C. album and purified bythe following chroma-tographic procedures: hydrophobic chromatography,Con A Sepharose, Heparin affinity chromatography, Mono Q ion-exchangechromatography, and gel-filtration. Con A Sepharose affinitychromatography and gel-filtration were the most effective stepson the purification. On Mono Q chromatography, the Chlase preparationseparated into two major and one minor fractions that exhibitedChlase activity. The two major Chlases were purified to homogeneity.Their molecular masses were estimated as 41.3 kDa and 40.2 kDaby SDS-PAGE. The optimum pH and K_m values of these two Chlaseswere similar. Their N-terminal amino acid sequences were almostidentical except for a deletion in the tenth amino acid residuein one of the Chlase; there was no homologous protein detectedby database search. ³Present address: Department of Biology and Geoscience, Facultyof Science, Shizuoka University, 836 Ohya, Shizuoka, 422 Japan.     

Glycosidases from Cotyledons of Pisum sativum L.

-Mannosidase and ß-N-acetylglucosaminidase were purifiedfrom extracts of cotyledons of germinating Pisum sativum L.A 13-fold purification of a-mannosidase free from ß-N-acetylglucosaminidaseactivity was achieved by precipitation in ammonium sulphate,column chromatography on DEAE-cellulose, and treatment with2 M pyridine. ß-N-Acetylglucosaminidase was purified200-fold by the use of (NH₄)₂SO₄, and chromatography on ConcanavalinA¹-Sepharose and Sephacryl-200. This preparation showed no measurablecontamination by -mannosidase activity. Both glycosidases appearto be glycoproteins and demonstrate optimal activity at pH valuesof 4.0–4.5. Both glycosidases appear to have very similarmolecular weights, with -mannosidase being slightly larger thanß-N-acetylglucosaminidase. An extensive search forthe activity of aspartylglycosylamine amido hydrolase in peacotyledons proved unsuccessful.     

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)     

Isolation of the Photoactive Reaction Center Complex that Contains Three Types of Fe-S Centers and a Cytochrome c Subunit from the Green Sulfur Bacterium Chlorobium limicola f. thiosulfatophilum, Strain Larsen

The photoactive reaction center (RC) complex from the greensulfur bacterium Chlorobium limicola f. thiosulfatophilum, strainLarsen, was isolated after solubilization and ammonium sulfatefractionation followed by ion-exchange chromatography. The spectrumof the complex was almost identical with that of the similarRC complex isolated by Feiler et al. [(1992) Biochemistry 31:2608–2614] except for the presence of cytochrome c₅₅₁instead of c₅₅₃ in the latter study. A molecular ratio of BChla to P840 of the isolated RC complex was assayed to be 25–35.SDSPAGE analysis revealed that the isolated complex containedthree major polypeptides with apparent molecular masses of 68,41 and 21 kDa, respectively. The 21-kDa polypeptide was identifiedto be a heme-binding protein by staining the gel for peroxidaseactivity. The cytochrome c₅₅₁ was oxidized by flash light ina biphasic manner with half times of 90 and 390 µs, respectively,that coincided with the reduction half times of P840⁺. Threedistinct iron-sulfur centers assigned to F_A, F_B and F_x, respectively,from their g-values were detected by EPR spectroscopy at cryogenictemperature. These results suggest that the present preparationcontains a minimal functional unit of the RC of this bacterium,and that this complex appears to lie on a evolutionary linebetween RC's of purple bacteria and photosystem I. (Received August 18, 1992; Accepted October 28, 1992)     

星天牛幼虫肠道木聚糖酶的纯化和性质

星天牛Anoplophora chinensis (Frster)幼虫肠道匀浆液经80%丙酮沉淀、Q-Sepharose阴离子交换柱层析、PAGE制备电泳等方法纯化后,获得在SDS-PAGE上呈现单一区带的木聚糖酶。该酶的分子量约25 kD,等电点约4.0,最适温度50℃,最适pH 5.4,pH 3.0～7.8对酶活性的恢复无大的影响, 50℃保温2 h仍有60%酶活性。Hg²⁺、M_nO^-4、变性剂SDS完全抑制该酶活性, Cu²⁺、Mn²⁺、Ag⁺、Zn²⁺、Pb⁺、脲对酶活性有强烈的抑制作用。该酶具有水解纤维素的交叉活性,其K_m值为2.47 mg/mL,V_max为0.6 IU/mL。     

Glutamine synthesis in germinating castor bean endosperm

The pathway of glutamine synthesis in germinating castor beanendosperm was investigated by feeding experiments with (2,3-¹⁴C)succinateand by determining enzyme activities related to pyruvate formationand utilization. ¹⁴C of (2,3-¹⁴C)succinate was rapidly and sequentiallyincorporated into amino acids in the following order: aspartateor alanine, glutamate and glutamine. ¹⁴CO₂ was slowly released,especially during the early hours of incubation. Fluorocitrateinhibited ¹⁴CO₂ release while aminooxyacetate stimulated itslightly. Fluorocitrate inhibited the incorporation of ¹⁴C intoglutamate and glutamine. Aminooxyacetate inhibited ¹⁴C incorporationinto aspartate, alanine, glutamate and glutamine. Glutaminesynthetase activity was detected in a soluble fraction. NAD-malicenzyme activity was detected in mitochondria by sucrose densitygradient centrifugation. Activities of pyruvate decarboxylaseand aldehyde dehydrogenasewere detected. Aldehyde dehydrogenasewas partially purified about 60-fold by ammonium sulfate fractionationand the DEAE-cellulose chromatography. The Km values of theenzyme were 0.71 miu for NAD and 0.43 mM for acetaldehyde. Basedon these results and properties of pyruvate kinase reportedpreviously (9), the metabolism of pyruvate in cytosol and mitochondriawas discussed in connection with glutamine synthesis in germinatingcastor bean endosperm. (Received August 25, 1978; )     

Phytoplankton uptake of ammonium and urea during growth on oxidized forms of nitrogen

Uptake capabilities for ammonium (NH₄⁺) and urea by diatoms(Thalassiosira pseudonana and Skeletonema costatum) growingon oxidized forms of nitrogen were studied in short-term uptakeexperiments. Even when nutrient-saturated, an enhanced uptakecapability not coupled with the growth rate was present forNH₄⁺ and urea. No such enhanced uptake ability was seen forNO₂^– or NO₃^– under either nutrient-saturated ornutrient-depleted conditions. The presence of NH₄⁺ decreasedthe enhanced ability to take up urea, but the urea uptake ratein 5 min incubations remained greater than the growth rate evenwhen NH₄⁺ was present.     

Stimulatory Effect of Chloride Ions on NADP Malic Enzyme from Leaves of two C4 Species of Cyperus

NADP malic enzyme (EC 1.1.1.40 [EC] ) from leaves of two C₄ speciesof Cyperus (C. rotundus and C. brevifolius var leiolepis) exihibiteda low level of activity in an assay mixture that contained lowconcentrations of Cl^–. This low level of activity wasmarkedly enhanced by increases in the concentration of NaClup to 200 mM. Since the activity of NADP malic enzyme was inhibitedby Na₂SO₄ and stimulated by relatively high concentration ofTris-HCl (50–100 mM, pH 7–8), the activation ofthe enzyme by NaCl appears to be due to Cl^–. Variationsin the concentration of Mg²⁺ affected the K_A (the concentrationof activator giving half-maximal activation) for Cl^–,which decreased from 500 mM to 80 mM with increasing concentrationsof Mg²⁺ from 0.5 mM to 7 mM. The K_m for Mg²⁺ was decreased from7.7 mM to 1.3 mM with increases in the concentration of NaClfrom zero to 200 mM, although the increase of V_max was not remarkable.NADP malic enzyme from Cyperus, being similar to that from otherC₄ species, was able to utilize Mn²⁺. The K_m for Mn²⁺ was 5mM, a value similar to that for Mg²⁺. The addition of 91 mMNaCl markedly decreased the K_m for Mn²⁺ to 20 +M. NADP malicenzyme from Setaria glauca, which contains rather less Cl^–than other C₄ species, was inactivated by concentrations ofNaCl above 20 mM, although slight activation of the enzyme wasobserved at low concentrations of NaCl at pH7.6. (Received February 20, 1989; Accepted June 12, 1989)