Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: HUMANGGP:003739 (CO2)
48,959 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In spite of only slightly subnormal pigment contents, two plastome mutants of Oenothera (Valpha, Isigma) were practically incapable of photosynthetic CO2 fixation and another one exhibited considerably reduced photosynthesis (IVbeta). While other photosynthetic enzymes were present as far as investigated, ribulose-1,5-bisphosphate carboxylase (EC 4.1.1.39) activity was very low or missing altogether. As shown by gel electrophoresis, mutant IVbeta contained some, though little, fraction I protein. In the other two mutants fraction I protein could not be detected. Also, neither the small nor the large subunit of ribulose-1,5-biphosphate carboxylase could be found in these mutants. In immunodiffusion experiments with a monospecific antiserum against rye ribulose-1,5-bisphosphate carboxylase, only extracts from wild-type Oenothera produced visible precipitation lines. Still, the presence of very low levels of immunochemically reactive antigen was indicated for all three mutants. The highest level was observed in mutant IVbeta. The behaviour of the mutant extracts suggested that the antigens of mutant and wild type leaves reacting with the antiserum were not identical. All mutants appeared to have a coupled electron transport system as shown by ATP measurements, light scattering and 515 nm absorption changes. Linear electron transport was possible in the mutants. Still, the photoresponse of cytochrome f and fluorescence measurements suggested altered electron transport properties in the mutants. These are interpreted to be secondary lesions of the photosynthetic apparatus caused by primary deficiency in ribulose-1,5-bisphosphate carboxylase activity. From the absence in two mutants (Valpha, Isigna) of the small subunit of ribulose-1,5-bisphosphate carboxylase, which is known to be coded for by nuclear DNA and to be synthesized on cytoplasmic ribosomes, it appears that the genetic system of the plastids is capable of interfering with the genome-controlled synthesis of plastid components.
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PMID:Ribulose-1,5-biphosphate carboxylase-deficient plastome mutants of Oenothera. 10 Dec 42

Methanobacterium thermoautotrophicum, M. ruminantium, and Methanosarcina barkeri were labeled with 14CO2 (14CO2 + H14CO3- + 14CO32-) for from 2 to 45 s. Radioactivity was recovered in coenzyme M derivatives, alanine, aspartate, glutamate, and several unidentified compounds. The properties of one important structurally unidentified intermediate (yellow fluorescent compound) displayed UV absorbance maxima at pH 1 of 290 and 335 nm, no absorbance in the visible region, and a fluorescence maximum at 460 nm. Label did not appear in organic phosphates until after 1 min. 14CH3OH was converted by M. barkeri primarily into coenzyme M derivatives at 25 s. [2-14C]acetate was assimilated by M. thermoautotrophicum mainly into alanine and succinate during 2 to 240 s, but not into coenzyme M derivatives or yellow fluorescent compound. Cell-free extracts of M. thermoautotrophicum lacked ribulose 1,5-bisphosphate carboxylase activity. The data indicated the absence of the Calvin, serine, and hexulose phosphate paths of C1 assimilation in the methanogens examined and indicated that pyruvate was an early intermediate product of net CO2 fixation. The in vivo importance of coenzyme M derivatives in methanogenesis was demonstrated.
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PMID:One-carbon metabolism in methanogenic bacteria: analysis of short-term fixation products of 14CO2 and 14CH3OH incorporated into whole cells. 10 22

An an initial stage in the study of proteins from thermophilic algae, the enzyme ribulose 1,5-bisphosphate carboxylase 2-phospho-D-glycerate carboxylyase (dimerizing, EC 4.1.1.39) was purified 11-fold from the thermophilic alga Cyandium caldarium, with a 24% recovery. This purified enzyme appeared homogeneous on polyacrylamide gels and could be dissociated into two subunit types of molecular weights 55,000 and 14,900. The optimal assay temperature was 42.5 degrees C, whilst enzyme purified from Chlorella spp. showed maximum activity at 35 degrees C. The thermostability of Cyanidium ribulose 1,5-bisphosphate carboxylase was considerably greater than that of the Chlorella enzyme, and the presence of Mg2+ and HCO-3 further enhanced this heat stability. A break in the Arrhenius plot occured at 20 degrees C for Chlorella ribulose 1,5-bisphosphate carboxylase and 36 degrees C for the enzyme from Cyanidium. It is suggested that the thermostability of Cyanidium ribulose 1,5-bisphosphate carboxylase is a result of an inherent stability of the enzyme molecule which permits efficient CO2 fixation at high temperatures but results in low activity in the mesophilic temperature range.
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PMID:Ribulose 1,5-bisphosphate carboxylase from the thermophilic, acidophilic alga, Cyanidium caldarium (Geitler). Purification, characterisation and thermostability of the enzyme. 11 34

The stimulation or inhibition of ribulose diphosphate oxygenase by a variety of compounds is compared with the reported effects on these compounds on the ribulose diphosphate carboxylase activity. A possible transition state analog of ribulose diphosphate, 2-carboxyribitol 1, 5-diphosphate, at a molar ratio of inhibitor to enzyme of 10 to 1, irreversibly inactivates the oxygenase and carboxylase activities. This is consistent with the hypothesis that there may be a single active site for both the carboxylase and oxygenase activities. Several compounds of the reductive pentose photosynthetic carbon cycle act as effectors of the ribulose diphosphate oxygenase in a manner complementary to their reported effect upon the carboxylase. Ribose 5-phosphate inhibits the oxygenase with an apparent Ki of 1.8 mM, but it is reported to activate the carboxylase; fructose 6-phosphate and glucose 6-phosphate act similarly but are less effective than ribose 5-phosphate. Fructose 1. 6-diphosphate stimulates the oxygenase at low magnesium ion concentrations. The stimulatory effect of 6-phosphogluconate on the oxygenase is associated with a 3-fold reduction of the Km (Mg2+). ATP inhibits the oxygenase but has been reported to stimulate the carboxylase; pyrophosphate acts in an opposite manner. From these results it appears that the ratio of carboxylase to oxygenase activity may be a variable factor with predictable subsequent alteration in the ratio between photosynthetic CO2 fixation and photorespiration.
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PMID:Ribulose diphosphate carboxylase/oxygenase. IV. Regulation by phosphate esters. 16 94

The growth-related parameters of Thiobacillus intermedius, cultured in glutamate-CO2-S2O32- medium, have been determined. After centrifugation at 48,000 X g for 1 h, 24% of the D-ribulose-1,5-bisphosphate carboxylase (RuBPCase) activity of the disrupted-cell suspensions obtained from CO2-S2O32--and glutamate-CO2-S2O3(3)- grown cells could be sedimented, and the specific activities of this enzyme in the supernatant fractions were almost equivalent. The enzyme was stable in T. intermedius starved of thiosulfate in the presence and absence of glutamate, but a progressive decrease was evident in several growth cycles, each cycle supported by resupplementation of cells with thiosulfate. Polyhedral inclusion bodies were present in CO2-S2O3(2)- and glutamate-CO2S2O3(2)- grown cells. The number of polyhedral bodies per cell increased during mixotrophic growth approximately in proportion to the observed increase in the specific activity of RuBPCase. RuBPCase could not be detected in T. intermedius grown heterotrophically on yeast extract, nor could polyhedral bodies be found.
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PMID:D-Ribulose-1,5-bisphosphate carboxylase and polyhedral inclusion bodies in Thiobacillus intermedius. 17 79

Autotrophic cultures of the facultative chemolithotroph Alcaligenes eutrophus have been found to excrete glycollate. This excretion was greatly stimulated by the incorporation of up to 20% (v/v) oxygen in the hydrogen used for gassing. The stimulatory effect of oxygen was prevented by the addition of 10% (v/v) CO2 to the gassing mixture. Glycollate excretion only in the presence of oxygen was increased by the addition of 2-pyridyl-hydroxymethane sulphonic acid (HPMS), an inhibitor of glycollate oxidation, indicating that glycollate formation itself was stimulated by oxygen. No glycollate excretion by cultures grown heterotrophically on pyruvate was detected, either in the absence or presence of HPMS, under heterotrophic or autotrophic cells showed phosphoglycollate phosphatase and glycollate oxidoreductase activities, which were considerably lower in extracts prepared from pyruvate- or fructose-grown (heterotrophic) cells. The increase in activity of both enzymes upon cell transfer from heterotrophic to autotrophic growth was prevented by chloramphenicol and resembled the induction of D-ribulose 1,5-diphosphate carboxylase under the same conditions.
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PMID:Glycollate production and excretion by Alcaligenes eutrophus. 18 20

The icosahedral bodies of Nitrobacter agilis are about 120 nm in diameter and, as viewed by electron microscopy, consist of an outer shell enclosing 10-nm particles. The inner 10-nm particle is the enzyme D-ribulose 1,5-bisphosphate carboxylase. The bodies isolated from cells incubated 1 month without nitrite had a specific activity for the enzyme of 0.54 mu mol of CO2 fixed per min per mg of protein.
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PMID:Icosahedral inclusions (carboxysomes) of Nitrobacter agilis. 19 79

Similarities in properties of ribulose diphosphate carboxylase and oxygenase activities further substantiate the hypothesis that the same protein catalyzes both reactions. The Km (ribulose diphosphate) is 0.33 mM for the ribulose diphosphate oxygenase, when assayed in air with an oxygen electrode. Maximum activity is obtained with 10 to 35 mM MgCl2. Higher MgCl2 concentrations are inhibitory, but they shift the pH optimum from 9.3 or 9.4 to 8.7 or 9.0. MnCl2 is an effective cofactor of the oxygenase and some activity is obtained with CoCl2. Both the ribulose diphosphate carboxylase and oxygenase activity of the purified protein from spinach leaves are slowly inactivated by storage at 0 degrees and reactivated in 10 min at 50 degrees, provided both 25 mM MgCl2 and 1 mM dithiothreitol are present. The sulfhydryl groups of the enzyme which react rapidly with 5,5'-dithiobis(2-nitrobenzoic acid) are approximately 4 at pH 7.8 and 11 at pH 9.4. At both pH values ribulose diphosphate prevents two of these sulfhydryl groups from reacting with this reagent. About 50% inhibition of the oxygenase activity at pH 9.0 occurs with 50 mM bicarbonate in the presence of 3 mM ribulose diphosphate, and from variations in these parameters the inhibition is attributed to the CO2 species. The purified enzyme of acrylamide gels prevented the reduction of nitroblue tetrazolium in the presence of the superoxide radical, but the enzyme in solution did not react as a superoxide dismutase.
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PMID:Ribulose diphosphate carboxylase/oxygenase. III. Isolation and properties. 23 14

The carbon isotope discrimination properties of a representative of each of the three types of photosynthetic bacteria Chlorobium thiosulfatophilum, Rhodospirillum rubrum and Chromatium and of the C3-alga Chlamydomonas reinhardii were determined by measuring the ratio of 13CO2 to 12CO2 incorporated during photoautotrophic growth. 2. Chromatium and R. rubrum had isotope selection properties similar to those of C3-plants, whereas Chlorobium was significantly different. 3. The results suggest that Chromatium and R. rubrum assimilate CO2 mainly via ribulose 1,5-diphosphate carboxylase and the associated reactions of the reductive pentose phosphate cycle, whereas Chlorobium utilizes other mechanisms. Such mechanisms would include the ferredoxin-linked carboxylation enzymes and associated reactions of the reductive carboxylic acid cycle.
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PMID:Mechanisms of CO2 fixation in bacterial photosynthesis studied by the carbon isotope fractionation technique. 40 96

Ribulose 1,5-bisphosphate carboxylase/oxygenase was purified by a rapid, facile procedure from formate-grown Pseudomonas oxalaticus. The electrophoretically homogeneous enzyme had specific activities of 1.9 mumol of CO2 fixed per min per mg of protein and 0.15 mumol of O2 consumed per min per mg of protein. The amino acid composition was similar to that of other bacterial sources of the enzyme. The molecular weights determined by sedimentation equilibrium and by gel filtration were 421,000 and 450,000, respectively. Upon sodium dodecyl sulfate electrophoresis of enzyme purified under conditions which would limit proteolysis, two types of large (L) subunits and two types of small (S) subunits were observed with apparent molecular weights of 57,000, 55,000, 17,000 and 15,000. By densitometric scans at two different protein concentrations the stoichiometry of the total large to total small subunits was 1:1, implying an L6S6 structure. Electron micrographs of the enzyme revealed an unusual structure that was inconsistent with a cubical structure. The enzyme had an unusually high Km for ribulose 1,5-bisphosphate (220 microM) and was strongly inhibited by 6-phosphogluconate in the ribulose 1,5-bisphosphate carboxylase assay (Ki = 270 microM). One, 5, and 12 days after purification the enzyme was half-maximally activated at 0.13 microM, 0.23 mM, and 0.70 mM CO2, respectively, at saturating Mg2+. At saturating CO2, enzyme 1 day afer purification responded sigmoidally to Mg2+ and was half-maximally activated by 0.85 mM Mg2+ in the absence of 6-phosphogluconate (Hill coefficient, h = 2.0) and by 0.19 mM Mg2+ in the presence of mM 6-phosphogluconate (h = 1.7).
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PMID:Ribulose 1,5-bisphosphate carboxylase/oxygenase from Pseudomonas oxalacticus. 45 2


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