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1.
Electron. j. biotechnol ; 30: 64-70, nov. 2017. ilus, graf, tab
Article Dans Anglais | LILACS | ID: biblio-1021461

Résumé

Background: The development of a potential single culture that can co-produce hydrogen and ethanol is beneficial for industrial application. Strain improvement via molecular approach was proposed on hydrogen and ethanol co-producing bacterium, Escherichia coli SS1. Thus, the effect of additional copy of native hydrogenase gene hybC on hydrogen and ethanol co-production by E. coli SS1 was investigated. Results: Both E. coli SS1 and the recombinant hybC were subjected to fermentation using 10 g/L of glycerol at initial pH 7.5. Recombinant hybC had about 2-fold higher cell growth, 5.2-fold higher glycerol consumption rate and 3-fold higher ethanol productivity in comparison to wild-type SS1. Nevertheless, wild-type SS1 reported hydrogen yield of 0.57 mol/mol glycerol and ethanol yield of 0.88 mol/mol glycerol, which were 4- and 1.4-fold higher in comparison to recombinant hybC. Glucose fermentation was also conducted for comparison study. The performance of wild-type SS1 and recombinant hybC showed relatively similar results during glucose fermentation. Additional copy of hybC gene could manipulate the glycerol metabolic pathway of E. coli SS1 under slightly alkaline condition. Conclusions: HybC could improve glycerol consumption rate and ethanol productivity of E. coli despite lower hydrogen and ethanol yields. Higher glycerol consumption rate of recombinant hybC could be an advantage for bioconversion of glycerol into biofuels. This study could serve as a useful guidance for dissecting the role of hydrogenase in glycerol metabolism and future development of effective strain for biofuels production.


Sujets)
Éthanol/métabolisme , Escherichia coli/métabolisme , Hydrogène/métabolisme , Hydrogenase/métabolisme , Recombinaison génétique , Dépollution biologique de l'environnement , Milieux de culture , Escherichia coli/enzymologie , Alcalinisation , Fermentation , Glucose/métabolisme , Glycérol/métabolisme , Hydrogenase/génétique
2.
Electron. j. biotechnol ; 26: 27-32, Mar. 2017. tab, ilus, graf
Article Dans Anglais | LILACS | ID: biblio-1009654

Résumé

Background: An effective single culture with high glycerol consumption and hydrogen and ethanol coproduction yield is still in demand. A locally isolated glycerol-consuming Escherichia coli SS1 was found to produce lower hydrogen levels under optimized ethanol production conditions. Molecular approach was proposed to improve the hydrogen yield of E. coli SS1 while maintaining the ethanol yield, particularly in acidic conditions. Therefore, the effect of an additional copy of the native hydrogenase gene hycE and recombinant clostridial hydrogenase gene hydA on hydrogen production by E. coli SS1 at low pH was investigated. Results: Recombinant E. coli with an additional copy of hycE or clostridial hydA was used for fermentation using 10 g/L (108.7 mmol/L) of glycerol with an initial pH of 5.8. The recombinant E. coli with hycE and recombinant E. coli with hydA showed 41% and 20% higher hydrogen yield than wild-type SS1 (0.46 ± 0.01 mol/mol glycerol), respectively. The ethanol yield of recombinant E. coli with hycE (0.50 ± 0.02 mol/mol glycerol) was approximately 30% lower than that of wild-type SS1, whereas the ethanol yield of recombinant E. coli with hydA (0.68 ± 0.09 mol/mol glycerol) was comparable to that of wild-type SS1. Conclusions: Insertion of either hycE or hydA can improve the hydrogen yield with an initial pH of 5.8. The recombinant E. coli with hydA could retain ethanol yield despite high hydrogen production, suggesting that clostridial hydA has an advantage over the hycE gene in hydrogen and ethanol coproduction under acidic conditions. This study could serve as a useful guidance for the future development of an effective strain coproducing hydrogen and ethanol.


Sujets)
Éthanol/métabolisme , Escherichia coli/métabolisme , Hydrogène/métabolisme , Biotechnologie , Protéines recombinantes , Clostridium/génétique , Clostridium/métabolisme , Escherichia coli/enzymologie , Escherichia coli/génétique , Fermentation , Glycérol , Concentration en ions d'hydrogène , Hydrogenase/génétique , Hydrogenase/métabolisme
3.
Chinese Journal of Biotechnology ; (12): 1003-1008, 2010.
Article Dans Chinois | WPRIM | ID: wpr-292179

Résumé

Tetraselmis subcordiformis, a marine green alga, can produce hydrogen by photobiologically hydrolyzing seawater with hydrogenase. In this study, the preliminary purification of the enzyme was explored by ammonium sulfate precipitation, and the impact of sodium dithionite, beta-mercaptoethanol and glycerol on the enzyme stability during the process was investigated. The experimental results illustrated that sodium dithionite provided significant protection on the hydrogenase by depleting oxygen, while glycerol, a protectant against the structure instability of the enzyme, also presented protection. Crude enzyme with specific activity of 0.557 U/mg protein was extracted using 60%-70% saturated ammonium sulfate solution supplemented with 200 mmol/L sodium dithionite and 5% glycerol, and the hydrogenase recovery yield was about 30%.


Sujets)
Sulfate d'ammonium , Chimie , Précipitation chimique , Chlorophyta , Stabilité enzymatique , Hydrogène , Métabolisme , Hydrogenase , Métabolisme , Eau de mer
4.
Chinese Journal of Biotechnology ; (12): 133-137, 2007.
Article Dans Chinois | WPRIM | ID: wpr-325405

Résumé

Degenerate PCR primers were designed by multiple alignment of the protein sequences of known structural genes encoding the catalytic subunits of NiFe-hydrogenases obtained from Swiss-Prot Protein Sequence Database through CLUSTAL-W software and compared for conserved sequence motifs. An amplified PCR product 1 kb in size was obtained from the genomic DNA of Klebsiella pneumoniae using a set of degenerate primers, and then inverse PCR technique was used to obtain the full hydrogenase coding region. A predicted secondary structure and 3D structural model were constructed by homology modeling and docking. On the basis of these results, it was inferred that NiFe-hydrogenase from Klebsiella pneumoniae belongs to the membrane-bound H2 evolving hydrogenase group (Ech hydrogenase group).


Sujets)
Protéines bactériennes , Chimie , Génétique , Clonage moléculaire , Codon , Génétique , ADN bactérien , Chimie , Génétique , Bases de données de protéines , Liaison hydrogène , Hydrogenase , Chimie , Génétique , Klebsiella pneumoniae , Génétique , Modèles moléculaires , Données de séquences moléculaires , Conformation des protéines , Structure secondaire des protéines , Structure tertiaire des protéines , Analyse de séquence d'ADN
5.
Chinese Journal of Biotechnology ; (12): 297-302, 2007.
Article Dans Chinois | WPRIM | ID: wpr-325376

Résumé

A marine unicellular green alga, Platymonas subcordiformis, was demonstrated to photobiologically produce hydrogen gas from seawater. The objective of this study was to localize and identify the hydrogenase isolated from P. subcordiformis. Adaptation in the presence of inhibitors of protein biosynthesis indicated that the hydrogenase was much more inhibited by cycloheximide than that by chloramphenicol. The result suggested that the hydrogenase isolated from P. subcordiformis is probably synthesized in cytoplasmic ribosomes. Both Western blot analysis and immunogold electron microscopy demonstrate that the P. subcordiformis hydrogenase is mainly located in the chloroplast stroma. The proteins that reacted specifically with the antibodies against the iron hydrogenase isolated from Chlamydomonas reinhardtii were concentrated by immunoprecipitation. The separated protein bands were cut out of the SDS-PAGE gel, in-gel digested by trypsin, and analyzed by Matrix-Assisted Laser Desorption Ionization Time-of-Flight Mass Spectrometry (MALDI-TOF MS). Mascot was employed for analysis of the MALDI data using the public databases NCBInr. The hydrogenase isolated from P. subcordiformis was identified to be the Fe-hydrogenase.


Sujets)
Protéines d'algue , Métabolisme , Biocatalyse , Technique de Western , Chloramphénicol , Pharmacologie , Chlorophyta , Cycloheximide , Pharmacologie , Cytoplasme , Électrophorèse sur gel de polyacrylamide , Hydrogenase , Métabolisme , Immunoprécipitation , Méthodes , Ferrosulfoprotéines , Métabolisme , Cinétique , Microscopie immunoélectronique , Inhibiteurs de la synthèse protéique , Pharmacologie , Spectrométrie de masse MALDI , Méthodes
6.
Journal of Bacteriology and Virology ; : 203-212, 2007.
Article Dans Anglais | WPRIM | ID: wpr-123860

Résumé

It has been reported that most of Helicobacter pylori proteome components appear so crowded in the region of pH 4.5~8.0 that a lot of them were inseparable in 2-DE using the broad range IPG strip. Therefore, inseparable protein spots in 2-DE profiles have to be apart from each other for improving the protein identification. Here, we attempt to examine the usability of the narrow range IPG strips for separating close spots in the broad range IPG strip at proteomic analysis of H. pylori. The whole cell proteins of H. pylori strain 26695 were separated by narrow range IPG strips (pI 3.9~5.1, 4.7~5.9, 5.5~6.7, and 6.3~8.3, respectively), followed by SDS-PAGE, and visualized by silver staining, showing that the distances between spots were widened and the total number of detectable spots was increased. Resolved protein spots were identified by the peptide fingerprinting using MALDI-TOF-MS. As a result, 87 expressed proteins were identified by the peptide fingerprinting. Of them, 23 proteins, including hydrogenase expression/formation protein, purine-binding chemotaxis protein, and ribosomal protein S6, have not been reported in the previous proteome studies of H. pylori. Thus, these results demonstrate that the high complexity proteome components could be effectively separated using the narrow range IPG strips, which might be helpful to strengthen the contents of the master protein map of the H. pylori reference strain.


Sujets)
Chimiotaxie , Électrophorèse sur gel de polyacrylamide , Helicobacter pylori , Helicobacter , Concentration en ions d'hydrogène , Hydrogenase , Cartographie peptidique , Protéome , Protéomique , Protéine ribosomique S6 , Coloration à l'argent
7.
Indian J Biochem Biophys ; 2006 Aug; 43(4): 201-10
Article Dans Anglais | IMSEAR | ID: sea-28100

Résumé

Oxygenic photosynthetic organisms such as cyanobacteria, green algae and diatoms are capable of absorbing light and storing up to 10-13% of its energy into the H-H bond of hydrogen gas. This process, which takes advantage of the photosynthetic apparatus of these organisms to convert sunlight into chemical energy, could conceivably be harnessed for production of significant amounts of energy from a renewable resource, water. The harnessed energy could then be coupled to a fuel cell for electricity generation and recycling of water molecules. In this review, current biochemical understanding of this reaction in green algae, and some of the major challenges facing the development of future commercial algal photobiological systems for H2 production have been discussed.


Sujets)
Eucaryotes , Chlorophyta/métabolisme , Catalyse , Électrochimie/méthodes , Hydrogène/composition chimique , Liaison hydrogène , Hydrogenase/composition chimique , Lumière , Modèles biologiques , Modèles chimiques , Oxygène/métabolisme , Photosynthèse , Soufre/composition chimique , Transcription génétique
8.
The Korean Journal of Parasitology ; : 373-378, 2006.
Article Dans Anglais | WPRIM | ID: wpr-220300

Résumé

To evaluate whether iron concentration in TYM medium influence on hydrogenosomal enzyme gene expression and hydrogenosomal membrane potential of Trichomonas vaginalis, trophozoites were cultivated in irondepleted, normal and iron-supplemented TYM media. The mRNA of hydrogenosomal enzymes, such as pyruvate ferredoxin oxidoreductase (PFOR), hydrogenase, ferredoxin and malic enzyme, was increased with iron concentrations in T. vaginalis culture media, measured by RT-PCR. Hydrogenosomal membrane potentials measured with DiOC6 also showed similar tendency, e.g. T. vaginalis cultivated in iron-depleted and iron-supplemented media for 3 days showed a significantly reduced and enhanced hydrogenosomal membrane potential compared with that of normal TYM media, respectively. Therefore, it is suggested that iron may regulate hydrogenosomal activity through hydrogenosomal enzyme expression and hydrogenosomal membrane potential.


Sujets)
Humains , Animaux , Trichomonas vaginalis/croissance et développement , RT-PCR , Pyruvate synthase/génétique , Organites/enzymologie , Potentiels de membrane , Malate dehydrogenase/génétique , Fer/métabolisme , Hydrogenase/génétique , Hydrogène/métabolisme , Régulation de l'expression des gènes codant pour des enzymes , Régulation de l'expression des gènes , Ferrédoxines/génétique , Milieux de culture
9.
Chinese Journal of Biotechnology ; (12): 348-353, 2005.
Article Dans Chinois | WPRIM | ID: wpr-305271

Résumé

Hydrogenases are enzymes that catalyse the oxidation of hydrogen and the reduction of protons. It plays an important role in the process of biohydrogen production. According to the metal atoms within hydrogenase, it can be classified as NiFe-hydrogenase, Fe-hydrogenase and metal-free hydrogenase. The overwhelming majority of hydrogenases are metalloenzymes. The metal atoms are involved in the forming of active site and [Fe-S] clusters. The active site directly catalyzes the reduction of protons and the oxidation of hydrogen. The [Fe-S] clusters are involved in the transport of electrons between the H2-activating site and the redox partners of hydrogenase. Presently, the crystal structures of NiFe-hydrogenase and Fe-hydrogenase from a few kinds of microorganism have been revealed. The metal-free hydrogenase, characterized by the absence of [Fe-S] cluster and the presence of an iron-containing cofactor, shows a great diversity comparing with those of NiFe-hydrogenases and Fe-hydrogenases. Recent progress have also indicated the mechanisms of activation.


Sujets)
Catalyse , Domaine catalytique , Hydrogenase , Métabolisme , Ferrosulfoprotéines , Métabolisme , Oxydoréduction
10.
Article Dans Anglais | IMSEAR | ID: sea-38505

Résumé

OBJECTIVE: To study the relationship of lactose intolerance and intestinal villi morphology in Thai people. MATERIAL AND METHOD: Subjects for this study were patients with functional dyspepsia who had no history of milk allergy and underwent gastroduodenoscopy. Two mucosal biopsy specimens were taken from beyond the distal end of the second part of the duodenum. The specimens were carefully orientated and were graded according to the following scheme: group I: finger shaped villi; group II: mixed finger and leaf shaped villi; group III: clubbing or blunting shaped villi. All subjects were tested for lactose malabsorption by breath hydrogen analysis after consuming 50 gram lactose. Breath hydrogen concentration was analyzed in samples collected intermittently by end-expiratory technique. A rise in breath hydrogen concentration of 20 PPM over baseline was considered evidence of lactose malabsorption. RESULTS: The twenty-five subjects were twenty females (80.0%) and five males (20.0%) who ranged in age from 18 to 53 years (mean 31 +/- 8.29). Sixteen subjects belonged to the finger shaped villi group (64.0%), five to the mixed finger and leaf shaped villi, group (20.0%) and four to the clubbing or blunting shaped villi group (16.0%). Results of breath hydrogen excretion test identified the prevalence of lactose intolerance in 68 per cent of the subjects: 15/16 (93.75%) of group I; 1/5 (20.0%) of group II and 1/4 (25%) of group III respectively (P<0.001). The symptom of diarrhea after lactose loading was correlated well in patients who had positive breath hydrogen analysis. CONCLUSION: As shown in this study, the lactose intolerance is not related to intestinal villi morphology. It is implied that primary lactase deficiency is more common in Thai people than secondary lactase deficiency.


Sujets)
Adolescent , Adulte , Biopsie , Tests d'analyse de l'haleine , Diarrhée/étiologie , Duodénoscopie , Dyspepsie/étiologie , Femelle , Météorisme/étiologie , Gastroscopie , Humains , Hydrogenase/analyse , Muqueuse intestinale/anatomopathologie , Lactase , Lactose/diagnostic , Intolérance au lactose/classification , Mâle , Adulte d'âge moyen , Prévalence , Thaïlande/épidémiologie , beta-Galactosidase/déficit
11.
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