Your search keyword '"bacterial hemoglobin"' showing total 46 results

1. Loss of a Functional Mitochondrial Pyruvate Carrier in Komagataella phaffii Does Not Improve Lactic Acid Production from Glycerol in Aerobic Cultivation.

Author

de Oliveira Junqueira, Ana Caroline, Moreira Melo, Nadielle Tamires, Skorupa Parachin, Nádia, and Costa Paes, Hugo

Subjects

LACTIC acid, CELL respiration, PYRUVATES, ALCOHOL dehydrogenase, MITOCHONDRIA, GENE expression

Abstract

Cytosolic pyruvate is an essential metabolite in lactic acid production during microbial fermentation. However, under aerobiosis, pyruvate is transported to the mitochondrial matrix by the mitochondrial pyruvate carrier (MPC) and oxidized in cell respiration. Previous reports using Saccharomyces cerevisiae or Aspergillus oryzae have shown that the production of pyruvate-derived chemicals is improved by deleting the MPC1 gene. A previous lactate-producing K. phaffii strain engineered by our group was used as a host for the deletion of the MPC1 gene. In addition, the expression of a bacterial hemoglobin gene under the alcohol dehydrogenase 2 promoter from Scheffersomyces stipitis, known to work as a hypoxia sensor, was used to evaluate whether aeration would supply enough oxygen to meet the metabolic needs during lactic acid production. However, unlike S. cerevisiae and A. oryzae, the deletion of Mpc1 had no significant impact on lactic acid production but negatively affected cell growth in K. phaffii strains. Furthermore, the relative quantification of the VHb gene revealed that the expression of hemoglobin was detected even in aerobic cultivation, which indicates that the demand for oxygen in the bioreactor could result in functional hypoxia. Overall, the results add to our previously published ones and show that blocking cell respiration using hypoxia is more suitable than deleting Mpc for producing lactic acid in K. phaffii. [ABSTRACT FROM AUTHOR]

Published

2023

2. Loss of a Functional Mitochondrial Pyruvate Carrier in Komagataella phaffii Does Not Improve Lactic Acid Production from Glycerol in Aerobic Cultivation

Author

Ana Caroline de Oliveira Junqueira, Nadielle Tamires Moreira Melo, Nádia Skorupa Parachin, and Hugo Costa Paes

Subjects

mitochondrial pyruvate carrier 1, bacterial hemoglobin, L-leucine, qPCR, PLA, Biology (General), QH301-705.5

Abstract

Cytosolic pyruvate is an essential metabolite in lactic acid production during microbial fermentation. However, under aerobiosis, pyruvate is transported to the mitochondrial matrix by the mitochondrial pyruvate carrier (MPC) and oxidized in cell respiration. Previous reports using Saccharomyces cerevisiae or Aspergillus oryzae have shown that the production of pyruvate-derived chemicals is improved by deleting the MPC1 gene. A previous lactate-producing K. phaffii strain engineered by our group was used as a host for the deletion of the MPC1 gene. In addition, the expression of a bacterial hemoglobin gene under the alcohol dehydrogenase 2 promoter from Scheffersomyces stipitis, known to work as a hypoxia sensor, was used to evaluate whether aeration would supply enough oxygen to meet the metabolic needs during lactic acid production. However, unlike S. cerevisiae and A. oryzae, the deletion of Mpc1 had no significant impact on lactic acid production but negatively affected cell growth in K. phaffii strains. Furthermore, the relative quantification of the VHb gene revealed that the expression of hemoglobin was detected even in aerobic cultivation, which indicates that the demand for oxygen in the bioreactor could result in functional hypoxia. Overall, the results add to our previously published ones and show that blocking cell respiration using hypoxia is more suitable than deleting Mpc for producing lactic acid in K. phaffii.

Published

2023

3. Heterologous overexpression of bacterial hemoglobin VHb improves erythritol biosynthesis by yeast Yarrowia lipolytica

Author

Aleksandra M. Mirończuk, Katarzyna E. Kosiorowska, Anna Biegalska, Magdalena Rakicka-Pustułka, Mateusz Szczepańczyk, and Adam Dobrowolski

Subjects

Bacterial hemoglobin, VHb, Yarrowia lipolytica, Glycerol, Metabolic engineering, Microbiology, QR1-502

Abstract

Abstract Background Yarrowia lipolytica is an unconventional yeast with a huge industrial potential. Despite many advantages for biotechnological applications, it possesses enormous demand for oxygen, which is a bottleneck in large scale production. In this study a codon optimized bacterial hemoglobin from Vitreoscilla stercoraria (VHb) was overexpressed in Y. lipolytica for efficient growth and erythritol synthesis from glycerol in low-oxygen conditions. Erythritol is a natural sweetener produced by Y. lipolytica under high osmotic pressure and at low pH, and this process requires high oxygen demand. Results Under these conditions the VHb overexpressing strain showed mostly yeast-type cells resulting in 83% higher erythritol titer in shake-flask experiments. During a bioreactor study the engineered strain showed higher erythritol productivity (QERY = 0.38 g/l h) and yield (YERY = 0.37 g/g) in comparison to the control strain (QERY = 0.30 g/l h, YERY = 0.29 g/g). Moreover, low stirring during the fermentation process resulted in modest foam formation. Conclusions This study showed that overexpression of VHb in Y. lipolytica allows for dynamic growth and efficient production of a value-added product from a low-value substrate.

Published

2019

4. Translational Fusion to Hmp Improves Heterologous Protein Expression

Author

Xuanqing Wan, A. James Link, and Mark P. Brynildsen

Subjects

flavohemoglobin, N-terminal tag, bacterial hemoglobin, nitric oxide, Biology (General), QH301-705.5

Abstract

Flavohemoglobins, which are widely distributed in prokaryotes and eukaryotes, play key roles in oxygen (O2) transport and nitric oxide (·NO) defense. Hmp is the flavohemoglobin of Escherichia coli, and here we report that the translational fusion of Hmp to the N-terminus of heterologous proteins increases their expression in E. coli. The effect required the fusion of the proteins, and was independent of both the O2-binding and catalytic activity of Hmp. Increased expression was at the translational level, likely to be downstream of initiation, and we observed that as little as the first 100 amino acids of Hmp were sufficient to boost protein production. These data demonstrate the potential of Hmp as an N-terminal fusion tag to increase protein yield, and suggest that the utility of bacterial hemoglobins to biotechnology goes beyond their O2 transport and ·NO detoxification capabilities.

Published

2022

5. Vitreoscilla Hemoglobini Eksprese Eden Escherichia coli Suşları ile Şeker Pancarı Melasından Biyoetanol Üretiminde Ölçek Büyütmenin Etkisi.

Author

Şar, Taner and Akbaş, Meltem Yeşilçimen

Subjects

*ETHANOL as fuel, *ESCHERICHIA coli, *SUGAR, *MOLASSES, *SUGAR beets, *FERMENTATION

Abstract

In the present work, bioethanol production through VHb expressing Escherichia coli TS3 and TS4 strains from sugar-beet molasses hydrolysate containing media was investigated. The highest growth and ethanol production were obtained in MB2 (contains about 4% sugar) medium. In MB2 medium, bioethanol production was enhanced by E. coli TS3 and TS4 strains from small scale to big scale fermentation. The highest ethanol productions by TS3 and TS4 strains were determined as 2.49% and 2.62% (v/v) respectively, with the largest volume of fermentation medium. It was shown that scaling up process had positive effect on bioethanol production from sugar beet molasses through VHb expressing strains. [ABSTRACT FROM AUTHOR]

Published

2020

6. DESIGN OF HIGH-PERFORMANCE MICROBIAL FUEL CELL WITH ENTEROBACTER AEROGENES CARRYING THE VITREOSCILLA HEMOGLOBIN GENE.

Author

Erenler, Ayse Sebnem and Ulke, Esra Nezafed

Abstract

In this work, in order to achieve high energy efficiency, we designed a microsize microbial fuel cell (MCF) based on Enterobacter aerogenes (E. aerogenes) and vgb-/vgb+ recombinants. In this design, firstly, E. aerogenes as microorganism was used to compare energy efficiency. Then E. aerogenes modified with Vitreoscilla Hemoglobin Gene to enhance its ability to produce protons. The modified E. aerogenes vgb-/vgb+ recombinants were tested in the fuel cell as microorganism. In MCF, bacteria play an important role for the energy production. E. aerogenes is a bacterium that can easily adapt to MFC systems and has high energy production. The aim of the study was to generate electricity in an MFC system that was modeled by us according to current principles using E. aerogenes and vgb-/vgb+ recombinants known to produce high levels of hydrogen. In our study, the voltages produced by the hosts and recom binants under certain feeding environments were measured. Bacteria grown under optimal conditions, at pH 7 and 37°C showed effective performances in the novel MFC system by producing voltages of 0.508 and 0.440 V in 10 mL MCF. The results show that advanced optimization of the medium, MFC elements, and environmental conditions can make our system much more productive and offer a significant contribution to MFC studies. This is the first measurement of the performance of a vgb gene system in MFC. [ABSTRACT FROM AUTHOR]

Published

2019

7. Translational Fusion to Hmp Improves Heterologous Protein Expression

Author

Xuanqing Wan, A. James Link, and Mark P. Brynildsen

Subjects

Microbiology (medical), animal structures, Virology, Microbiology, flavohemoglobin, N-terminal tag, bacterial hemoglobin, nitric oxide

Abstract

Flavohemoglobins, which are widely distributed in prokaryotes and eukaryotes, play key roles in oxygen (O2) transport and nitric oxide (·NO) defense. Hmp is the flavohemoglobin of Escherichia coli, and here we report that the translational fusion of Hmp to the N-terminus of heterologous proteins increases their expression in E. coli. The effect required the fusion of the proteins, and was independent of both the O2-binding and catalytic activity of Hmp. Increased expression was at the translational level, likely to be downstream of initiation, and we observed that as little as the first 100 amino acids of Hmp were sufficient to boost protein production. These data demonstrate the potential of Hmp as an N-terminal fusion tag to increase protein yield, and suggest that the utility of bacterial hemoglobins to biotechnology goes beyond their O2 transport and ·NO detoxification capabilities.

Published

2021

8. Structural flexibility of the heme cavity in the cold-adapted truncated hemoglobin from the Antarctic marine bacterium Pseudoalteromonas haloplanktis TAC125.

Author

Giordano, Daniela, Pesce, Alessandra, Boechi, Leonardo, Bustamante, Juan Pablo, Caldelli, Elena, Howes, Barry D., Riccio, Alessia, Prisco, Guido, Nardini, Marco, Estrin, Dario, Smulevich, Giulietta, Bolognesi, Martino, and Verde, Cinzia

Subjects

*HEMOGLOBINS, *MARINE bacteria, *PLANKTON, *PROTEIN expression, *EUBACTERIALES

Abstract

Truncated hemoglobins build one of the three branches of the globin protein superfamily. They display a characteristic two-on-two α-helical sandwich fold and are clustered into three groups (I, II and III) based on distinct structural features. Truncated hemoglobins are present in eubacteria, cyanobacteria, protozoa and plants. Here we present a structural, spectroscopic and molecular dynamics characterization of a group- II truncated hemoglobin, encoded by the PSHAa0030 gene from Pseudoalteromonas haloplanktis TAC125 ( Ph-2/2HbO), a cold-adapted Antarctic marine bacterium hosting one flavohemoglobin and three distinct truncated hemoglobins. The Ph-2/2HbO aquo-met crystal structure (at 2.21 Å resolution) shows typical features of group- II truncated hemoglobins, namely the two-on-two α-helical sandwich fold, a helix Φ preceding the proximal helix F, and a heme distal-site hydrogen-bonded network that includes water molecules and several distal-site residues, including His(58) CD1. Analysis of Ph-2/2HbO by electron paramagnetic resonance, resonance Raman and electronic absorption spectra, under varied solution conditions, shows that Ph-2/2HbO can access diverse heme ligation states. Among these, detection of a low-spin heme hexa-coordinated species suggests that residue Tyr(42)B10 can undergo large conformational changes in order to act as the sixth heme-Fe ligand. Altogether, the results show that Ph-2/2HbO maintains the general structural features of group- II truncated hemoglobins but displays enhanced conformational flexibility in the proximity of the heme cavity, a property probably related to the functional challenges, such as low temperature, high O2 concentration and low kinetic energy of molecules, experienced by organisms living in the Antarctic environment. Database Structural data have been submitted to the Protein Data Bank under accession numbers and R4UURSF [ABSTRACT FROM AUTHOR]

Published

2015

9. Crystallographic structure determination of B10 mutants of Vitreoscilla hemoglobin: role of Tyr29 (B10) in the structure of the ligand-binding site.

Author

Ratakonda, Sireesha, Anand, Arvind, Dikshit, Kanak, Stark, Benjamin C., and Howard, Andrew J.

Subjects

*HEMOGLOBINS, *ESCHERICHIA coli, *HOMOGENEITY, *CIRCULAR dichroism, *PROLINE

Abstract

Site-directed mutants of the gene encoding wild-type Vitreoscilla hemoglobin were made that changed Tyr29 (B10) of the wild-type Vitreoscilla hemoglobin (VHb) to either Phe or Ala. The wild-type and the two mutant hemoglobins were expressed in Escherichia coli and purified to homogeneity. The binding of the two mutants to CO was essentially identical to that of wild-type VHb as determined by CO-difference spectra. Circular-dichroism spectra also showed the two mutants to be essentially the same as wild-type VHb regarding overall helicity. All three VHbs were crystallized and their structures were determined at resolutions of 1.7-1.9 Å, which are similar to that of the original wild-type structure determination. The Tyr29Phe mutant has a structure that is essentially indistinguishable from that of the wild type. However, the structure of the Tyr29Ala mutant has significant differences from that of the wild type. In addition, for the Tyr29Ala mutant it was possible to determine the positions of most of the residues in the D region, which was disordered in the originally reported structure of wild-type VHb as well as in the wild-type VHb structure reported here. In the Tyr29Ala mutant, the five-membered ring of proline E8 (Pro54) occupies the space occupied by the aromatic ring of Tyr29 in the wild-type structure. These results are discussed in the context of the proposed role of Tyr29 in the structure of the oxygen-binding pocket. [ABSTRACT FROM AUTHOR]

Published

2013

10. Heterologous overexpression of bacterial hemoglobin VHb improves erythritol biosynthesis by yeast Yarrowia lipolytica

Author

Mirończuk, Aleksandra M., Kosiorowska, Katarzyna E., Biegalska, Anna, Rakicka-Pustułka, Magdalena, Szczepańczyk, Mateusz, and Dobrowolski, Adam

Published

2019

11. The optical spectra of fluoride complexes can effectively probe H-bonding interactions in the distal cavity of heme proteins

Author

Droghetti, Enrica, Nicoletti, Francesco P., Bonamore, Alessandra, Sciamanna, Natascia, Boffi, Alberto, Feis, Alessandro, and Smulevich, Giulietta

Subjects

*OPTICAL spectroscopy, *FLUORIDES, *HYDROGEN bonding, *HEMOPROTEINS, *RESONANCE Raman effect, *CHARGE transfer, *HEMOGLOBINS, *PORPHYRINS

Abstract

Abstract: Fluoride complexes of heme proteins are characterized by unique spectroscopic properties, that provide a simple and direct means to monitor the interactions of the distal heme pocket environment with the iron-bound ligand. In particular, a strong correlation has been demonstrated between the wavelength of the iron-porphyrin charge transfer band at 600–620nm (CT1) and the strength of H-bonding donation from the distal amino acid side chains to the fluoride ion. In parallel, resonance Raman spectra with excitation within either the CT1 band or the charge transfer band at 450–460nm (CT2) have revealed that the iron-fluoride stretching frequency is directly affected by H-bonding to the fluoride ion. On this basis, globins and peroxidases display distinct spectroscopic features, which are strongly dependent on the capability of their distal residues (i.e. histidine, arginine and tryptophan) to be involved in H-bonding with the ligand. In particular, in peroxidases strong H-bonding corresponds to a low iron-fluoride stretching frequency and to a red-shifted CT1 band. The reverse is observed in myoglobin. Interestingly, a truncated hemoglobin of microbial origin (Thermobifida fusca) investigated in the present work, displays the specific spectroscopic signature of a peroxidase, in agreement with the presence of strong H-bonding residues, i.e., tyrosine and tryptophan, within the distal pocket. [Copyright &y& Elsevier]

Published

2011

12. Unusual proximal heme pocket geometry in the deoxygenated Thermobifida fusca: A combined spectroscopic investigation

Author

Arcovito, Alessandro, Bonamore, Alessandra, Hazemann, Jean Louis, Boffi, Alberto, and D'Angelo, Paola

Subjects

*HEMOGLOBINS, *ACTINOBACTERIA, *CHEMICAL structure, *EXTENDED X-ray absorption fine structure, *X-ray absorption near edge structure, *NEAR infrared spectroscopy, *QUANTITATIVE chemical analysis

Abstract

Abstract: The spectroscopic properties of the deoxygenated truncated hemoglobin from the actinobacterium Thermobifida fusca have been investigated by means of extended X-ray absorption fine structure (EXAFS), X-ray absorption near edge structure (XANES), and near infrared spectroscopies both at room and cryogenic temperatures. At room temperature the near infrared charge transfer band III occurs at 772nm, a value that is unusually high for a canonical deoxygenated hemoglobin species, and can only be found as a transient species after photolysis in vertebrate hemoglobins and myoglobins or under strongly dehydrating conditions. EXAFS and XANES quantitative analyses, carried out in parallel with deoxygenated horse myoglobin, revealed an unusually short iron–histidine distance 1.90±0.03Å, significantly shorter than the deoxygenated horse myoglobin distance of 2.11±0.02Å. These findings provide novel structural basis for discussing the fine structural geometry of the proximal site, and eventually mapping the coordinates of the metal with respect to the pyrrole nitrogens and the proximal histidine nitrogen. [Copyright &y& Elsevier]

Published

2010

13. Translational Fusion to Hmp Improves Heterologous Protein Expression.

Author

Wan, Xuanqing, Link, A. James, and Brynildsen, Mark P.

Subjects

PROTEIN expression, CHIMERIC proteins, HEMOGLOBINS, NITRIC oxide, CATALYTIC activity, MEMBRANE fusion

Abstract

Flavohemoglobins, which are widely distributed in prokaryotes and eukaryotes, play key roles in oxygen (O2) transport and nitric oxide (·NO) defense. Hmp is the flavohemoglobin of Escherichia coli, and here we report that the translational fusion of Hmp to the N-terminus of heterologous proteins increases their expression in E. coli. The effect required the fusion of the proteins, and was independent of both the O2-binding and catalytic activity of Hmp. Increased expression was at the translational level, likely to be downstream of initiation, and we observed that as little as the first 100 amino acids of Hmp were sufficient to boost protein production. These data demonstrate the potential of Hmp as an N-terminal fusion tag to increase protein yield, and suggest that the utility of bacterial hemoglobins to biotechnology goes beyond their O2 transport and ·NO detoxification capabilities. [ABSTRACT FROM AUTHOR]

Published

2022

14. Expression of the Bacterial Hemoglobin Gene from Vitreoscilla stercoraria Increases Rifamycin B Production in Amycolatopsis mediterranei

Author

Priscila, Guerra, Fernández, Francisco J., Absalón, Angel E., Suarez, Ma. Del Rocío, Sainoz, Mara, Barrios-González, Javier, and Mejía, Armando

Subjects

*RIFAMYCINS, *ACTINOBACTERIA, *ERYTHROMYCIN, *DISSOLVED oxygen in water, *GENE expression, *HEMOGLOBINS, *PLASMIDS, *FERMENTATION, *AMYCOLATOPSIS mediterranei

Abstract

It is well known that the culture for rifamycin B production by Amycolatopsis mediterranei requires high levels of dissolved oxygen, particularly in industrial processes. In this study, we report the construction of a vector for the expression of the bacterial hemoglobin gene (vhb) from Vitreoscilla stercoraria in a rifamycin B-overproducing strain of A. mediterranei. The effect was evaluated in the presence and absence of barbital. The vhb gene was cloned under the control of the PermE promoter, the Amycolatopsis lactamdurans plasmid pULVK2 origin of replication, the kanamycin-resistant gene (Km), the erythromycin-resistant gene (ermE) for selection, and ColE1. Industrial fermentation conditions were simulated in shake-flask cultures. Under low aeration, the transformed A. mediterranei strain with the vhb gene showed a 13.9% higher production of rifamycin B in a culture with barbital compared with the parental strain, and 29.5% higher production under the same conditions without barbital. [Copyright &y& Elsevier]

Published

2008

15. Functional implications of the proximal site hydrogen bonding network in Vitreoscilla hemoglobin (VHb): Role of Tyr95 (G5) and Tyr126 (H12)

Author

Kaur, Ramandeep, Ahuja, Sandhya, Anand, Arvind, Singh, Balwinder, Stark, Benjamin. C., Webster, Dale. A., and Dikshit, Kanak L.

Subjects

*HEMOGLOBINS, *GLOBIN genes, *GENETIC mutation, *TYROSINE

Abstract

Abstract: Although Vitreoscilla hemoglobin (VHb) carries a conventional globin fold, its proximal site geometry is unique in having a hydrogen-bonding network between proximal site residues, HisF8-TyrG5-GluH23 and TyrG5-TyrH12. TyrG5 and TyrH12 were mutated to study their relevance in VHb function. VHb G5 mutants (Tyr95Phe and Tyr95Leu showed no stable oxyform and nitric oxide dioxygenase activity, whereas, VHb H12 mutants (Tyr126Phe and Tyr126Leu) displayed little change in their oxygen affinity indicating a crucial role of Tyr95 in protein function. The VHb H12 mutant, Tyr126Leu, enhanced the intracellular pool of oxygen and cell growth better than VHb. Molecular modeling suggests that the replacement of tyrosine with leucine in Tyr126Leu creates an opening on the protein surface that may facilitate oxygen diffusion and accumulation. [Copyright &y& Elsevier]

Published

2008

16. A novel chimera: The “truncated hemoglobin-antibiotic monooxygenase” from Streptomyces avermitilis

Author

Bonamore, Alessandra, Attili, Andrea, Arenghi, Fabio, Catacchio, Bruno, Chiancone, Emilia, Morea, Veronica, and Boffi, Alberto

Subjects

*MONOOXYGENASES, *STREPTOMYCES avermitilis, *HEMOGLOBINS, *MOSAICISM

Abstract

Abstract: Novel chimeric proteins made of a globin domain fused with a “cofactor free” monooxygenase domain have been identified within the Streptomyces avermitilis and Frankia sp. genomes by means of bioinformatics methods. Structure based sequence alignments show that the globin domains of both proteins can be unambiguously assigned to the truncated hemoglobin family, in view of the striking similarity to the truncated hemoglobins from Mycobacterium tuberculosis, Thermobifida fusca and Bacillus subtilis. In turn, the non-heme domains belong to a family of small (about 100 aminoacids) homodimeric proteins annotated as antibiotic biosynthesis monooxygenases, despite the lack of a cofactor (e.g., a metal, a flavin or a heme) necessary for oxygen activation. The chimeric protein from S. avermitilis has been cloned, expressed and characterized. The protein is a stable dimer in solution based on analytical ultracentrifugation experiments. The heme ligand binding properties with oxygen and carbonmonoxide resemble those of other Group II truncated hemoglobins. In addition, an oxygen dependent redox activity has been demonstrated towards easily oxidizable substrates such as menadiol and p-aminophenol. These findings suggest novel functional roles of truncated hemoglobins, which might represent a vast class of multipurpose oxygen activating/scavenging proteins whose catalytic action is mediated by the interaction with cofactor free monooxygenases. [Copyright &y& Elsevier]

Published

2007

17. Expression of bacterial hemoglobin genes to improve astaxanthin production in a methanotrophic bacterium Methylomonas sp.

Author

Luan Tao, Sedkova, Natalia, Yao, Henry, Ye, Rick W., Sharpe, Pamela L., and Qiong Cheng

Subjects

*HEMOGLOBINS, *BLOOD proteins, *GENES, *ACTIN, *PROTEIN genetics, *ENZYMES, *ENTEROBACTERIACEAE, *ESCHERICHIA coli

Abstract

Astaxanthin has been widely used as a feed supplement in poultry and aquaculture industries. One challenge for astaxanthin production in bacteria is the low percentage of astaxanthin in the total carotenoids. An obligate methanotrophic bacterium Methylomonas sp. 16a was engineered to produce astaxanthin. Astaxanthin production appeared to be dramatically affected by oxygen availability. We examined whether astaxanthin production in Methylomonas could be improved by metabolic engineering through expression of bacterial hemoglobins. Three hemoglobin genes were identified in the genome of Methylomonas sp. 16a. Two of them, thbN1 and thbN2, belong to the family of group I truncated hemoglobins. The third one, thbO, belongs to the group II truncated hemoglobins. Heterologous expression of the truncated hemoglobins in Escherichia coli improved cell growth under microaerobic conditions by increasing final cell densities. Co-expression of the hemoglobin genes along with the crtWZ genes encoding astaxanthin synthesis enzymes in Methylomonas showed higher astaxanthin production than expression of the crtWZ genes alone on multicopy plasmids. The hemoglobins likely improved the activity of the oxygen-requiring CrtWZ enzymes for astaxanthin conversion. A plasmid-free production strain was constructed by integrating the thbN1–crtWZ cassette into the chromosome of an astaxanthin-producing Methylomonas strain. It showed higher astaxanthin production than the parent strain. [ABSTRACT FROM AUTHOR]

Published

2007

18. Comparison of 2-chlorobenzoic acid biodegradation in a membrane bioreactor by B. cepacia and B. cepacia bearing the bacterial hemoglobin gene

Author

Urgun-Demirtas, Meltem, Stark, Benjamin C., and Pagilla, K.R.

Subjects

*HEMOGLOBIN polymorphisms, *CHEMICAL decomposition, *ERYTHROCYTES, *HEMOGLOBINS

Abstract

Abstract: Degradation of 2-chlorobenzoic acid (2-CBA), a model recalcitrant chlorinated organic compound, by pure cultures of Burkholderia cepacia strain DNT with (transformed B. cepacia) and without (untransformed B. cepacia) the bacterial hemoglobin (Vitreoscilla hemoglobin, VHb) gene, vgb, was investigated in parallel membrane bioreactors (MBRs). This was done aseptically to prevent contamination during the operation of the MBRs. The objective was to determine whether the degradation of 2-CBA by cometabolism, using acetate as a primary carbon source, under hypoxic conditions might be enhanced for vgb-bearing cells in MBRs. The 2-CBA removal efficiency of transformed B. cepacia (97–99%) was slightly higher than that of untransformed B. cepacia (95–99%) at all stages. The average amount of chloride released from 2-CBA by transformed cells was also higher than for untransformed cells, 92–96% compared to 64–84% of the maximum theoretical amount, the exact value depending on the operating conditions. These results indicate that 2-CBA degradation/transformation is not accompanied by the stoichiometric release of chloride for the untransformed strain. The difference between percentages of 2-CBA removal and chloride release by untransformed cells was attributed to persistence, under hypoxic conditions, of the 2-CBA chlorine atom in 2-CBA metabolites. Growth of transformed cells was also significantly enhanced under hypoxic conditions compared to untransformed cells. For varying media compositions, the transformed cells reached higher cell densities (3.2–5.4g/L) relative to untransformed cells (2.8–4.7g/L) at food to microorganism ratios ranging from 0.44–0.59 to 0.38–0.49gCOD/g biomass-d The observed yields thus ranged from 0.16–0.20 and 0.15–0.18gTSS/g COD for untransformed and transformed cells, respectively. The value of the yield depended on medium composition. The MBR system using vgb-containing B. cepacia maintained a high biomass concentration without oxygen limitations and provided cell-free effluent. Hence, it may be useful for treating high volumes of water contaminated with low levels of recalcitrant organics. [Copyright &y& Elsevier]

Published

2006

19. Effect of Vitreoscilla hemoglobin gene (vgb) and metabolic inhibitors on cadmium uptake by the heterologous host Enterobacter aerogenes

Author

Khleifat, Khaled M., Abboud, Muayad M., and Al-Mustafa, Ahmed H.

Subjects

*ENTEROBACTER aerogenes, *ENZYME inhibitors, *CADMIUM, *HEMOGLOBIN polymorphisms

Abstract

Abstract: The effect of metabolic inhibitor/uncoupler(s) (CCCP and NaN3) and sulfhydryl reagents (dithiothreitol, 2-mercaptoethanol glutathione) on cadmium uptake was investigated in Enterobacter aerogenes strains. They include a transformed strain bearing the Vitreoscilla hemoglobin gene, vgb as well as control strains that lack this transformed gene. The vgb-harboring strains showed better uptake of cadmium than vgb-lacking strains. Under low aeration, there was 2-fold enhancement of Cd+2 uptake in vgb-harboring strains compared with 1.6-fold enhancement under high aeration. The CCCP caused 36, 40 and 58% inhibition in cadmium uptake of parental, pUC9-harboring and VHb-expressing cells, respectively. Similarly, the sodium azide exerted 44, 38 and 55% inhibition in Cd+2 uptake of parental, pUC9-harboring and VHb-expressing cells, respectively. Less extensive inhibition of Cd+2 uptake in the range of 11–39% was observed with sulfhydryl reagents. [Copyright &y& Elsevier]

Published

2006

20. Expression of Bacterial Hemoglobin in the Yeast, Pichia pastoris, with a Low O2-Induced Promoter.

Author

Liang-Jung Chien and Cheng-Kang Lee

Subjects

PICHIA pastoris, BLOOD proteins, BLOOD plasma, HEMOGLOBIN polymorphisms, HEMOGLOBINS, ERYTHROCYTES, HEMOPROTEINS, BLOOD cells

Abstract

The PsADH2-promoter of Pichia stipitis alcohol dehydrogenase II (ADH II) gene was employed to control the expression of Vitreoscilla hemoglobin (VHb) gene in Pichia pastoris. As in P. stipitis, the promoter was also induced microaerobically in P. pastoris. The expression level of VHb in P. pastoris at low O2 tension (<5% air saturation) was 16 nmol/g dry cell wt, i.e. about 24-fold higher than that at 60% air saturation. The expressed VHb enhanced growth of P. pastoris under microaerobic conditions. The application of O2-regulated promoter in P. pastoris revealed that induction of high-level expression of heterologous protein is feasible without addition of supplementary compounds. [ABSTRACT FROM AUTHOR]

Published

2005

21. 2-Chlorobenzoate Biodegradation by Recombinant Burkholderia cepacia under Hypoxic Conditions in a Membrane Bioreactor.

Author

Urgun-Demirtas, Meltem, Stark, Benjamin, and Pagilla, Krishna

Subjects

*BIODEGRADATION, *HEMOGLOBINS, *BIOREACTORS, *BACTERIA, *MATHEMATICAL models

Abstract

The feasibility of applying bacterial hemoglobin technology to degrade 2-chlorobenzoate (2-CBA) through co-metabolism under hypoxic conditions in a membrane bioreactor (MBR) process has been studied in the laboratory. 2-chlorobenzoate removal and chloride release rates in the MBR system varied from 99 to 78% and 98 to 73%, respectively, depending on the operation conditions. Chemical oxygen demand (COD) removal efficiencies were more than 90% at food-to-microorganism ratios ranging from 0.32 to 0.62 g/g/d, and the observed yield was 0.13 to 0.20 g biomass/g COD. The bacterial cell-floc size-distribution analysis showed that there is a significant change in bacterial floc size due to high shear stress during operation of the MBR. To characterize growth kinetics of Burkholderia cepacia strain dinitrotoluene, a mathematical model that describes co-metabolic oxidation of 2-CBA in an MBR has been developed. [ABSTRACT FROM AUTHOR]

Published

2005

22. Highly efficient protein expression and purification using bacterial hemoglobin fusion vector

Author

Kwon, Soo-Young, Choi, Yoon-Joo, Kang, Tae-Hong, Lee, Kwang-Hoon, Cha, Sun-Shin, Kim, Gyung-Hwa, Lee, Heung-Soo, Kim, Kyong-Tai, and Kim, Kyung-Jin

Subjects

*HEMOGLOBIN polymorphisms, *PROTEINS, *GENETIC polymorphisms, *THROMBIN

Abstract

Abstract: Recently developed bacterial hemoglobin (VHb) fusion expression vector has been widely used for the production of many target proteins due to its distinctive properties of expressing fusion protein with red color which facilitates visualization of the steps in purification, and increasing solubility of the target proteins. However, after intensive use of the vector, several defects have been found. In this report, we present a modified VHb fusion vector (pPosKJ) with higher efficiency, in which most of the defects were eliminated. First, it was found that thrombin protease often digests target protein as well as inserted thrombin cleavage site, so it was replaced by a TEV cleavage site for more specific cleavage of VHb from target protein. Second, a glycine-rich linker sequence was inserted between 6× his-tag and VHb to improve the affinity of 6× his-tag to Ni–NTA resin, resulting in higher purity of eluted fusion protein. Third, EcoRI and XhoI restriction sites located elsewhere in the vector were removed to make these restriction sites available for the cloning of target protein coding genes. A pPosKJ vector was fully examined with an anti-apoptotic BCL-2 family member of Caenorhabditis elegans, CED-9. A C-terminal VHb fusion expression vector (pPosKJC) was also constructed for stable expression of target proteins that may be difficult to express with an N-terminal fusion. Vaccinia-related kinase 1 (VRK1) was also successfully expressed and purified using the vector with high yield. Taken together, we suggest that the VHb fusion vector may be well suited for high-throughput protein expression and purification. [Copyright &y& Elsevier]

Published

2005

23. Improvement of bioremediation by Pseudomonas and Burkholderia by mutants of the Vitreoscilla hemoglobin gene ( vgb) integrated into their chromosomes.

Author

Yongsoon Kim, Webster, Dale A., and Stark, Benjamin C.

Subjects

*BIOREMEDIATION, *PSEUDOMONAS aeruginosa, *HEMOGLOBINS, *CHROMOSOMES, *GENETIC mutation, *PROTEIN engineering

Abstract

Using genetic engineering, the Vitreoscilla (bacterial) hemoglobin gene ( vgb) was integrated stably into the chromosomes of Pseudomonas aeruginosa and Burkholderia sp. strain DNT. This was done for both wild type vgb and two site-directed mutants of vgb that produce Vitreoscilla hemoglobin (VHb) with lowered oxygen affinities; in all cases functional VHb was expressed. Similar to previous results, the wild type VHb improved growth for both species and degradation of 2,4-dinitrotoluene ( Burkholderia sp.) or benzoic acid ( P. aeruginosa) under both normal and low aeration conditions. Both mutant vgbs enhanced these parameters compared to wild type vgb, and the improvement was seen in both species. The enhancements were generally greater at low aeration than at normal aeration. The results demonstrate the possibility that the positive effects provided by VHb may be augmented by protein engineering. [ABSTRACT FROM AUTHOR]

Published

2005

24. Vitreoscilla hemoglobin expressing Enterobacter aerogenes and Pseudomonas aeruginosa respond differently to carbon catabolite and oxygen repression for production of l-asparaginase, an enzyme used in cancer therapy

Author

Geckil, Hikmet, Gencer, Salih, and Uckun, Mirac

Subjects

*ENZYMES, *CARBON, *ASPARAGINASE, *GLUCOSE

Abstract

The production of antileukemic enzyme l-asparaginase in two distinctly related bacteria, Enterobacter aerogenes, Pseudomonas aeruginosa, and in their recombinants expressing the Vitresocilla hemoglobin (VHb) has been studied. Both bacteria showed a substantially different degree of carbon catabolite repression of the enzyme production. E. aerogenes grown under catabolite repression had more than 20-fold lower l-asparaginase activity than the controls. This figure was only 1.6-fold for P. aeruginosa. In the medium with restricted nutrient content, however, the inhibitory effect of glucose on the enzyme production was less pronounced. The presence of VHb, an efficient oxygen uptake system, had also different effects in both bacteria. Under conditions of no catabolite repression, this protein caused about 7-fold lower l-asparaginase activity in E. aerogenes, but similar or even slightly stimulatory effect in P. aeruginosa. The use of a relatively poor carbon source, mannitol, caused a lower l-asparaginase level and no glucose type catabolite repression. [Copyright &y& Elsevier]

Published

2004

25. Structure–function studies of the Vitreoscilla hemoglobin D-region

Author

Lee, Sang Yeol, Stark, Benjamin C., and Webster, Dale A.

Subjects

*HEMOGLOBINS, *FLAVINS, *FLAVOPROTEINS, *SPECTRUM analysis

Abstract

The D-region connecting helices C and E of Vitreoscilla hemoglobin (VHb) appears disordered in the crystal structure. Six site-directed mutants in this region were made to investigate its possible functions. The mutant VHb’s were analyzed using UV–visible and FTIR spectroscopy, using primarily the CO liganded forms, and their heme/protein ratios were determined. The results implicate Asp44, Arg47, and Glu49 as especially important in heme–globin interactions and ligand binding, and enabled construction of a model in which the D-region forms a loop that protrudes upward over the heme. Interactions between VHb (wild type and the D-region mutants) with the flavin domain of 2,4-DNT dioxygenase from Burkholderia were tested using bacterial two-hybrid screening. There was a correlation between the extent of the D-loop perturbation predicted for each mutant and the amount of the reduction in VHb–flavin domain interaction, suggesting that this region may be more generally involved in binding of VHb to flavoproteins. [Copyright &y& Elsevier]

Published

2004

26. Fusion protein system designed to provide color to aid in the expression and purification of proteins in Escherichia coli

Author

Park, Kyung-Won, Webster, Dale A., Stark, Benjamin C., Howard, Andrew J., and Kim, Kyung-Jin

Subjects

*HEMOGLOBINS, *GENES, *PROTEINS, *CHROMATOGRAPHIC analysis

Abstract

We have designed and constructed a new fusion expression vector (pKW32), which contains the His-tagged Vitreoscilla hemoglobin (VHb) coding gene upstream of the multiple cloning site. The pKW32 vector was designed to express target proteins as VHb fusions, which can be purified in one step by affinity chromatography. Due to the color of the heme in VHb, the VHb-fused target proteins have a red color that provides a visual aid for estimating their expression level and solubility. The red color can also be used as a visual marker throughout purification, while the concentration of the fusion protein can be determined by measuring the amount of VHb using carbon monoxide difference spectra. In addition, because of inherently high solubility of VHb, the fusion can increase the solubility of sparingly soluble target proteins. Target proteins can be easily separated from His-tagged VHb due to the presence of a thrombin-cleavage site between them. A mutant VHb, the soluble domain of Vitreoscilla cytochrome bo subunit II, and HIV integrase expressed and purified using the pKW32 system have native function. In addition, the integrase, which is known to be difficult to purify because of low solubility, was purified simply and without solubilizing agents using our system. [Copyright &y& Elsevier]

Published

2003

27. Expression of the gene coding for bacterial hemoglobin improves β-galactosidase production in a recombinant Pichia pastoris.

Author

Jyh-Ming Wu, Tsu-An Hsu, and Cheng-Kang Lee

Subjects

GENES, MOLECULAR genetics, HEREDITY, HEMOGLOBINS, PICHIA pastoris, BLOOD proteins

Abstract

Genes coding for Vitreoscilla hemoglobin (VHb) with peroxisome targeting signal (PTS1) tag and β-galactosidase were co-expressed in Pichia pastoris under the alcohol oxidase1 (AOX1) promoter. The expression of VHb-PTS1 had no positive effect on cell growth but significantly enhanced the whole cell β-galactosidase activity to 4-fold higher than that of VHb-free cell in yeast extract/peptone/methanol medium under aerobic cultivation. [ABSTRACT FROM AUTHOR]

Published

2003

28. Genetic engineering of Enterobacter aerogenes with the Vitreoscilla hemoglobin gene: cell growth, survival, and antioxidant enzyme status under oxidative stress

Author

Geckil, Hikmet, Gencer, Salih, Kahraman, Huseyin, and Erenler, Sebnem O.

Subjects

*GENETIC engineering, *ENTEROBACTER aerogenes, *HYDROGEN peroxide

Abstract

Hemoglobins in unicellular organisms, like the one here in the bacterium Vitreoscilla, have greater chemical reactivity than their homologues in multicellular organisms. They can catalyze redox reactions and may protect cells against oxidative stress. The ability of Vitreoscilla hemoglobin to complement deficiencies of terminal cytochrome oxidases in Escherichia coli also suggests that this hemoglobin can receive electrons during respiration. In this study, a recombinant strain of Enterobacter aerogenes engineered to produce the Vitreoscilla Hb was investigated with regard to its susceptibility to oxidative stress. The culture response to oxidative stress produced by exogenously applied hydrogen peroxide was characterized in terms of cell growth, survival and the activities of two key antioxidant enzymes (catalase and superoxide dismutase). The influence of the physiological state of the cells and different media upon these culture dynamics was determined. Results showed that the hemoglobin-expressing strain is quite distinct in terms of growth/survival properties and activity of antioxidant enzymes from that of non-hemoglobin counterparts. [Copyright &y& Elsevier]

Published

2003

29. Enhanced detoxification of organophosphates using recombinant Escherichia coli with co-expression of organophosphorus hydrolase and bacterial hemoglobin.

Author

Kang, Dong Gyun, Kim, Jaoon Y.H., and Cha, Hyung Joon

Subjects

ESCHERICHIA coli, GRAM-negative bacteria, ESCHERICHIA, ORGANOPHOSPHORUS compounds, PHOSPHORUS compounds, ERYTHROCYTES

Abstract

A significantly improved, recombinant Escherichia coli has been developed to degrade the toxic organophosphorus compound, Paraoxon, to non-toxic materials by co-expression of organophosphorus hydrolase (OPH) under trc promoter and Vitreoscilla hemoglobin (VHb) under O2 dependent nar promoter. VHb-expressing whole cells had significant enhancement of OPH activity (48%, 18.7 vs. 27.8 unit l-1) and bioconversion efficiency Vmax/Km (44%, 0.14 vs. 0.2 min-1) compared to VHb-free system. [ABSTRACT FROM AUTHOR]

Published

2002

30. Heterologous overexpression of bacterial hemoglobin VHb improves erythritol biosynthesis by yeast Yarrowia lipolytica

Author

Anna Biegalska, Aleksandra M. Mirończuk, Katarzyna E. Kosiorowska, Adam Dobrowolski, Magdalena Rakicka-Pustułka, and Mateusz Szczepańczyk

Subjects

Glycerol, Yarrowia lipolytica, lcsh:QR1-502, Yarrowia, Bioengineering, Erythritol, Applied Microbiology and Biotechnology, lcsh:Microbiology, Metabolic engineering, Hemoglobins, chemistry.chemical_compound, Bioreactors, Bacterial Proteins, Bioreactor, Cloning, Molecular, VHb, Strain (chemistry), biology, Research, biology.organism_classification, Yeast, Bacterial hemoglobin, Oxygen, Metabolic Engineering, Biochemistry, chemistry, Fermentation, Vitreoscilla, Microorganisms, Genetically-Modified, Biotechnology

Abstract

Background Yarrowia lipolytica is an unconventional yeast with a huge industrial potential. Despite many advantages for biotechnological applications, it possesses enormous demand for oxygen, which is a bottleneck in large scale production. In this study a codon optimized bacterial hemoglobin from Vitreoscilla stercoraria (VHb) was overexpressed in Y. lipolytica for efficient growth and erythritol synthesis from glycerol in low-oxygen conditions. Erythritol is a natural sweetener produced by Y. lipolytica under high osmotic pressure and at low pH, and this process requires high oxygen demand. Results Under these conditions the VHb overexpressing strain showed mostly yeast-type cells resulting in 83% higher erythritol titer in shake-flask experiments. During a bioreactor study the engineered strain showed higher erythritol productivity (QERY = 0.38 g/l h) and yield (YERY = 0.37 g/g) in comparison to the control strain (QERY = 0.30 g/l h, YERY = 0.29 g/g). Moreover, low stirring during the fermentation process resulted in modest foam formation. Conclusions This study showed that overexpression of VHb in Y. lipolytica allows for dynamic growth and efficient production of a value-added product from a low-value substrate.

Published

2019

31. Structural flexibility of the heme cavity in the cold-adapted truncated hemoglobin from the Antarctic marine bacterium Pseudoalteromonas haloplanktis TAC125

Author

Daniela Giordano, Darío A. Estrin, Martino Bolognesi, Juan Pablo Bustamante, Guido di Prisco, Alessia Riccio, Leonardo Boechi, Barry D. Howes, Giulietta Smulevich, Marco Nardini, Cinzia Verde, Alessandra Pesce, and Elena Caldelli

Subjects

Hemeprotein, hemeprotein, Protein Conformation, Stereochemistry, Molecular Sequence Data, Antarctic Regions, Marine Biology, Heme, adaptation, Biology, Crystallography, X-Ray, Biochemistry, Pseudoalteromonas haloplanktis, resonance Raman, Hemoglobins, chemistry.chemical_compound, Oxidoreductase, extreme environment, Amino Acid Sequence, Globin, Molecular Biology, chemistry.chemical_classification, Sequence Homology, Amino Acid, Otras Ciencias Químicas, Ciencias Químicas, Cell Biology, computer.file_format, Protein superfamily, biology.organism_classification, Protein Data Bank, molecular dynamics, Pseudoalteromonas, chemistry, bacterial hemoglobin, haloplanktis, X-ray structure, computer, Alpha helix, CIENCIAS NATURALES Y EXACTAS

Abstract

Truncated hemoglobins build one of the three branches of the globin protein superfamily. They display a characteristic two‐on‐two α‐helical sandwich fold and are clustered into three groups (I, II and III) based on distinct structural features. Truncated hemoglobins are present in eubacteria, cyanobacteria, protozoa and plants. Here we present a structural, spectroscopic and molecular dynamics characterization of a group‐II truncated hemoglobin, encoded by the PSHAa0030 gene from Pseudoalteromonas haloplanktis TAC125 (Ph‐2/2HbO), a cold‐adapted Antarctic marine bacterium hosting one flavohemoglobin and three distinct truncated hemoglobins. The Ph‐2/2HbO aquo‐met crystal structure (at 2.21 Å resolution) shows typical features of group‐II truncated hemoglobins, namely the two‐on‐two α‐helical sandwich fold, a helix Φ preceding the proximal helix F, and a heme distal‐site hydrogen‐bonded network that includes water molecules and several distal‐site residues, including His(58)CD1. Analysis of Ph‐2/2HbO by electron paramagnetic resonance, resonance Raman and electronic absorption spectra, under varied solution conditions, shows that Ph‐2/2HbO can access diverse heme ligation states. Among these, detection of a low‐spin heme hexa‐coordinated species suggests that residue Tyr(42)B10 can undergo large conformational changes in order to act as the sixth heme‐Fe ligand. Altogether, the results show that Ph‐2/2HbO maintains the general structural features of group‐II truncated hemoglobins but displays enhanced conformational flexibility in the proximity of the heme cavity, a property probably related to the functional challenges, such as low temperature, high O2 concentration and low kinetic energy of molecules, experienced by organisms living in the Antarctic environment. Fil: Giordano, Daniela. Consiglio Nazionale delle Ricerche; Italia Fil: Pesce, Alessandra. Università degli Studi di Genova; Italia Fil: Boechi, Leonardo. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Bustamante, Juan Pablo. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Caldelli, Elena. Universita Degli Studi Di Firenze; Italia Fil: Howes, Barry D.. Universita Degli Studi Di Firenze; Italia Fil: Riccio, Alessia. Consiglio Nazionale delle Ricerche; Italia Fil: di Prisco, Guido. Consiglio Nazionale delle Ricerche; Italia Fil: Nardini, Marco. Università degli Studi di Milano; Italia Fil: Estrin, Dario Ariel. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Smulevich, Giulietta. Universita Degli Studi Di Firenze; Italia Fil: Bolognesi, Martino. Università degli Studi di Milano; Italia Fil: Verde, Cinzia. Consiglio Nazionale delle Ricerche; Italia. Universita Di Roma; Italia

Published

2015

32. Roles of aspartate 44 in heme stability and oxygen binding of Vitreoscilla hemoglobin

Author

Lee, Sang Yeol

Published

2010

33. Expression of bacterial hemoglobin genes to improve astaxanthin production in a methanotrophic bacterium Methylomonas sp.

Author

Tao, Luan, Sedkova, Natalia, Yao, Henry, Ye, Rick W., Sharpe, Pamela L., and Cheng, Qiong

Published

2007

34. Expression of Bacterial Hemoglobin in the Yeast, Pichia pastoris, with a Low O2-Induced Promoter

Author

Chien, Liang-Jung and Lee, Cheng-Kang

Published

2005

35. Improvement of bioremediation by Pseudomonas and Burkholderia by mutants of the Vitreoscilla hemoglobin gene (vgb) integrated into their chromosomes

Author

Kim, Yongsoon, Webster, Dale A., and Stark, Benjamin C.

Published

2005

36. Vitreoscilla hemoglobin renders Enterobacter aerogenes highly susceptible to heavy metals

Author

Geckil, Hikmet, Arman, Ahmet, Gencer, Salih, Ates, Burhan, and Ramazan Yilmaz, H.

Published

2004

37. Enhanced production of acetoin and butanediol in recombinant Enterobacter aerogenes carrying Vitreoscilla hemoglobin gene

Author

Geckil, Hikmet, Barak, Ze’ev, Chipman, David M., Erenler, Sebnem O., Webster, Dale A., and Stark, Benjamin C.

Published

2004

38. Enhancement of 2,4-dinitrotoluene biodegradation by Burkholderia sp. in sand bioreactors using bacterial hemoglobin technology

Author

So, Juho, Webster, Dale A., Stark, Benjamin C., and Pagilla, Krishna R.

Published

2004

39. Biodegradation of 2-Chlorobenzoate by Recombinant Burkholderia Cepacia Expressing Vitreoscilla Hemoglobin Under Variable Levels of Oxygen Availability

Author

Urgun-Demirtas, Meltem, Pagilla, Krishna R., Stark, Benjamin C., and Webster, Dale

Published

2003

40. Expression of the gene coding for bacterial hemoglobin improves β-galactosidase production in a recombinant Pichia pastoris

Author

Wu, Jyh-Ming, Hsu, Tsu-An, and Lee, Cheng-Kang

Published

2003

41. The optical spectra of fluoride complexes can effectively probe H-bonding interactions in the distal cavity of heme proteins

Author

Enrica Droghetti, Francesco P. Nicoletti, Natascia Sciamanna, Alessandra Bonamore, Giulietta Smulevich, Alberto Boffi, Alessandro Feis, Department of Chemistry 'Ugo Schiff', Università degli Studi di Firenze = University of Florence [Firenze] (UNIFI), Department of Biochemical Sciences 'Rossi Fanelli', Institut Pasteur, Fondation Cenci Bolognetti - Istituto Pasteur Italia, Fondazione Cenci Bolognetti, Réseau International des Instituts Pasteur (RIIP)-Réseau International des Instituts Pasteur (RIIP)-Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome], and This work was supported by Institute Pasteur Fondazione Cenci Bolognetti (A. Boffi), MIUR FIRB RBFR08F41U_002 (A. Bonamore), and MIUR PRIN 2008BFJ34R (A. Feis and A. Boffi).

Subjects

Hemeproteins, Hemeprotein, Stereochemistry, bacterial hemoglobin, charge transfer bands, fluoride complexes, h-bonds, resonance raman, Spectrum Analysis, Raman, 010402 general chemistry, 01 natural sciences, Biochemistry, Inorganic Chemistry, Fluorides, 03 medical and health sciences, chemistry.chemical_compound, MESH: Protein Binding, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, Globin, MESH: Hydrogen Bonding, Heme, Histidine, 030304 developmental biology, MESH: Spectrum Analysis, Raman, 0303 health sciences, MESH: Hemeproteins, Ligand, Tryptophan, Truncated Hemoglobins, Hydrogen Bonding, MESH: Fluorides, 0104 chemical sciences, Crystallography, chemistry, Myoglobin, MESH: Truncated Hemoglobins, Fluoride, Protein Binding

Abstract

International audience; Fluoride complexes of heme proteins are characterized by unique spectroscopic properties, that provide a simple and direct means to monitor the interactions of the distal heme pocket environment with the iron-bound ligand. In particular, a strong correlation has been demonstrated between the wavelength of the iron-porphyrin charge transfer band at 600-620nm (CT1) and the strength of H-bonding donation from the distal amino acid side chains to the fluoride ion. In parallel, resonance Raman spectra with excitation within either the CT1 band or the charge transfer band at 450-460nm (CT2) have revealed that the iron-fluoride stretching frequency is directly affected by H-bonding to the fluoride ion. On this basis, globins and peroxidases display distinct spectroscopic features, which are strongly dependent on the capability of their distal residues (i.e. histidine, arginine and tryptophan) to be involved in H-bonding with the ligand. In particular, in peroxidases strong H-bonding corresponds to a low iron-fluoride stretching frequency and to a red-shifted CT1 band. The reverse is observed in myoglobin. Interestingly, a truncated hemoglobin of microbial origin (Thermobifida fusca) investigated in the present work, displays the specific spectroscopic signature of a peroxidase, in agreement with the presence of strong H-bonding residues, i.e., tyrosine and tryptophan, within the distal pocket.

Published

2011

42. Unusual proximal heme pocket geometry in the deoxygenated Thermobifida fusca: A combined spectroscopic investigation

Author

Alberto Boffi, Alessandra Bonamore, Alessandro Arcovito, Jean Louis Hazemann, Paola D'Angelo, Università cattolica del Sacro Cuore [Roma] (Unicatt), Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome], Matériaux, Rayonnements, Structure (MRS), Institut Néel (NEEL), and Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Centre National de la Recherche Scientifique (CNRS)-Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Centre National de la Recherche Scientifique (CNRS)

Subjects

Spectrophotometry, Infrared, Iron, Biophysics, Heme, Crystallography, X-Ray, Biochemistry, Metal, 03 medical and health sciences, chemistry.chemical_compound, Hemoglobins, Actinomycetales, Deoxygenated Hemoglobin, Animals, Histidine, Horses, Settore BIO/10 - BIOCHIMICA, 030304 developmental biology, [PHYS]Physics [physics], 0303 health sciences, Extended X-ray absorption fine structure, Chemistry, Myoglobin, 030302 biochemistry & molecular biology, Organic Chemistry, Photodissociation, XANES, Bacterial hemoglobin, Crystallography, EXAFS, bacterial hemoglobin, exafs, xanes, visual_art, visual_art.visual_art_medium, Absorption (chemistry)

Abstract

The spectroscopic properties of the deoxygenated truncated hemoglobin from the actinobacterium Thermobifida fusca have been investigated by means of extended X-ray absorption fine structure (EXAFS), X-ray absorption near edge structure (XANES), and near infrared spectroscopies both at room and cryogenic temperatures. At room temperature the near infrared charge transfer band III occurs at 772 nm, a value that is unusually high for a canonical deoxygenated hemoglobin species, and can only be found as a transient species after photolysis in vertebrate hemoglobins and myoglobins or under strongly dehydrating conditions. EXAFS and XANES quantitative analyses, carried out in parallel with deoxygenated horse myoglobin, revealed an unusually short iron–histidine distance 1.90 ± 0.03 A, significantly shorter than the deoxygenated horse myoglobin distance of 2.11 ± 0.02 A. These findings provide novel structural basis for discussing the fine structural geometry of the proximal site, and eventually mapping the coordinates of the metal with respect to the pyrrole nitrogens and the proximal histidine nitrogen.

Published

2009

43. Functional implications of the proximal site hydrogen bonding network in Vitreoscilla hemoglobin (VHb): role of Tyr95 (G5) and Tyr126 (H12)

Author

Arvind Anand, Dale A. Webster, Benjamin C. Stark, Sandhya Ahuja, Balwinder Singh, Kanak L. Dikshit, and Ramandeep Kaur

Subjects

Models, Molecular, Distal heme site, Mutant, Molecular Sequence Data, Biophysics, Molecular modeling, Ligands, Biochemistry, Protein Structure, Secondary, Bacterial Proteins, Structural Biology, Spectroscopy, Fourier Transform Infrared, Genetics, Escherichia coli, Vitreoscilla hemoglobin, Amino Acid Sequence, Tyrosine, Molecular Biology, Ligand binding, Flavohemoglobin, biology, Cell growth, Chemistry, Truncated Hemoglobins, Hydrogen Bonding, Cell Biology, biology.organism_classification, Bacterial hemoglobin, Globin fold, Proximal heme site, Mutation, Nitric oxide dioxygenase activity, Leucine, Vitreoscilla, Intracellular

Abstract

Although Vitreoscilla hemoglobin (VHb) carries a conventional globin fold, its proximal site geometry is unique in having a hydrogen-bonding network between proximal site residues, HisF8-TyrG5-GluH23 and TyrG5-TyrH12. TyrG5 and TyrH12 were mutated to study their relevance in VHb function. VHb G5 mutants (Tyr95Phe and Tyr95Leu showed no stable oxyform and nitric oxide dioxygenase activity, whereas, VHb H12 mutants (Tyr126Phe and Tyr126Leu) displayed little change in their oxygen affinity indicating a crucial role of Tyr95 in protein function. The VHb H12 mutant, Tyr126Leu, enhanced the intracellular pool of oxygen and cell growth better than VHb. Molecular modeling suggests that the replacement of tyrosine with leucine in Tyr126Leu creates an opening on the protein surface that may facilitate oxygen diffusion and accumulation.

Published

2008

44. Studies on the bacterial hemoglobin fromVitreoscilla: Redox properties and spectroscopic characterization of the different forms of the hemoprotein

Author

Kroneck, Peter M. H., Jakob, Wolfgang, Webster, Dale A., and DeMaio, Richard

Published

1991

45. A novel chimera: the 'truncated hemoglobin-antibiotic monooxygenase' from Streptomyces avermitilis

Author

Andrea Attili, Veronica Morea, Emilia Chiancone, Alberto Boffi, Fabio Arenghi, Alessandra Bonamore, and Bruno Catacchio

Subjects

Hemeproteins, Models, Molecular, Protein Conformation, Recombinant Fusion Proteins, Molecular Sequence Data, Flavin group, Bacillus subtilis, bacterial hemoglobin, antibiotic biosynthesis monooxygenase, heme peroxidase, quinol oxidase, Cofactor, Protein Structure, Secondary, Mixed Function Oxygenases, chemistry.chemical_compound, Bacterial Proteins, Genetics, Globin, Amino Acid Sequence, Heme, Carbon Monoxide, biology, Sequence Homology, Amino Acid, General Medicine, Monooxygenase, biology.organism_classification, Fusion protein, Streptomyces, Oxygen, Kinetics, Biochemistry, chemistry, biology.protein, Spectrophotometry, Ultraviolet, Oxidoreductases, Streptomyces avermitilis, Dimerization, Protein Binding

Abstract

Novel chimeric proteins made of a globin domain fused with a "cofactor free" monooxygenase domain have been identified within the Streptomyces avermitilis and Frankia sp. genomes by means of bioinformatics methods. Structure based sequence alignments show that the globin domains of both proteins can be unambiguously assigned to the truncated hemoglobin family, in view of the striking similarity to the truncated hemoglobins from Mycobacterium tuberculosis, Thermobifida fusca and Bacillus subtilis. In turn, the non-heme domains belong to a family of small (about 100 aminoacids) homodimeric proteins annotated as antibiotic biosynthesis monooxygenases, despite the lack of a cofactor (e.g., a metal, a flavin or a heme) necessary for oxygen activation. The chimeric protein from S. avermitilis has been cloned, expressed and characterized. The protein is a stable dimer in solution based on analytical ultracentrifugation experiments. The heme ligand binding properties with oxygen and carbonmonoxide resemble those of other Group II truncated hemoglobins. In addition, an oxygen dependent redox activity has been demonstrated towards easily oxidizable substrates such as menadiol and p-aminophenol. These findings suggest novel functional roles of truncated hemoglobins, which might represent a vast class of multipurpose oxygen activating/scavenging proteins whose catalytic action is mediated by the interaction with cofactor free monooxygenases.

Published

2007

46. Unusual structure of the oxygen-binding site in the dimeric bacterial hemoglobin from Vitreoscilla sp

Author

Alessandro Coda, Cataldo Tarricone, Paolo Ascenzi, Martino Bolognesi, Alessandro Galizzi, Tarricone, C, Galizzi, A, Coda, A, Ascenzi, Paolo, and Bolognesi, M.

Subjects

Models, Molecular, Protein Folding, Macromolecular Substances, Molecular Sequence Data, Heme, Biology, medicine.disease_cause, Crystallography, X-Ray, Protein Structure, Secondary, chemistry.chemical_compound, Hemoglobins, Structural Biology, medicine, Globin, Amino Acid Sequence, Escherichia coli, Molecular Biology, Vitreoscilla sp. hemoglobin, Binding Sites, Gram-Negative Aerobic Bacteria, Sequence Homology, Amino Acid, Oxygen transport, biology.organism_classification, Recombinant Proteins, Globin fold, Globins, Oxygen, chemistry, Biochemistry, nonvertebrate globin structure, bacterial hemoglobin, Oxyhemoglobins, oxygen-binding heme domains, Hemoglobin, Vitreoscilla, Dimerization, Oxygen binding

Abstract

Background: The first hemoglobin identified in bacteria was isolated from Vitreoscilla stercoraria (VtHb) as a homodimeric species. The wild-type protein has been reported to display medium oxygen affinity and cooperative ligand-binding properties. Moreover, VtHb can support aerobic growth in Escherichia coli with impaired terminal oxidase function. This ability of VtHb to improve the growth properties of E. coli has important applications in fermentation technology, assisting the overexpression of recombinant proteins and antibiotics. Oxygen binding heme domains have been identified in chimeric proteins from bacteria and yeast, where they are covalently linked to FAD- and NAD(P)H-binding domains. We investigate here the fold, the distal heme site structure and the quaternary assembly of a bacterial hemoglobin which does not bear the typical flavohemoglobin domain organization. Results: The VtHb three-dimensional structure conforms to the well known globin fold. Nevertheless, the polypeptide segment connecting helices C and E is disordered, and residues E7–E10 (defined according to the standard globin fold nomenclature) do not adopt the usual α -helical conformation, thus locating Gln53(E7) out of the heme pocket. Binding of azide to the heme iron introduces substantial structural perturbations in the heme distal site residues, particularly Tyr29(B10) and Pro54(E8). The quaternary assembly of homodimeric VtHb, not observed before within the globin family, is based on a molecular interface defined by helices F and H of both subunits, the two heme iron atoms being 34 A apart. Conclusions: The unusual heme distal site structure observed shows that previously undescribed molecular mechanisms of ligand stabilization are operative in VtHb. The polypeptide chain disorder observed in the CE region indicates a potential site of interaction with the FAD/NADH reductase partner, in analogy with observations in the chimeric flavohemoglobin from Alcaligenes eutrophus .

Published

1997