Redox driven metabolic tuning: Carbon source and aeration affect synthesis of poly(3-hydroxybutyrate) in Escherichia coli

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Growth and polymer synthesis were studied in a recombinant E. coli strain carrying phaBAC and phaP of Azotobacter sp. strain FA8 using different carbon sources and oxygen availability conditions. The results obtained with glucose or glycerol were completely different, demonstrating that the metaboli...

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Detalles Bibliográficos
Autor principal: Nikel, P.I
Otros Autores: de Almeida, A., Giordano, A.M, Pettinari, M.J
Formato: Capítulo de libro
Lenguaje:Inglés
Publicado: 2010
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CARBON
Acceso en línea:Registro en Scopus
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Biblioteca Central Dr. Luis F. Leloir (FCEN) de Universidad de Buenos Aires
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024 7 |2 scopus  |a 2-s2.0-79960294854 
024 7 |2 cas  |a glycerol, 56-81-5; poly(3 hydroxybutyric acid), 26063-00-3; Carbon, 7440-44-0; Glucose, 50-99-7; Glycerol, 56-81-5; Hydroxybutyrates; Oxygen, 7782-44-7; Polyesters; poly-beta-hydroxybutyrate, 26063-00-3 
040 |a Scopus  |b spa  |c AR-BaUEN  |d AR-BaUEN 
100 1 |a Nikel, P.I. 
245 1 0 |a Redox driven metabolic tuning: Carbon source and aeration affect synthesis of poly(3-hydroxybutyrate) in Escherichia coli 
260 |c 2010 
270 1 0 |m Pettinari, M. J.; Departamento de Química Biológica, Facultad de Ciencias Exactas y Naturales, Universidad Nacional de Buenos Aires, Buenos Aires, Argentina; email: jul@qb.fcen.uba.ar 
506 |2 openaire  |e Política editorial 
504 |a Dawes, E.A., Senior, P.J., The role and regulation of energy reserve polymers in micro-organisms (1973) Adv Microb Physiol, 10, pp. 135-266 
504 |a Madison, L.L., Huisman, G.W., Metabolic engineering of poly(3-hydroxyalkanoates): From dna to plastic (1999) Microbiol Mol Biol Rev, 63, pp. 21-53 
504 |a López, N.I., Floccari, M.E., Steinbüchel, A., García, A.F., Méndez, B.S., Effect of poly(3-hydroxybutyrate) (phb) content on the starvation-survival of bacteria in natural waters (1995) FEMS Microbiol Ecol, 16, pp. 95-112 
504 |a Ruiz, J.A., Fernández, R.O., Nikel, P.I., Méndez, B.S., Pettinari, M.J., Dye (arc) mutants: Insights into an unexplained phenotype and its suppression by the synthesis of poly(3-hydroxybutyrate) in escherichia coli recombinants (2006) FEMS Microbiol Lett, 258, pp. 55-60 
504 |a Taidi, B., Anderson, A.J., Dawes, E.A., Byrom, D., Effect of carbon source and concentration on the molecular mass of poly(3-hydroxybutyrate) produced by methylobacterium extorquens and alcaligenes eutrophus (1994) Appl Microbiol Biotechnol, 40, pp. 786-790 
504 |a Shiloach, J., Fass, R., Growing, E., Coli to high cell density-A historical perspective on method development (2005) Biotechnol Adv, 23, pp. 345-357 
504 |a Nikel, P.I., de Almeida, A., Melillo, E.C., Galvagno, M.A., Pettinari, M.J., New recombinant escherichia coli strain tailored for the production of poly(3-hydroxybutyrate) from agroindustrial by-products (2006) Appl Environ Microbiol, 72, pp. 3949-3954 
504 |a Solaiman, D.K., Ashby, R.D., Foglia, T.A., Marmer, W.N., Conversion of agricultural feedstock and coproducts into poly(hydroxyalkanoates) (2006) Appl Microbiol Biotechnol, 71, pp. 783-789 
504 |a de Almeida, A., Nikel, P.I., Giordano, A.M., Pettinari, M.J., Effects of granule-associated protein phap on glycerol-dependent growth and polymer production in poly(3-hydroxybutyrate)-producing escherichia coli (2007) Appl Environ Microbiol, 73, pp. 7912-7916 
504 |a Madden, L.A., Anderson, A.J., Shah, D.T., Asrar, J., Chain termination in polyhydroxyalkanoate synthesis: Involvement of exogenous hydroxy-compounds as chain transfer agents (1999) Internatl J Biol Macromol, 25, pp. 43-53 
504 |a Agus, J., Kahar, P., Abe, H., Doi, Y., Tsuge, T., Molecular weight characterization of poly[(r)-3-hydroxybutyrate] synthesized by genetically engineered strains of escherichia coli (2006) Polym Degrad Stab, 91, pp. 1138-1146 
504 |a Choi, J.I., Lee, S.Y., High level production of supra molecular weight poly(3-hydroxybutyrate) by metabolically engineered escherichia coli (2004) Biotechnol Bioprocess Eng, 9, pp. 196-200 
504 |a Ahn, W.S., Park, S.J., Lee, S.Y., Production of poly(3- hydroxybutyrate) by fed-batch culture of recombinant escherichia coli with a highly concentrated whey solution (2000) Appl Environ Microbiol, 66, pp. 3624-3627 
504 |a Lee, S.Y., Choi, J., Wong, H.H., Recent advances in polyhydroxyalkanoate production by bacterial fermentation: Mini-review (1999) Internatl J Biol Macromol, 25, pp. 31-36 
504 |a Nikel, P.I., Pettinari, M.J., Galvagno, M.A., Méndez, B.S., Poly(3-hydroxybutyrate) synthesis by recombinant escherichia coli arca mutants in microaerobiosis (2006) Appl Environ Microbiol, 72, pp. 2614-2620 
504 |a Nikel, P.I., Pettinari, M.J., Galvagno, M.A., Méndez, B.S., Poly(3-hydroxybutyrate) synthesis from glycerol by a recombinant escherichia coli arca mutant in fed-batch microaerobic cultures (2008) Appl Microbiol Biotechnol, 77, pp. 1337-1343 
504 |a Nikel, P.I., de Almeida, A., Pettinari, M.J., Méndez, B.S., The legacy of hfrh: Mutations in the two-component system crebc are responsible for the unusual phenotype of an escherichia coli arca mutant (2008) J Bacteriol, 190, pp. 3404-3407 
504 |a de Almeida, A., Giordano, A.M., Nikel, P.I., Pettinari, M.J., Effects of aeration on the synthesis of poly(3-hydroxybutyrate) from glycerol and glucose in recombinant escherichia coli (2010) Appl Environ Microbiol, 76, pp. 2036-2040 
504 |a Shalel-Levanon, S., San, K.Y., Bennett, G.N., Effect of oxygen on the escherichia coli arca and fnr regulation systems and metabolic responses (2005) Biotechnol Bioeng, 89, pp. 556-564 
504 |a Clark, D.P., The fermentation pathways of escherichia coli (1989) FEMS Microbiol Rev, 5, pp. 223-234 
504 |a San, K.Y., Bennett, G.N., Berríos-Rivera, S.J., Vidali, R.V., Yang, Y.T., Horton, R.E., Metabolic engineering through cofactor manipulation and its effect on metabolic flux redistribution in escherichia coli (2002) Metab Eng, 4, pp. 182-192 
504 |a Nikel, P.I., Pettinari, M.J., Ramirez, M.C., Galvagno, M.A., Méndez, B.S., Escherichia coli arca mutants: Metabolic profile characterization of microaerobic cultures using glycerol as a carbon source (2008) J Mol Microbiol Biotechnol, 15, pp. 48-54 
520 3 |a Growth and polymer synthesis were studied in a recombinant E. coli strain carrying phaBAC and phaP of Azotobacter sp. strain FA8 using different carbon sources and oxygen availability conditions. The results obtained with glucose or glycerol were completely different, demonstrating that the metabolic routes leading to the synthesis of the polymer when using glycerol do not respond to environmental conditions such as oxygen availability in the same way as they do when other substrates, such as glucose, are used. When cells were grown in a bioreactor using glucose the amount of polymer accumulated at low aeration was reduced by half when compared to high aeration, while glycerol cultures produced at low aeration almost twice the amount of polymer synthesized at the higher aeration condition. The synthesis of other metabolic products, such as ethanol, lactate, formate and acetate, were also affected by both the carbon source used and aeration conditions. In glucose cultures, lactate and formate production increased in low agitation compared to high agitation, while poly(3-hydroxybutyrate) synthesis decreased. In glycerol cultures, the amount of acids produced also increased when agitation was lowered, but carbon flow was mostly redirected towards ethanol and poly(3-hydroxybutyrate). These results indicated that carbon partitioning differed depending on both carbon source and oxygen availability, and that aeration conditions had different effects on the synthesis of the polymer and other metabolic products when glucose or glycerol were used. © 2010 Landes Bioscience.  |l eng 
536 |a Detalles de la financiación: Universidad de Buenos Aires, X173 
536 |a Detalles de la financiación: Financial funding by Universidad de Buenos Aires (Project X173) is grate fully acknowledged. P.I.N. and M.J.P. are researchers from Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET, Argentina). A.D.A. holds a post-doctoral fellowship from CONICET. 
593 |a Departamento de Química Biológica, Facultad de Ciencias Exactas y Naturales, Universidad Nacional de Buenos Aires, Buenos Aires, Argentina 
593 |a Instituto de Investigaciones Biotecnológicas, Universidad Nacional de San Martín, Buenos Aires, Argentina 
690 1 0 |a AERATION 
690 1 0 |a CARBON PARTITIONING 
690 1 0 |a ESCHERICHIA COLI 
690 1 0 |a GLUCOSE 
690 1 0 |a GLYCEROL 
690 1 0 |a OXYGEN AVAILABILITY 
690 1 0 |a POLY(3-HYDROXYBUTYRATE) 
690 1 0 |a GLYCEROL 
690 1 0 |a POLY(3 HYDROXYBUTYRIC ACID) 
690 1 0 |a AERATION 
690 1 0 |a ARTICLE 
690 1 0 |a BACTERIAL GROWTH 
690 1 0 |a BACTERIAL METABOLISM 
690 1 0 |a BACTERIUM CULTURE 
690 1 0 |a CARBON SOURCE 
690 1 0 |a ESCHERICHIA COLI 
690 1 0 |a NONHUMAN 
690 1 0 |a OXIDATION REDUCTION REACTION 
690 1 0 |a SYNTHESIS 
690 1 0 |a ESCHERICHIA COLI 
690 1 0 |a GLUCOSE 
690 1 0 |a GLYCEROL 
690 1 0 |a HYDROXYBUTYRATES 
690 1 0 |a OXIDATION-REDUCTION 
690 1 0 |a OXYGEN 
690 1 0 |a POLYESTERS 
690 1 0 |a AZOTOBACTER 
690 1 0 |a ESCHERICHIA COLI 
650 1 7 |2 spines  |a CARBON 
700 1 |a de Almeida, A. 
700 1 |a Giordano, A.M. 
700 1 |a Pettinari, M.J. 
773 0 |d 2010  |g v. 1  |h pp. 291-295  |k n. 4  |p Bioeng. Bugs  |x 19491018  |t Bioengineered Bugs 
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856 4 0 |u https://hdl.handle.net/20.500.12110/paper_19491018_v1_n4_p291_Nikel  |y Handle 
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962 |a info:eu-repo/semantics/article  |a info:ar-repo/semantics/artículo  |b info:eu-repo/semantics/publishedVersion 
999 |c 68396 

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