Team:UNIPV-Pavia/Project/References

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     <font face="Pristina" size="50"><b>References</b></font>
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     <font face="Pristina" size="50" ><b>References</b></font>
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[2] http://www.openwetware.org/wiki/e. coli genotypes, 2008.
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[1] <html><a href="http://openwetware.org/wiki/E._coli_genotypes" target="_blank">http://openwetware.org/wiki/E._coli_genotypes</a></html>
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[2] AINT. Tecnologie disponibili per il trattamento di siero di latte e reflui
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dell'industria lattiero-casearia e localizzazione degli impianti in Puglia.
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Technical report, Agenzia per l'innovazione e l'internazionalizzazione delle
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[5] L. Banchelli. Recupero dei costituenti organici del siero del latte e bioconversione
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[3] L. Banchelli. Recupero dei costituenti organici del siero del latte e bioconversione
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in proteine unicellulari da lievito alimentare. Technical report,
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OGM - Food Biopollution certification, 2002.
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[6] S. Bansal, H.S. Oberoi, G.S.Dhillon, and R.T: pAtil. Production of betagalactosidase
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[4] S. Bansal, H.S. Oberoi, G.S.Dhillon, and R.T: pAtil. Production of betagalactosidase
by Kluyveromyces marxianus MTCC 1388 using whey and
by Kluyveromyces marxianus MTCC 1388 using whey and
effect of four different methods of enzyme extraction on betagalactosidase
effect of four different methods of enzyme extraction on betagalactosidase
activity. Indian J. Microbial, September 2008.
activity. Indian J. Microbial, September 2008.
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[7] C. Bi, X. Zhang, L.O. Ingram, and J.F. Preston. Genetic engineering
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[5] C. Bi, X. Zhang, L.O. Ingram, and J.F. Preston. Genetic engineering
of Enterobacter absuriae strain JDR-1 for efficient production of ethanol
of Enterobacter absuriae strain JDR-1 for efficient production of ethanol
from hemicellulose hydrolysate. Applied and enviromental microbiology,
from hemicellulose hydrolysate. Applied and enviromental microbiology,
75(18):5743-5749, September 2009.
75(18):5743-5749, September 2009.
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[9] E. Brunelli. Nuove idee per nuove specie batteriche. Industria della carta,
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[6] E. Brunelli. Nuove idee per nuove specie batteriche. Industria della carta,
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[10] B. Canton. http://partsregistry.org/Part:BBa f2620, 2008.
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[7] Barry Canton, Anna Labno, and Drew Endy. Refinement and standardization
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[11] Barry Canton, Anna Labno, and Drew Endy. Refinement and standardization
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of synthetic biological parts and devices. Nature biotechnology,
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[12] Bartholomew Canton. Engineering the interface between cellular chassis
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[8] Bartholomew Canton. Engineering the interface between cellular chassis
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Technology, May 2008.
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[13] T. Conway, A. Osman, J.I.Konnan, E.M.Hoffman, and L.O.Ingram.
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[9] T. Conway, A. Osman, J.I.Konnan, E.M.Hoffman, and L.O.Ingram.
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Promoter and nucleotide sequence of the Zymomonas mobilis Pyruvate
Decarboxylase. Journal of Bacteriology, 169(3):949-954, March 1987.
Decarboxylase. Journal of Bacteriology, 169(3):949-954, March 1987.
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ERVET Emilia-Romagna Valorizzazione Economica Territorio SpA, 2002.
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[11] Programma di Iniziativa Comunitaria Interreg III A Grecia-Italia 2000-
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valorizzazione dei reflui caseari. Technical report, Programma di Iniziativa
valorizzazione dei reflui caseari. Technical report, Programma di Iniziativa
Comunitaria Interreg III A Grecia-Italia 2000-2006, Assessorato Attivit`a
Comunitaria Interreg III A Grecia-Italia 2000-2006, Assessorato Attivit`a
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Produttive della Provincia di Bari, 2008.
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[17] M.D. Ermolaeva. Synonymous codon usage in bacteria. Current Issues of
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[13] M.D. Ermolaeva. Synonymous codon usage in bacteria. Current Issues of
Molecular Biology, 3(4):91-97, 2001.
Molecular Biology, 3(4):91-97, 2001.
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[19] M. Faccia. Studio sull'entità e sulla tipologia dei reflui prodotti dall'industria
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[14] Hyun-Beom Seo, Hyun-Joo Kim, Oh-Kyu Lee, Ji-Hye Ha, Hyeon-Yong Lee and Kyung-Hwan Jung. Measurement of ethanol concentration using solvent extraction and dichromate oxidation and its application to bioethanol production process. J Ind Microbiol Biotechnol (2009) 36:285–292.
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[15] M. Faccia. Studio sull'entità e sulla tipologia dei reflui prodotti dall'industria
lattiero-casearia in provincia di Bari. Technical report, Universit`a
lattiero-casearia in provincia di Bari. Technical report, Universit`a
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[16] R. Gelleti, R. Jodice, G. Mauro, D. Migliardi, D. Picco, M. Pin, E. Tomasinsig,
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[21] B. Hahn-Hagerdal, M. Galbe, M.F. Gorwa-Grauslund, G. Liden, and
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[39] Bansal S, Oberoi HS, Dhillon GS, Patil RT. Production of β-galactosidase by Kluyveromyces marxianus MTCC 1388 using whey and effect of four different methods of enzyme extraction on β-galactosidase activity. Indian J Microbiol. 2008 Sept;48(3):337-341.   
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[29] Bansal S, Oberoi HS, Dhillon GS, Patil RT. Production of β-galactosidase by Kluyveromyces marxianus MTCC 1388 using whey and effect of four different methods of enzyme extraction on β-galactosidase activity. Indian J Microbiol. 2008 Sept;48(3):337-341.   
   
   
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[40] Dien BS, Cotta MA, Jeffries TW. Bacteria engineered for fuel ethanol production: current status. Applied microbiology and biotechnology. 2003 Dec;63(3):258-266.
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[34] Guimarães PM, Klein J, Domingues L, Teixeira JA. Fermentation performance of a recombinant lactose-consuming flocculating Saccharomyces cerevisiae stain. Braz J Food Technol. 2005 Mar;5°SIPAL:34-39.
   
   
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[48] Ingram LO, Conway T, Clark DP, Sewell GW, Preston JF. Genetic engineering of ethanol production in Escherichia coli. Appl Environ Microbiol. 1987 Oct;53(10):2420-2425.  
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[38] Ingram LO, Conway T, Clark DP, Sewell GW, Preston JF. Genetic engineering of ethanol production in Escherichia coli. Appl Environ Microbiol. 1987 Oct;53(10):2420-2425.  
   
   
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[49] Kalscheuer R, Stölting T, Steinbüchel A. Microdiesel: Escherichia coli engineered for fuel production. Microbiology. 2006 Sep;152(Pt 9):2529-2536.
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[50] Leite AR, Guimaraes WV, Fernardes de Araujo E, Silva DO. Fermentation of sweet whey by recombinant Escherichia coli. Braz J Food Technol. 2000;31:212-215.
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[51] Lewandowska M and Kujawski W. Ethanol production from lactose in a fermentation/pervaporation system. J Food Eng. 2007 Mar;79(2):430-437.
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[41] Lewandowska M and Kujawski W. Ethanol production from lactose in a fermentation/pervaporation system. J Food Eng. 2007 Mar;79(2):430-437.
   
   
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[52] Ling KC. Whey to ethanol a biofuel role for dairy cooperatives. USDA Rural Development. Research Report 214. 2008 Feb.
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[42] Ling KC. Whey to ethanol a biofuel role for dairy cooperatives. USDA Rural Development. Research Report 214. 2008 Feb.
   
   
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[53] Ostojic S, Pavlovic M, Zivic M, Filipovic Z, Gorjanovi S, Hranisavljevi S and Dojinovic M. Processing of whey from dairy industry waste. Environ Chem Lett. 2005 Aug;3(1):29-32.  
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[43] Ostojic S, Pavlovic M, Zivic M, Filipovic Z, Gorjanovi S, Hranisavljevi S and Dojinovic M. Processing of whey from dairy industry waste. Environ Chem Lett. 2005 Aug;3(1):29-32.  
   
   
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[54] Savage DF, Way J, Silver PA. Defossing fuel: how synthetic biology can transform biofuel production. ACS Chem Bio. 2008 Jan;3(1):13-16.
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[44] Savage DF, Way J, Silver PA. Defossing fuel: how synthetic biology can transform biofuel production. ACS Chem Bio. 2008 Jan;3(1):13-16.
   
   
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[55] Silveira WB, Passos FJV, Mantovani HC and Passos FML. Ethanol production from cheese whey permeate by Kluyveromyces marxianus UFV-3: A flux analysis of oxido-reductive metabolism as a function of lactose concentration and oxygen levels. Enzym Microb Tech. 2005 May;36(7):930-936.
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[45] Silveira WB, Passos FJV, Mantovani HC and Passos FML. Ethanol production from cheese whey permeate by Kluyveromyces marxianus UFV-3: A flux analysis of oxido-reductive metabolism as a function of lactose concentration and oxygen levels. Enzym Microb Tech. 2005 May;36(7):930-936.
   
   
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[56] Staniszewski M, Kujawski W and Lewandowska M. Ethanol production from whey in bioreactor with co-immobilized enzyme and yeast cells followed by pervaporative recovery of product – Kinetic model predictions. J Food Eng. 2007 Oct; 82(4):618-625.  
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[46] Staniszewski M, Kujawski W and Lewandowska M. Ethanol production from whey in bioreactor with co-immobilized enzyme and yeast cells followed by pervaporative recovery of product – Kinetic model predictions. J Food Eng. 2007 Oct; 82(4):618-625.  
   
   
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[57] Recupero dei costituenti organici del siero di latte e bioconversione in proteine unicellulari da lievito alimentare. Pilot project I/02/B/F/PP-120211
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[47] Recupero dei costituenti organici del siero di latte e bioconversione in proteine unicellulari da lievito alimentare. Pilot project I/02/B/F/PP-120211
   
   
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[58] Agenzia per l'innovazione e l'internazionalizzazione delle imprese. Tecnologie disponibili per il trattamento di siero di latte e reflui dell'industria lattiero casearia e localizzazione degli impianti in Puglia.  
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[48] Agenzia per l'innovazione e l'internazionalizzazione delle imprese. Tecnologie disponibili per il trattamento di siero di latte e reflui dell'industria lattiero casearia e localizzazione degli impianti in Puglia.  
   
   
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[59] Tipologie di recupero tradizionale del siero (http://www.tecnologiepulite)
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[50] Rachel Karpel, Tamar Alon, Gad GlaserS, Shimon Schuldiner, and Etana Padan - Expression of a Sodium Proton Antiporter (NhaA) in Escherichia coli Is Inducedby Na+ and Li+ Ions - The Journal of Biological Chemistry. 1991 Nov; 266(32):21753-21759.
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[53] Nir Dover And Etana Padan - Transcription of nhaA, the Main Na+/H+ Antiporter of Escherichia coli, Is Regulated by Na+ and Growth Phase - Journal Of Bacteriology, 2001 Jan.; 183(2):644–653.
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Latest revision as of 23:01, 21 October 2009

EthanolPVanimation.gif



References

[1] http://openwetware.org/wiki/E._coli_genotypes

[2] AINT. Tecnologie disponibili per il trattamento di siero di latte e reflui dell'industria lattiero-casearia e localizzazione degli impianti in Puglia. Technical report, Agenzia per l'innovazione e l'internazionalizzazione delle imprese, 2007.

[3] L. Banchelli. Recupero dei costituenti organici del siero del latte e bioconversione in proteine unicellulari da lievito alimentare. Technical report, OGM - Food Biopollution certification, 2002.

[4] S. Bansal, H.S. Oberoi, G.S.Dhillon, and R.T: pAtil. Production of betagalactosidase by Kluyveromyces marxianus MTCC 1388 using whey and effect of four different methods of enzyme extraction on betagalactosidase activity. Indian J. Microbial, September 2008.

[5] C. Bi, X. Zhang, L.O. Ingram, and J.F. Preston. Genetic engineering of Enterobacter absuriae strain JDR-1 for efficient production of ethanol from hemicellulose hydrolysate. Applied and enviromental microbiology, 75(18):5743-5749, September 2009.

[6] E. Brunelli. Nuove idee per nuove specie batteriche. Industria della carta, 2008.

[7] Barry Canton, Anna Labno, and Drew Endy. Refinement and standardization of synthetic biological parts and devices. Nature biotechnology, 26(7):787-793, 2008.

[8] Bartholomew Canton. Engineering the interface between cellular chassis and synthetic biological systems. PhD thesis, Massachussets Institute of Technology, May 2008.

[9] T. Conway, A. Osman, J.I.Konnan, E.M.Hoffman, and L.O.Ingram. Promoter and nucleotide sequence of the Zymomonas mobilis Pyruvate Decarboxylase. Journal of Bacteriology, 169(3):949-954, March 1987.

[10] G. Croce. Tipologie di recupero tradizionale del siero. Technical report, ERVET Emilia-Romagna Valorizzazione Economica Territorio SpA, 2002.

[11] Programma di Iniziativa Comunitaria Interreg III A Grecia-Italia 2000- 2006. Trattamento e valorizzazione reflui dell'industria lattiero-casearia, 2006.

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