Bologna University/Literature

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*[9] J S Edwards and B O Palsson. Metabolic flux balance analysis and the in silico analysis of Escherichia coli K-12 gene deletions. ''BMC Bioinformatics'', 1:1, 2000.
*[9] J S Edwards and B O Palsson. Metabolic flux balance analysis and the in silico analysis of Escherichia coli K-12 gene deletions. ''BMC Bioinformatics'', 1:1, 2000.
*[10] J S Edwards and B O Palsson. Robustness analysis of the Escherichia coli metabolic network. ''Biotechnol Prog'', 16(6):927-939, Nov 2000.
*[10] J S Edwards and B O Palsson. Robustness analysis of the Escherichia coli metabolic network. ''Biotechnol Prog'', 16(6):927-939, Nov 2000.
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*[11] F JACOB and J MONOD. [Genes of structure and genes of regulation in the biosynthesis of proteins.]
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*[11] F JACOB and J MONOD. [Genes of structure and genes of regulation in the biosynthesis of proteins.] ''C R Hebd Seances Acad Sci'', 249:1282-1284, Oct 1959.
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''C R Hebd Seances Acad Sci'', 249:1282-1284, Oct 1959.
+
*[12] F JACOB, D PERRIN, C SANCHEZ, and J MONOD. [Operon: a group of genes with the expression coordinated by an operator.]. ''C R Hebd Seances Acad Sci'', 250:1727-1729, Feb 1960.
*[12] F JACOB, D PERRIN, C SANCHEZ, and J MONOD. [Operon: a group of genes with the expression coordinated by an operator.]. ''C R Hebd Seances Acad Sci'', 250:1727-1729, Feb 1960.
*[13] A Kremling, K Bettenbrock, B Laube, K Jahreis, J W Lengeler, and E D Gilles. The organization of metabolic reaction networks. III. Application for diauxic growth on glucose and lactose. ''Metab Eng'', 3(4):362-379, Oct 2001.
*[13] A Kremling, K Bettenbrock, B Laube, K Jahreis, J W Lengeler, and E D Gilles. The organization of metabolic reaction networks. III. Application for diauxic growth on glucose and lactose. ''Metab Eng'', 3(4):362-379, Oct 2001.
Line 19: Line 18:
*[17] Andreas Kremling, Sophia Fischer, Kapil Gadkar, Francis J Doyle, Thomas Sauter, Eric Bullinger, Frank Allgower, and Ernst D Gilles. A benchmark for methods in reverse engineering and model discrimination: problem formulation and solutions. ''Genome Res'', 14(9):1773-1785, Sep 2004.
*[17] Andreas Kremling, Sophia Fischer, Kapil Gadkar, Francis J Doyle, Thomas Sauter, Eric Bullinger, Frank Allgower, and Ernst D Gilles. A benchmark for methods in reverse engineering and model discrimination: problem formulation and solutions. ''Genome Res'', 14(9):1773-1785, Sep 2004.
*[18] Jong Min Lee, Erwin P Gianchandani, and Jason A Papin. Flux balance analysis in the era of metabolomics. ''Brief Bioinform'', 7(2):140-150, Jun 2006.
*[18] Jong Min Lee, Erwin P Gianchandani, and Jason A Papin. Flux balance analysis in the era of metabolomics. ''Brief Bioinform'', 7(2):140-150, Jun 2006.
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*[19] S B Lee and J E Bailey. Genetically structured models for lac promotor-operator function in the Escherichia coli chromosome and in multicopy plasmids: lac operator function. ''Biotechnol.''''Bioeng.'', 26:1372-1382, 1984a.
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*[19] S B Lee and J E Bailey. Genetically structured models for lac promotor-operator function in the Escherichia coli chromosome and in multicopy plasmids: lac operator function. ''Biotechnol.Bioeng.'', 26:1372-1382, 1984a.
-
*[20] S B Lee and J E Bailey. Genetically structured models for lac promotor{operator function in the Escherichia coli chromosome and in multicopy plasmids: lac operator function. ''Biotechnol.''''Bioeng.'', 26:1383-1389, 1984b.
+
*[20] S B Lee and J E Bailey. Genetically structured models for lac promotor{operator function in the Escherichia coli chromosome and in multicopy plasmids: lac operator function. ''Biotechnol.Bioeng.'', 26:1383-1389, 1984b.
*[21] Santillan M and Mackey MC. Dynamic behavior in mathematical models of the tryptophan operon. ''Chaos'', 11(1):261-268, Mar 2001. JOURNAL ARTICLE.
*[21] Santillan M and Mackey MC. Dynamic behavior in mathematical models of the tryptophan operon. ''Chaos'', 11(1):261-268, Mar 2001. JOURNAL ARTICLE.
*[22] Michael C Mackey, Moises Santillan, and Necmettin Yildirim. Modeling operon dynamics: the tryptophan and lactose operons as paradigms. ''C R Biol'', 327(3):211-224, Mar 2004.
*[22] Michael C Mackey, Moises Santillan, and Necmettin Yildirim. Modeling operon dynamics: the tryptophan and lactose operons as paradigms. ''C R Biol'', 327(3):211-224, Mar 2004.
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*[24] Jerome T Mettetal, Dale Muzzey, Juan M Pedraza, Ertugrul M Ozbudak, and Alexander van Oudenaarden. Predicting stochastic gene expression dynamics in single cells. ''Proc Natl Acad Sci U S A'', 103(19):7304-7309, May 2006.
*[24] Jerome T Mettetal, Dale Muzzey, Juan M Pedraza, Ertugrul M Ozbudak, and Alexander van Oudenaarden. Predicting stochastic gene expression dynamics in single cells. ''Proc Natl Acad Sci U S A'', 103(19):7304-7309, May 2006.
*[25] Atul Narang. Comparative analysis of some models of gene regulation in mixed-substrate microbial growth. ''J Theor Biol'', 242(2):489-501, Sep 2006. Comparative Study.
*[25] Atul Narang. Comparative analysis of some models of gene regulation in mixed-substrate microbial growth. ''J Theor Biol'', 242(2):489-501, Sep 2006. Comparative Study.
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*[26] Atul Narang and Sergei S Pilyugin. Bacterial gene regulation in diauxic and non-diauxic growth.  
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*[26] Atul Narang and Sergei S Pilyugin. Bacterial gene regulation in diauxic and non-diauxic growth. ''J Theor Biol'', 244(2):326-348, Jan 2007.
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''J Theor Biol'', 244(2):326-348, Jan 2007.
+
*[27] Ertugrul M Ozbudak, Mukund Thattai, Iren Kurtser, Alan D Grossman, and Alexander van Oudenaarden. Regulation of noise in the expression of a single gene. ''Nat Genet'', 31(1):69-73,May 2002.
*[27] Ertugrul M Ozbudak, Mukund Thattai, Iren Kurtser, Alan D Grossman, and Alexander van Oudenaarden. Regulation of noise in the expression of a single gene. ''Nat Genet'', 31(1):69-73,May 2002.
*[28] Ertugrul M Ozbudak, Mukund Thattai, Han N Lim, Boris I Shraiman, and Alexander Van Oudenaarden. Multistability in the lactose utilization network of Escherichia coli. ''Nature'',427(6976):737-740, Feb 2004.
*[28] Ertugrul M Ozbudak, Mukund Thattai, Han N Lim, Boris I Shraiman, and Alexander Van Oudenaarden. Multistability in the lactose utilization network of Escherichia coli. ''Nature'',427(6976):737-740, Feb 2004.
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*[38] Necmettin Yildirim, Moises Santillan, Daisuke Horike, and Michael C Mackey. Dynamics and bistability in a reduced model of the lac operon. ''Chaos'', 14(2):279-292, Jun 2004. Comparative Study.
*[38] Necmettin Yildirim, Moises Santillan, Daisuke Horike, and Michael C Mackey. Dynamics and bistability in a reduced model of the lac operon. ''Chaos'', 14(2):279-292, Jun 2004. Comparative Study.
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[[Bologna | Back]]
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[[Bologna#Overview Table | Back]]

Latest revision as of 15:54, 26 October 2007

Bibliography

  • [1] Kremling A, Bettenbrock K, and Gilles ED. Analysis of global control of Escherichia coli carbohydrate uptake. BMC Syst Biol, 1(1):42, Sep 2007. JOURNAL ARTICLE.
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  • [10] J S Edwards and B O Palsson. Robustness analysis of the Escherichia coli metabolic network. Biotechnol Prog, 16(6):927-939, Nov 2000.
  • [11] F JACOB and J MONOD. [Genes of structure and genes of regulation in the biosynthesis of proteins.] C R Hebd Seances Acad Sci, 249:1282-1284, Oct 1959.
  • [12] F JACOB, D PERRIN, C SANCHEZ, and J MONOD. [Operon: a group of genes with the expression coordinated by an operator.]. C R Hebd Seances Acad Sci, 250:1727-1729, Feb 1960.
  • [13] A Kremling, K Bettenbrock, B Laube, K Jahreis, J W Lengeler, and E D Gilles. The organization of metabolic reaction networks. III. Application for diauxic growth on glucose and lactose. Metab Eng, 3(4):362-379, Oct 2001.
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  • [18] Jong Min Lee, Erwin P Gianchandani, and Jason A Papin. Flux balance analysis in the era of metabolomics. Brief Bioinform, 7(2):140-150, Jun 2006.
  • [19] S B Lee and J E Bailey. Genetically structured models for lac promotor-operator function in the Escherichia coli chromosome and in multicopy plasmids: lac operator function. Biotechnol.Bioeng., 26:1372-1382, 1984a.
  • [20] S B Lee and J E Bailey. Genetically structured models for lac promotor{operator function in the Escherichia coli chromosome and in multicopy plasmids: lac operator function. Biotechnol.Bioeng., 26:1383-1389, 1984b.
  • [21] Santillan M and Mackey MC. Dynamic behavior in mathematical models of the tryptophan operon. Chaos, 11(1):261-268, Mar 2001. JOURNAL ARTICLE.
  • [22] Michael C Mackey, Moises Santillan, and Necmettin Yildirim. Modeling operon dynamics: the tryptophan and lactose operons as paradigms. C R Biol, 327(3):211-224, Mar 2004.
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  • [25] Atul Narang. Comparative analysis of some models of gene regulation in mixed-substrate microbial growth. J Theor Biol, 242(2):489-501, Sep 2006. Comparative Study.
  • [26] Atul Narang and Sergei S Pilyugin. Bacterial gene regulation in diauxic and non-diauxic growth. J Theor Biol, 244(2):326-348, Jan 2007.
  • [27] Ertugrul M Ozbudak, Mukund Thattai, Iren Kurtser, Alan D Grossman, and Alexander van Oudenaarden. Regulation of noise in the expression of a single gene. Nat Genet, 31(1):69-73,May 2002.
  • [28] Ertugrul M Ozbudak, Mukund Thattai, Han N Lim, Boris I Shraiman, and Alexander Van Oudenaarden. Multistability in the lactose utilization network of Escherichia coli. Nature,427(6976):737-740, Feb 2004.
  • [29] M Santillan and M C Mackey. Dynamic regulation of the tryptophan operon: a modeling study and comparison with experimental data. Proc Natl Acad Sci U S A, 98(4):1364-1369,Feb 2001.
  • [30] M Santillan, M C Mackey, and E S Zeron. Origin of bistability in the lac Operon. Biophys J ,92(11):3830-3842, Jun 2007.
  • [31] Moises Santillan and Michael C Mackey. Influence of catabolite repression and inducer exclusion on the bistable behavior of the lac operon. Biophys J, 86(3):1282-1292, Mar 2004.Comparative Study.
  • [32] Moises Santillan and Michael C Mackey. Why the lysogenic state of phage lambda is so stable:a mathematical modeling approach. Biophys J, 86(1 Pt 1):75-84, Jan 2004. Comparative Study.
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  • [35] Jose M G Vilar, Calin C Guet, and Stanislas Leibler. Modeling network dynamics: the lac operon, a case study. J Cell Biol, 161(3):471-476, May 2003.
  • [36] J Wang, E D Gilles, J W Lengeler, and K Jahreis. Modeling of inducer exclusion and catabolite repression based on a PTS-dependent sucrose and non-PTS-dependent glycerol transport systems in Escherichia coli K-12 and its experimental verification. J Biotechnol,92(2):133-158, Dec 2001.
  • [37] P Wong, S Gladney, and J D Keasling. Mathematical model of the lac operon: inducer exclusion, catabolite repression, and diauxic growth on glucose and lactose. Biotechnol Prog,13(2):132-143, Mar 1997.
  • [38] Necmettin Yildirim, Moises Santillan, Daisuke Horike, and Michael C Mackey. Dynamics and bistability in a reduced model of the lac operon. Chaos, 14(2):279-292, Jun 2004. Comparative Study.

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