Team:UNIPV-Pavia/Project/references
From 2010.igem.org
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'''A general bibliography about industrial protein manufacturing is reported here:''' | '''A general bibliography about industrial protein manufacturing is reported here:''' | ||
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+ | #Anderson JC, Dueber JE, Leguia M, Wu GC, Goler JA, Arkin AP, Keasling JD (2010), BglBricks: A flexible standard for biological part assembly. Journal of Biological Engineering 2010 4:1. | ||
+ | #Baneyx F (1999), Recombinant protein expression in Escherichia coli. Current Opinion in Biotechnology, 10(5):411–421. | ||
+ | #Baneyx F, Mujacic M (2004), Recombinant protein folding and misfolding in Escherichia coli. Nature biotechnology, 22(11):1399–1408. | ||
#Banki MR, Wood DW (2005), Inteins and affinity resin substitutes for protein purification and scale up. Microbial Cell Factories 2005, 4:32. | #Banki MR, Wood DW (2005), Inteins and affinity resin substitutes for protein purification and scale up. Microbial Cell Factories 2005, 4:32. | ||
+ | #Chong S, Mersha F, Comb D, Scott M, Landry D, Vence L, Perler F, Benner J, Kucera R, Hirvonen C, Pelletier J, Paulus H, Xu M (1997), Single-column purification of free recombinant proteins using a self-cleavable affinity tag derived from a protein splicing element. Gene, 192(2):271–281. | ||
+ | #Demain A, Vaishnav P (2009), Production of recombinant proteins by microbes and higher organisms. Biotechnology advances, 27(3):297–306. | ||
+ | #Gellissen G, Melber K, Janowicz ZA, Dahlems UM, Weydemann U, Piontek M, Strasser AW, Hollenberg CP (1992), Heterologous protein production in yeast. Antonie Van Leeuwenhoek. 1992 Aug;62(1-2):79-93. | ||
+ | #Gray K, Passador L, Iglewski B, and Greenberg E (1994), Interchangeability and specificity of components from the quorum-sensing regulatory systems of Vibrio fischeri and Pseudomonas aeruginosa. Journal of bacteriology, 176(10):3076. | ||
+ | #Hannig G, Makrides S (1998), Strategies for optimizing heterologous protein expression in Escherichia coli. Trends in biotechnology, 16(2):54–60. | ||
#Jana S, Deb JK (2005), Strategies for efficient production of heterologous proteins in Escherichia coli, Appl Microbiol Biotechnol (2005) 67: 289–298. | #Jana S, Deb JK (2005), Strategies for efficient production of heterologous proteins in Escherichia coli, Appl Microbiol Biotechnol (2005) 67: 289–298. | ||
+ | #Jonasson P, Liljeqvist S, Nygren P, Stahl S (2002), Genetic design for facilitated production and recovery of recombinant proteins in Escherichia coli. Biotechnology and applied biochemistry, 35:91–105. | ||
#Kroll J, Klinter S, Schneider C, Voss I, Steinbuchel A (2010), Plasmid addiction systems: perspectives and applications in biotechnology. Microbial Biotechnology. doi:10.1111/j.1751-7915.2010.00170.x. | #Kroll J, Klinter S, Schneider C, Voss I, Steinbuchel A (2010), Plasmid addiction systems: perspectives and applications in biotechnology. Microbial Biotechnology. doi:10.1111/j.1751-7915.2010.00170.x. | ||
+ | #Ni Y, Chen R (2009), Extracellular recombinant protein production from Escherichia coli. Biotechnology letters, 31(11):1661–1670. | ||
+ | #Peti W, Page R (2007), Strategies to maximize heterologous protein expression in Escherichia coli with minimal cost. Protein expression and purification, 51(1):1–10. | ||
+ | #Sahdev S, Khattar S, Saini K (2008), Production of active eukaryotic proteins through bacterial expres- sion systems: a review of the existing biotechnology strategies. Molecular and cellular biochemistry, 307(1):249–264. | ||
+ | #Sorensen HP, Mortensen KK (2005), Advanced genetic strategies for recombinant protein expression in Escherichia coli. Journal of Biotechnology, 115(2):113–128, January. | ||
+ | #Swartz J (2001), Advances in Escherichia coli production of therapeutic proteins. Current Opinion in Biotechnology, 12(2):195–201. | ||
+ | #Terpe K (2006), Overview of bacterial expression systems for heterologous protein production: from molecular and biochemical fundamentals to commercial systems. Applied microbiology and biotechnology, 72(2):211–222. | ||
+ | #Weickert M, Doherty D, Best E, Olins P (1996), Optimization of heterologous protein production in Escherichia coli. Current Opinion in Biotechnology, 7(5):494–499, 1996. | ||
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+ | '''A specific bibliography about the synthetic biological solutions we have adopted for our project can be found in the sections below.''' | ||
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#Fussenegger M (2010), Synthetic biology: Synchronized bacterial clocks, Nature 463, 301-302 (21 January). | #Fussenegger M (2010), Synthetic biology: Synchronized bacterial clocks, Nature 463, 301-302 (21 January). | ||
#Garcia-Ojalvo J, Elowitz MB, Strogatz SH (2004) Modeling a synthetic multicellular clock: repressilators coupled by quorum sensing. Proc Natl Acad Sci USA 101: 10955–10960 | #Garcia-Ojalvo J, Elowitz MB, Strogatz SH (2004) Modeling a synthetic multicellular clock: repressilators coupled by quorum sensing. Proc Natl Acad Sci USA 101: 10955–10960 | ||
+ | #Gray K, Passador L, Iglewski B, and Greenberg E (1994), Interchangeability and specificity of components from the quorum-sensing regulatory systems of Vibrio fischeri and pseudomonas aeruginosa. Journal of bacteriology, 176(10):3076. | ||
#Hanzelka BM, Stevens AM, Parsek MR, Crone TJ, Greenberg EP (1997), Mutational Analysis of the Vibrio fischeri LuxI Polypeptide: Critical Regions of an Autoinducer Synthase, Journal of Bacteriology, Aug., p. 4882–4887. | #Hanzelka BM, Stevens AM, Parsek MR, Crone TJ, Greenberg EP (1997), Mutational Analysis of the Vibrio fischeri LuxI Polypeptide: Critical Regions of an Autoinducer Synthase, Journal of Bacteriology, Aug., p. 4882–4887. | ||
#Jayaraman A, Wood TK (2008). Bacterial quorum sensing: signals, circuits, and implications for biofilms and disease. Annu Rev Biomed Eng. 10:145-67. | #Jayaraman A, Wood TK (2008). Bacterial quorum sensing: signals, circuits, and implications for biofilms and disease. Annu Rev Biomed Eng. 10:145-67. |
Latest revision as of 07:10, 25 October 2010
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A general bibliography about industrial protein manufacturing is reported here:
A specific bibliography about the synthetic biological solutions we have adopted for our project can be found in the sections below.
Self-inducible promoters
Integrative standard vector for E. coli
Integrative standard vector for yeast
Self-cleaving affinity tags to easily purify proteins
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