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Cruz Bournazou, Mariano Nicolás (). An approach to Mechanism Recognition for model based analysis of Biological Systems [15]. Technische Universität Berlin.

Neubauer, P. and Hofmann, K. and Holst, O. and Mattiasson, B. and Kruschke, P. (1992). Maximizing the expression of a recombinant gene in Escherichia coli by manipulation of induction time using lactose as inducer [16]. Applied microbiology and biotechnology

Neubauer, P. and Häggström, L. and Enfors, S. O. (1995). Influence of substrate oscillations on acetate formation and growth yield in Escherichia coli glucose limited fed-batch cultivations [17]. Biotechnology and bioengineering, 139–146.

Neubauer, P. and Åhman, M. and Törnkvist, M. and Larsson, G. and Enfors, S.-O. (1995). Response of guanosine tetraphosphate to glucose fluctuations in fed-batch cultivations of Escherichia coli [18]. Journal of biotechnology, 195–204.

Andersson, L. (1996). Impact of plasmid presence and induction on cellular responses in fed batch cultures of Escherichia coli [19]. Journal of biotechnology, 255–263.

Teich, A. and Meyer, S. and Lin, H. Y. and Andersson, L. and Enfors, S. and Neubauer, P. (1999). Growth rate related concentration changes of the starvation response regulators sigmaS and ppGpp in glucose-limited fed-batch and continuous cultures of Escherichia coli [20]. Biotechnology progress, 123–129.

Jürgen, Britta and Lin, Hong Ying and Riemschneider, Stefan and Scharf, Christian and Neubauer, Peter and Schmid, Roland and Hecker, Michael and Schweder, Thomas (2000). Monitoring of genes that respond to overproduction of an insoluble recombinant protein inEscherichia coli glucose-limited fed-batch fermentations [21]. Biotechnology and bioengineering, 217–224.

Winter, J. and Neubauer, P. and Glockshuber, R. and Rudolph, R. (2000). Increased production of human proinsulin in the periplasmic space of Escherichia coli by fusion to DsbA [22]. Journal of biotechnology, 175–185.

Ying Lin, Hong and Neubauer, Peter (2000). Influence of controlled glucose oscillations on a fed-batch process of recombinant Escherichia coli [23]. Journal of biotechnology, 27–37.

Enfors, S.-O. and Jahic, M. and Rozkov, A. and Xu, B. and Hecker, M. and Jürgen, B. and Krüger, E. and Schweder, T. and Hamer, G. and O'Beirne, D. and Noisommit-Rizzi, N. and Reuss, M. and Boone, L. and Hewitt, C. and McFarlane, C. and Nienow, A. and Kovacs, T. and Trägårdh, C. and Fuchs, L. and Revstedt, J. and Friberg, P. C. and Hjertager, B. and Blomsten, G. and Skogman, H. and Hjort, S. and Hoeks, F. and Lin, H.-Y. and Neubauer, P. and van der Lans, R. and Luyben, K. and Vrabel, P. and Manelius, Å. (2001). Physiological responses to mixing in large scale bioreactors [24]. Journal of biotechnology, 175–185.

Lin, H. Y. and Mathiszik, B. and Xu, B. and Enfors, S. O. and Neubauer, P. (2001). Determination of the maximum specific uptake capacities for glucose and oxygen in glucose-limited fed-batch cultivations of Escherichia coli [25]. Biotechnology and bioengineering, 347–357.

Neubauer, P. and Lin, H. Y. and Mathiszik, B. (2003). Metabolic load of recombinant protein production: Inhibition of cellular capacities for glucose uptake and respiration after induction of a heterologous gene in Escherichia coli [26]. Biotechnology and bioengineering, 53–64.

Sandén, Anna Maria and Prytz, Ingela and Tubulekas, Ioannis and Förberg, Cecilia and Le, Ha and Hektor, Andrea and Neubauer, Peter and Pragai, Zoltan and Harwood, Colin and Ward, Alan and Picon, Antonia and de Mattos, Joost Teixeira and Postma, Pieter and Farewell, Anne and Nyström, Thomas and Reeh, Solvejg and Pedersen, Steen and Larsson, Gen (2003). Limiting factors in Escherichia coli fed-batch production of recombinant proteins [27]. Biotechnology and bioengineering, 158–166.

(2004). Physiological Stress Responses in Bioprocesses [28]. Springer Berlin Heidelberg.

Fahnert, Beatrix and Lilie, Hauke and Neubauer, Peter (2004). Inclusion Bodies: Formation and Utilisation [29]. Physiological Stress Responses in Bioprocesses. Springer Berlin Heidelberg, 93–142.

Gabig-Ciminska, M. and Holmgren, A. and Andresen, H. and Bundvig Barken, K. and Wümpelmann, M. and Albers, J. and Hintsche, R. and Breitenstein, A. and Neubauer, P. and Los, M. and Czyz, A. and Wegrzyn, G. and Silfversparre, G. and Jürgen, B. and Schweder, T. and Enfors, S.-O (2004). Electric chips for rapid detection and quantification of nucleic acids [30]. Biosensors and Bioelectronics, 537–546.

Fernandes, Aristi Potamitou and Fladvad, Malin and Berndt, Carsten and Andrésen, Cecilia and Lillig, Christopher Horst and Neubauer, Peter and Sunnerhagen, Maria and Holmgren, Arne and Vlamis-Gardikas, Alexios (2005). A novel monothiol glutaredoxin (Grx4) from Escherichia coli can serve as a substrate for thioredoxin reductase [31]. The Journal of biological chemistry, 24544–24552.

Panula-Perälä, Johanna and Siurkus, Juozas and Vasala, Antti and Wilmanowski, Robert and Casteleijn, Marco G. and Neubauer, Peter (2008). Enzyme controlled glucose auto-delivery for high cell density cultivations in microplates and shake flasks [32]. Microbial cell factories, 31.

Sillankorva, Sanna and Neubauer, Peter and Azeredo, Joana (2008). Pseudomonas fluorescens biofilms subjected to phage phiIBB-PF7A [33]. BMC biotechnology, 79.

Soini, Jaakko and Ukkonen, Kaisa and Neubauer, Peter (2008). High cell density media for Escherichia coli are generally designed for aerobic cultivations - consequences for large-scale bioprocesses and shake flask cultures [34]. Microbial cell factories, 26.

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