Team:ULB-Brussels/Projet/Bibliography

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# Y. Jiang, J. Pogliano, D. R. Helinski and I. Konieczny, ”ParE toxin encoded by the broadhost-range plasmid RK2 is an inhibitor of Escherichia coli gyrase”, Molecular Microbiology, volume 44 Issue 4, 971- 979, (2002)
 
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# McAdams Harley H. and Shapiro Lucy. 2003, ”A bacterial cell-cycle regulatory network operating in time and space”, Sciences, 301, (5641):1874-1877, (2003)
 
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# Brazhnik Paul and Tyson John J., ”Cell cycle control in bacteria and yeast: a case of convergent evolution”, Cell Cycle 5 (5):522-529, (2006)
 
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# Goley Erin D., Iniesta Antonio A. and Shapiro Lucy, ”Cell cycle regulation in Caulobacter: location, location, location”, Journal of Cell Science 120: 3501-3507
 

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References

[1] Y. Jiang, J. Pogliano, D. R. Helinski and I. Konieczny, ”ParE toxin encoded by the broadhost- range plasmid RK2 is an inhibitor of Escherichia coli gyrase”, Molecular Microbiology, volume 44 Issue 4, 971- 979, (2002)


[2] McAdams Harley H. and Shapiro Lucy. 2003, ”A bacterial cell-cycle regulatory network operating in time and space”, Sciences, 301, (5641):1874-1877, (2003)


[3] Brazhnik Paul and Tyson John J., ”Cell cycle control in bacteria and yeast: a case of convergent evolution”, Cell Cycle 5 (5):522-529, (2006)


[4] Goley Erin D., Iniesta Antonio A. and Shapiro Lucy, ”Cell cycle regulation in Caulobacter: location, location, location”, Journal of Cell Science 120: 3501-3507


[5] Li Shenghua, et al., ”A quantitave study of the division cycle of Caulobacter crescentus stalked cells”, PLoS computational biology 4 (1): e9


[6] Li Shenghua, et al., ”Temporal controls of the asymmetric cell division cycle in Caulobacter crescentus”, PLoS computational biology 5(8): e1000463, (2009)


[7] Brown P.,et al., ”Complex regulatory pathways mediate cell cycle progression in Caulobacter crescentus”, Advances in Microbial Physiology, Volume 54, p. 1-101, Elsevier Press, R.K. Poole, editor (2009)


[8] Li GL, Smith CS, Brun YV, Tang JX., ”The elastic properties of the Caulobacter crescentus adhesive holdfast are dependent on oligomers of N-acetylglucosamine”, Journal of Bacteriology 187(1) :257265, (2005)


[9] Tsang PH, Li GL, Brun YV, Ben Freund L, Tang JX, ”Adhesion of single bacterial cells in the micronewton range”, Proceedings of the National Academy of Sciences of the United States of America 103(15): 5764-5768, (2006)


[10] Ujjal Kumar Sur, ”Natures strongest glue: a potential alternative to commercial super glue”, Currents Science 94 (12): 1563-1564, (2008)


[11] Evelyn Toh, et al., ”Characterization of the Caulobacter crescentus Holdfast Polysaccharide Biosynthesis Pathway Reveals Significant Redundancy in the Initiating Glycosyltransferase and Polymerase Steps”, Journal of Bacteriology 190(21) : 72197231, November 2008


[12] Kurtz H.D., Smith Jr. and J. ”The Caulobacter crescentus holdfast: identification of holdfast attachment complex genes”, FEMS Microbiology Letters 116(2): 175-182, (1994)


[13] Iddo Genuth and Lucille Fresco-Cohen, ”Nature’s Super Glue The Future of Things”, Sunday, October 22, 2006


[14] U. Alon, ”An Introduction to System Biology”, Chapman Hall/CRC, (2007)


[15] T.S. Gardner et al.,”Construction of a genetic toggle switch in Escherichia Coli”, Nature, Vol. 403, 20 January 2000


[16] A. B. Gjuvsland et al.,”Threshold-dominated regulation hides genetic variation in gene expression networks”, BMC System Biology, 1:57, (2007)


[17] G. Nicolis, ”Introduction to non linear science”, Cambridge University Press, (1995)


[18] http://www.the-scientist.com/blog/display/55890


[19] http://www.inrs.fr/inrs-pub/inrs


[20] P. Le Cloirec, ”Les composs organiques volatils (COV) dans l’environnement”, Ecole des Mines de Nantes, Editions Lavoisier, janvier 1998


[21] http://www.inrs.fr/inrs-pub/inrs01.nsf/inrs01


[22] Vinters HV, Galil KA, Lundie MJ, Kaufmann JC, ”The histotoxicity of cyanoacrylates. A selective review”, Neuroradiology 27(4): 279-91, (1985)


[23] Jose Luis Martinez, ”Environmental pollution by antibiotics and by antibiotic resistance determinants”, Environmental Pollution, Volume 157, Issue 11, Pages 2893-2902, November 2009


[24] A Fajardo, J F Linares and J L Martnez, ”Towards an ecological approach to antibiotics and antibiotic resistance genes”, Clinical Microbiology and Infection 15 Suppl 1():14-6 (2009)


[25] ”Can a new implant coating technique create a new six million dollar man?” Monday, June 29, 2009 in Physics and Chemistry


[26] Valerie Olivier, Nathalie Faucheux and Pierre Hardouin, ”Biomaterial challenges and approaches to stem cell use in bone reconstructive surgery”, Drug Discovery Today, Volume 9, Issue 18,, Pages 803-811, 15 September 2004


[27] Hing K.A. ”Bone repair in the twenty-first century: biology, chemistry or engineering?”, Philos Transact A Math Phys Eng Sci. 362(1825):2821-50. 2004 Dec 15


[28] Albert B Lowenfels, MD, ”Latest Advances in Surgical Adhesives and Sealants”, Medscape General Surgery, 12/08/2006


[29] Leggat, Peter A., Smith, Derek R., and Kedjarune, ”Ureporn Surgical applications of cyanoacrylate adhesives: a review of toxicity”, ANZ Journal of Surgery, 77 (4). pp. 209- 213. (2007)


[30] G. H.Wadhams and J. P. Armitage, ”Making sense of it all: bacterial chemotaxis”, Nature Reviews, Volume 5, 1024-1037, (2004)


[31] T.W. Grebe and J. Stock, ”Bacterial chemotaxis: The five sensors of a bacterium”, Current Biology, 8 :R154-R157, (1998)


[32] N. Mittal, E. O. Budrene, M. P. Brenner, and A. van Oudenaarden ”Motility of Escherichia coli cells in clustters formed by chemotactic aggregation”, PNAS, vol. 100, 13259-13263, (2003)


[33] C. Fuqua, M. R. parsek, and E. P. Greenberg, ”Regulation of gene expression by cell−to−cell communication: Acyl−homoserine lactone quorum sensing”, Annual Reviews 35:439-68, (2001)


[34] C. Fuqua and E. P. Greenberg, ”Listening in on bacteria : Acyl−homoserine lactone signalling”, Nature Reviews, volume 3, 685−695, (2002)


[35] Sequence alignment realized using ClustalX 2.0.10.


[36] Escherichia coli strain E69, AF104912 Genomic DNA


[37] Caulobacter crescentus strain CB15, CP001340 Genomic DNA