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Bioscience, Biotechnology, and Biochemistry Volume 68, 2004 - Issue 2
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Original Articles

Pseudomonas putida NCTC 10936 Balances Membrane Fluidity in Response to Physical and Chemical Stress by Changing the Saturation Degree and the Trans/cis Ratio of Fatty Acids

Norbert LOFFHAGENUFZ Centre for Environmental Research Leipzig-Halle Ltd., Department of Environmental Microbiology
,
Claus HÄRTIGUFZ Centre for Environmental Research Leipzig-Halle Ltd., Department of Environmental Microbiology
&
Wolfgang BABELUFZ Centre for Environmental Research Leipzig-Halle Ltd., Department of Environmental Microbiology
Pages 317-323 | Received 31 Jul 2003, Accepted 07 Oct 2003, Published online: 22 May 2014

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Luan Luong Chu. (2022) CRISPR-Cas system in microbial hosts for terpenoid production. Critical Reviews in Biotechnology 42:7, pages 1116-1133.
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Magdalena Pezzoni, Marleen De Troch, Ramón A. Pizarro & Cristina S. Costa. (2021) Homeophasic Adaptation in Response to UVA Radiation in Pseudomonas aeruginosa : Changes of Membrane Fatty Acid Composition and Induction of desA and desB Expression . Photochemistry and Photobiology 98:4, pages 886-893.
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Réka Gombos, Szilvia Bunda, Brigitta Nagyházi & Ferenc Joó. (2020) Homogeneous catalytic hydrogenation of lipids in aqueous dispersions and bacterial cell membranes with an efficient water-soluble Pd(II)-sulfosalan catalyst, Na2[Pd(HSS)]. Catalysis Communications 147, pages 106153.
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Salome C. Nies, Tobias B. Alter, Sophia Nölting, Susanne Thiery, An N.T. Phan, Noud Drummen, Jay D. Keasling, Lars M. Blank & Birgitta E. Ebert. (2020) High titer methyl ketone production with tailored Pseudomonas taiwanensis VLB120. Metabolic Engineering 62, pages 84-94.
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Jung Ho Ahn, Jong An Lee, Junho Bang & Sang Yup Lee. (2018) Membrane engineering via trans -unsaturated fatty acids production improves succinic acid production in Mannheimia succiniciproducens . Journal of Industrial Microbiology and Biotechnology 45:7, pages 555-566.
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T. Segin, S. Hnatush, O. Maslovska & O. Vasyliv. (2018) Changes of Fatty Acid Composition of Chlorobium limicola IMV K-8 Cells under the Influence of Copper (II) Sulfate. Mikrobiolohichnyi Zhurnal 80:3, pages 40-52.
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Qiujian Yu & Chunjiu Zhong. (2017) Membrane Aging as the Real Culprit of Alzheimer’s Disease: Modification of a Hypothesis. Neuroscience Bulletin 34:2, pages 369-381.
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Florencia C. Benforte, Maria A. Colonnella, Martiniano M. Ricardi, Esmeralda C. Solar Venero, Leonardo Lizarraga, Nancy I. López & Paula M. Tribelli. (2018) Novel role of the LPS core glycosyltransferase WapH for cold adaptation in the Antarctic bacterium Pseudomonas extremaustralis. PLOS ONE 13:2, pages e0192559.
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Janine Mett, Tobias Hartmann & Marcus O.W. Grimm. 2016. Handbook of Lipids in Human Function. Handbook of Lipids in Human Function 377 421 .
Donghui Zhu, Brittani L. Bungart, Xiaoguang Yang, Zhaxybay Zhumadilov, James C-M. Lee & Sholpan Askarova. (2015) Role of membrane biophysics in Alzheimer's–related cell pathways. Frontiers in Neuroscience 9.
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Denise Przybylski, Thore Rohwerder, Cornelia Dilßner, Thomas Maskow, Hauke Harms & Roland H. Müller. (2014) Exploiting mixtures of H2, CO2, and O2 for improved production of methacrylate precursor 2-hydroxyisobutyric acid by engineered Cupriavidus necator strains. Applied Microbiology and Biotechnology 99:5, pages 2131-2145.
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Renata Moreno & Fernando Rojo. (2014) Features of pseudomonads growing at low temperatures: another facet of their versatility. Environmental Microbiology Reports 6:5, pages 417-426.
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Xiaoguang Yang, Grace Y. Sun, Gunter P. Eckert & James C-M. Lee. (2014) Cellular Membrane Fluidity in Amyloid Precursor Protein Processing. Molecular Neurobiology 50:1, pages 119-129.
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Saba Shamim & Abdul Rehman. (2014) Physicochemical surface properties of Cupriavidus metallidurans CH34 and Pseudomonas putida mt2 under cadmium stress . Journal of Basic Microbiology 54:4, pages 306-314.
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Ana Segura & Juan Luis Ramos. 2014. Biodegradative Bacteria. Biodegradative Bacteria 227 248 .
Eldon R. Rene, Przemysław Bernat, Jerzy Długoński, Maria C. Veiga & Christian Kennes. (2012) Use of Styrene as Sole Carbon Source by the Fungus Exophiala oligosperma: Optimization and Modeling of Biodegradation, Pathway Elucidation, and Cell Membrane Composition. Applied Biochemistry and Biotechnology 168:6, pages 1351-1371.
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Cecilia Pini, Patricia Godoy, Patricia Bernal, Juan-Luis Ramos & Ana Segura. (2011) Regulation of the cyclopropane synthase cfaB gene in Pseudomonas putida KT2440. FEMS Microbiology Letters 321:2, pages 107-114.
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Pilar Fonseca, Renata Moreno & Fernando Rojo. (2011) Growth of Pseudomonas putida at low temperature: global transcriptomic and proteomic analyses . Environmental Microbiology Reports 3:3, pages 329-339.
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James W. Bullard, Franklin R. Champlin, Janna Burkus, Sarah Y. Millar & Robert S. Conrad. (2010) Triclosan-Induced Modification of Unsaturated Fatty Acid Metabolism and Growth in Pseudomonas aeruginosa PAO1. Current Microbiology 62:3, pages 697-702.
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Sholpan Askarova, Xiaoguang Yang & James C.-M. Lee. (2011) Impacts of Membrane Biophysics in Alzheimer's Disease: From Amyloid Precursor Protein Processing to A β Peptide-Induced Membrane Changes . International Journal of Alzheimer's Disease 2011, pages 1-12.
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Yiping Cao, Cindy H. Wu, Gary L. Andersen & Patricia A. Holden. 2011. Microbial Source Tracking: Methods, Applications, and Case Studies. Microbial Source Tracking: Methods, Applications, and Case Studies 251 282 .
Sujata Ray & Catherine A. Peters. (2010) Adaptations in microbiological populations exposed to dinitrophenol and other chemical stressors. Environmental Toxicology and Chemistry 29:10, pages 2161-2168.
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Maša Vodovnik, Mirjana Bistan, Maša Zorec & Romana Logar. (2010) Methylmercury inhibits growth and induces membrane changes in Pseudomonas putida. Acta agriculturae Slovenica 96:2.
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Cecilia-Vanesa Pini, Patricia Bernal, Patricia Godoy, Juan-Luis Ramos & Ana Segura. (2009) Cyclopropane fatty acids are involved in organic solvent tolerance but not in acid stress resistance in Pseudomonas putida DOT-T1E . Microbial Biotechnology 2:2, pages 253-261.
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Mohamed Badaoui Najjar, Michael Chikindas & Thomas J. Montville. (2007) Changes in Listeria monocytogenes Membrane Fluidity in Response to Temperature Stress . Applied and Environmental Microbiology 73:20, pages 6429-6435.
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I. Rüegg, T. Hafner, M. Bucheli-Witschel & T. Egli. (2007) Dynamics of Benzene and Toluene Degradation inPseudomonas putida F1 in the Presence of the Alternative Substrate Succinate. Engineering in Life Sciences 7:4, pages 331-342.
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Patricia Bernal, Jesús Muñoz-Rojas, Ana Hurtado, Juan L. Ramos & Ana Segura. (2007) A Pseudomonas putida cardiolipin synthesis mutant exhibits increased sensitivity to drugs related to transport functionality. Environmental Microbiology 9:5, pages 1135-1145.
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N. Loffhagen, C. Härtig, W. Geyer, M. Voyevoda & H. Harms. (2007) Competition between cis, trans and Cyclopropane Fatty Acid Formation and its Impact on Membrane Fluidity . Engineering in Life Sciences 7:1, pages 67-74.
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Christine Baysse & Fergal O'Gara. 2007. Pseudomonas. Pseudomonas 193 224 .
Y. Cao, G. N. Cherr, A. L. Córdova-Kreylos, T. W.-M. Fan, P. G. Green, R. M. Higashi, M. G. LaMontagne, K. M. Scow, C. A. Vines, J. Yuan & P. A. Holden. (2006) Relationships between Sediment Microbial Communities and Pollutants in Two California Salt Marshes. Microbial Ecology 52:4, pages 619-633.
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Claus Härtig, Norbert Loffhagen & Hauke Harms. (2005) Formation of trans Fatty Acids Is Not Involved in Growth-Linked Membrane Adaptation of Pseudomonas putida . Applied and Environmental Microbiology 71:4, pages 1915-1922.
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