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| Home > Publications database > Phase diagram of deep rough mutant lipopolysaccharide from Salmonella minnesota R595 |
| Journal Article | PUBDB-2017-08622 |
; ;
1992
Elsevier
San Diego, Calif.
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Please use a persistent id in citations: doi:10.1016/1047-8477(92)90010-8
Abstract: The structural polymorphism of deep rough mutant lipopolysaccharide—in many biological systems the most active endotoxin—from Salmonella minnesota strain R595 was investigated as function of temperature, water content, and Mg2+ concentration. Differential scanning calorimetry was used to determine the amount of bound water and the enthalpy change at the β ↔ α gel to liquid crystalline acyl chain melting. The onset, midtemperature Tc, and completion of the β ↔ α phase transition were studied with Fourier-transform infrared spectroscopy. Synchrotron radiation X-ray diffraction was used to characterize the supramolecular three-dimensional structures in each phase state. The results indicate an extremely complex dependence of the structural behavior of LPS on ambient conditions. The β ↔ α acyl chain melting temperature Tc lying at 30°C at high water content (95%) increases with decreasing water content reaching a value of 50°C at 30% water content. Concomitantly, a broadening of the transition range takes place. At still lower water content, no distinct phase transition can be observed. This behavior is even more clearly expressed in the presence of Mg2+. In the lower water concentration range (<50%) at temperatures below 70°C, only lamellar structures can be observed independent of the Mg2+ concentration. This correlates with the absence of free water. Above 50% water concentration, the supramolecular structure below 70°C strongly depends on the [LPS]:[Mg2+] ratio. For large [LPS]:[Mg2+] ratios, the predominant structure is nonlamellar, for smaller [LPS]:[Mg2+] ratios there is a superposition of lamellar and nonlamellar structures. At an equimolar ratio of LPS and Mg2+ a multibilayered organization is observed. The nonlamellar structures can be assigned in various cases to structures with cubic symmetry with periodicities between 12 and 16 nm. Under all investigated conditions, a transition into the hexagonal II structure takes place between 70 and 80°C. These observations are discussed in relation to the biological importance of LPS as constituent of the outer membrane of gram-negative bacteria and as potent inducer of biological effects in mammals
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