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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)
 
 
 
 
 

Phase behavior of galactocerebrosides from bovine brain.

Bovine brain cerebrosides (BOV-CER) were separated by high-performance liquid chromatography into cerebroside fractions with a single acyl chain type or with a relatively homogeneous acyl chain distribution. The thermal behavior of these isolated cerebroside fractions was studied by differential scanning calorimetry. Nonhydroxy (n-acyl) fatty acid cerebrosides (NFA-CER) possessing a saturated acyl chain (C16:0, C18:0, C24:0) exhibit their major order-disorder transition temperature TM at 83 degrees C, independent of chain length. NFA-CER possessing primarily unsaturated acyl chains (C24:1) exhibits TM at 70 degrees C. 2-Hydroxy fatty acid cerebrosides (HFA-CER), which possess a saturated hydroxyacyl chain (C18:0h, C24:0h), exhibit TM at 70-72 degrees C. Thus, naturally occurring cerebrosides exhibit high TM's that do not depend significantly on acyl chain length and that depend only to a small degree on unsaturation and the presence of a 2-hydroxy branch in the amide-linked chain. Isolated NFA-CER's each exhibit metastable polymorphism of the type previously described for unfractionated NFA-CER [Curatolo, W. (1982) Biochemistry 21, 1761]. Polymorphism in HFA-CER is complex, with a different type of thermal behavior observed for each isolated acyl chain fraction studied. On prolonged storage at low temperature, unfractionated HFA-CER and unfractionated BOV-CER reach a highly ordered gel state similar to that which is readily reached by NFA-CER's. These results indicate that all cerebrosides exhibit metastable polymorphism. However, the kinetic barriers to reaching the stable gel state are greater for HFA-CER and BOV-CER than for NFA-CER.[1]

References

  1. Phase behavior of galactocerebrosides from bovine brain. Curatolo, W., Jungalwala, F.B. Biochemistry (1985) [Pubmed]
 
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