02336naa a2200289 a 450000100080000000500110000800800410001902200140006002400300007410000210010424501290012526000090025452014710026365000200173465000120175465000250176665300280179165300240181965300200184370000190186370000200188270000170190270000230191970000190194270000210196177300640198220697352017-05-30       2017    bl uuuu     u00u1 u    #d  a1347-33527 a10.5650/jos.ess161922DOI1 aGUEDES, A. M. M.  aLength-scale specific crystalline structural changes induced by molecular randomization of pequi oil.h[electronic resource]  c2017  aPequi fruit (Caryocar brasiliense Camb) is considered important since its pulp has a high content of oil and carotenoids. The oil?s triacylglycerols (TAGs) contain mainly oleic (~57%) and palmitic (~36%) fatty acids, distributed primarily among POO, POP/PPO, and OOO TAGs. It displays a tendency to fractionate upon storage and has a relatively low melting temperature (SFC of 4% at 25?). Pequi oil was modified through chemical interesterification, which increased the PPP content to ~6%. This caused a flattening in the SFC-temperature profile, raising the end of melt temperature significantly (SFC of 4% at 39?). The interesterified oil does not fractionate and is thermally stable up to 40?, with an SFCtemperature profile resembling that of roll-in shortening (SFC of 31% at 16?) despite containing high amounts of oleic acid. Crystallization and melting behavior changed. Crystal packing became more disorganized as evidenced by a significant decrease in crystalline domain size in the [001] direction from 42.3 nm to 32.1 nm. Polymorphism remained of the triclinic (?) subcell type but polytypism changed from the 3L to the 2L type. Polarized light microscopy demonstrated that interesterification dramatically decreased crystal size, consistent with a higher rate of nucleation in the material. Moreover, the dramatic improvement in physical stability and functionality was not accompanied by a significant decrease in total carotenoid content (~390 mg/kg).  acrystallization  amelting  aCaryocar Brasiliense  aCrystalline domain size  aInteresterification  aTriacylglycerol1 aANTONIASSI, R.1 aGALDEANO, M. C.1 aGRIMALDI, R.1 aCARVALHO, M. G. de1 aWILHELM, A. E.1 aMARANGONI, A. G.  tJournal of Oleo Sciencegv. 66, n. 5, may 2017. p. 469-478.