C1758
Coconut oil from Cocos nucifera
low-melting solid
Sinonimo/i:
Coconut fat, Copra oil
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About This Item
Prodotti consigliati
Origine biologica
Cocos nucifera
Forma fisica
low-melting solid
Punto di fusione
23-27 °C
Tipo di lipide
oils
Condizioni di spedizione
ambient
Temperatura di conservazione
room temp
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Applicazioni
- Linseed, Baru, and Coconut Oils: NMR-Based Metabolomics, Leukocyte Infiltration Potential In Vivo, and Their Oil Characterization. Are There Still Controversies: This research utilizes NMR-based metabolomics to explore the biochemical properties of various oils, including coconut oil, and investigates their potential for leukocyte infiltration in vivo. The findings contribute to understanding the health implications and biochemical interactions of coconut oil (Figueiredo et al., 2022).
Stato fisico
Usually a solid at room temperature
Codice della classe di stoccaggio
11 - Combustible Solids
Classe di pericolosità dell'acqua (WGK)
WGK 1
Punto d’infiammabilità (°F)
>235.4 °F - closed cup
Punto d’infiammabilità (°C)
> 113 °C - closed cup
Dispositivi di protezione individuale
Eyeshields, Gloves, type N95 (US)
Certificati d'analisi (COA)
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I clienti hanno visto anche
Ryan Pannorfi et al.
Physiological and biochemical zoology : PBZ, 85(4), 405-414 (2012-06-19)
Heterothermic rodents increase self-selection of diets rich in polyunsaturated fatty acids (PUFAs) when exposed to cold, short days, or short-day melatonin profiles, and Djungarian hamsters (Phodopus sungorus) do so in long days in response to cold exposure alone. To determine
Young Taek Oh et al.
Physiology & behavior, 167, 194-201 (2016-10-25)
Previous rodent studies showed that when injected into the brain, free fatty acids (FFAs) reduced food intake in an oleate-specific manner. The present study was performed to test whether food intake is regulated by circulating FFAs in an oleate-specific manner.
Aida Serra et al.
Nutrition (Burbank, Los Angeles County, Calif.), 28(11-12), 1165-1171 (2012-08-04)
Phase II biotransformation of flavonoids generates bioactive metabolites in vivo. However, data on the effect of environmental and physiologic factors and fetal programming on phase II pathways toward flavonoids are limited. We examined the effect of parental exposure to a
M Hollmann et al.
Journal of dairy science, 96(3), 1769-1781 (2013-01-15)
Dietary coconut oil (CNO) can reduce dry matter intake (DMI), enteric methane (eCH(4)) emissions, and milk fat yield of lactating cows. The goals of this research were to examine responses to different CNO concentrations during the habituation period (34-d) and
A K Patra et al.
Journal of dairy science, 96(3), 1782-1792 (2013-01-22)
Coconut (CO) and fish (FO) oils were previously shown to inhibit rumen methanogenesis and biohydrogenation, which mitigates methane emission and helps improve beneficial fatty acids in meat and milk. This study aimed at investigating the comparative effects of CO and
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