The effect of transesterification of engkabang (Shorea macrophylla) fat - canola oil (EF35/ CaO65) blend by Mucor miehei lipase (1%, w/w oil) in a solvent-free system was investigated at different time intervals of 6 h, 12 h and 24 h. Compositional changes of the samples withdrawn at specified time intervals while the reaction in progress were analysed by chromatography, whereas the polymorphic forms and thermal properties were analysed by using X-ray diffraction and differential scanning calorimetry, respectively. There were increases in the amounts of monounsaturated and triunsaturated triacylglycerol (TAG) molecular groups with concurrent reductions of the proportions of desaturated TAG molecular groups during different time intervals. This changing TAG composition led to changes in crystallisation behaviour and thermal properties of the samples, reducing some enthalpy values. All samples withdrawn at different time intervals displayed both β' and β type crystal polymorphs even though engkabang fat itself was predominantly β‐type. In terms of melting, solidification and polymorphic properties, the sample withdrawn at 6 h time interval was found to display the closest similarity to lard (LD).
Tropical fats such as palm oil (PO) from Elaeis guineensis (oil palm), cocoa (Theobroma cacao
L.) butter (CB), avocado (Persea americana) oil (Avo), palm stearin (PS), and Mee (Madhuca
longifolia) fat (MF) are useful raw materials for the formulation of bakery shortenings. Blending
these fats at differing ratios such as binary [MF:PS (99:1)], ternary [Avo:PS:CB (84:7:9)], and
quaternary [PO:PS:SBO:CB (38:5:52:5)] would lead to fat mixtures as replacement for lard
(LD). In the present work, the influence of these three fat blends and LD on cookie dough
textural properties and cookie quality was investigated. The results showed that the hardness of
cookies was correlated to the hardness of dough, which was influenced by the solid fat content
(SFC). The degree of unsaturation of triacylglycerol molecules also seemed to influence these
parameters. Nevertheless, the cookies of all different types of shortenings did not show any
significant differences with regard to their width and thickness. This could be probably due
to the fact that cookies made from formulated plant-based shortenings and LD expanded
uniformly during baking.
Isothermal amplification is a technique that can amplify target DNA sequences at a single incubation temperature. Loop-mediated isothermal amplification (LAMP) is an extension of the isothermal DNA amplification technique that combines rapidity, simplicity, high specificity and sensitivity. Due to its overwhelming characteristics, LAMP has been explored for its feasibility in detecting various subjects, and recently in meat-based food products for DNA-based meat species authentication. It has been developed to target various meat species such as porcine, chicken, horse, and ostrich with sensitivity as low as 0.1 pg/μL. Further improvement with the use of magnetic beads, electrochemiluminescence and special dye such as calcein and crystal violet had increased the sensitivity of the LAMP assay. Other important characteristics were specific target gene primers as well as a shorter incubation time, warranting a good prospect for rapid testing authentication.