A method for identifying adulterated honey
A technology of honey and external standard method, applied in the field of biochemistry, can solve the problems of large amount of organic reagents, narrow application range, complicated processing, etc., and achieve the effects of simple and fast operation, good repeatability and accurate detection results.
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Embodiment 1
[0048] Example 1. Determination of D-psicose content in collected honey and syrup samples
[0049] Step 1. Sample collection
[0050] A total of 50 samples of different honey species were directly collected from the beekeepers, including 10 honey of flowers, 10 of rapeseed honey, 10 of Vitex twig honey, 10 of linden tree honey, 10 of acacia honey and so on. 6 syrup samples were purchased from the Internet or supermarkets, including 4 fructose syrup and 2 corn syrup.
[0051] Step 2, sample pretreatment,
[0052] Weigh 1g of uniform honey or syrup sample (accurate to 0.001g) into a beaker, add an appropriate amount of deionized water to dissolve and mix, transfer to a 100mL volumetric flask, dilute with deionized water, and mix well; accurately pipette the solution for 0.5 mL in a 10mL volumetric flask, dilute to volume with deionized water, and mix well. This solution was tested through a 0.22 μm filter membrane.
[0053] Step 3, standard working solution configuration,
...
Embodiment 2
[0072] Embodiment 2, the influence of different eluent NaOH concentration on carbohydrate chromatogram
[0073] Configure 5 mg / L glucose, fructose, allulose mixed standard solution, and elute it with 25, 20, 15, 10, 5 mmol / L NaOH solution respectively, and investigate the separation degree and peak shape of different NaOH concentrations on chromatographic peaks affect, as a result figure 1 shown.
[0074] The experiment found that: the retention time of glucose and al-D-glutose is far apart, which has no effect on the determination; the retention time of fructose and D-glutose is relatively close, and the separation degree of the two decreases with the decrease of NaOH concentration. Upward trend. In addition, with the decrease of NaOH concentration, the retention time of D-psicose peak lengthened and the response value decreased.
[0075] Considering the resolution, response value, analysis time and other factors comprehensively, the preferred concentration of NaOH in the ...
Embodiment 3
[0076] Embodiment 3, the impact of different dilution factors on the sugar chromatogram in the sample
[0077] Select a representative positive honey sample (where the D-psicose content is 2300mg / kg), use 15mmol / L NaOH as the eluent, and test the honey samples with dilution factors of 200, 500, 1000, and 2000 respectively, and investigate Investigate the influence of different NaOH concentrations on the resolution and peak shape of chromatographic peaks, the results are as follows figure 2 As shown, the definition of the dilution factor is: when every 1 gram of honey sample is diluted with 200ml water, the dilution factor is 200; when every 1 gram of honey sample is diluted with 500ml water, the dilution factor is 500, and every 1 gram of honey sample is diluted with When 2000ml of water is diluted, the dilution factor is 2000, and so on.
[0078] The experiment found that: with the increase of the dilution factor, the resolution increased, but the detection limit of the act...
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