The relationship between alkylamide compound content and pungency intensity of Zanthoxylum bungeanum based on sensory evaluation and ultra-performance liquid chromatography-mass spectrometry/ mass spectrometry (UPLC-MS/MS) analysis.

BACKGROUND: Zanthoxylum bungeanum originating in different places varies in alkylamide content and pungency intensity. RESULTS: The pungency intensity of 19 Zanthoxylum bungeanum samples was first determined with Scoville pungency units (SPUs). The SPUs were found to range from 3.80E + 04 to 5.40E + 05. The chemical compositions and contents were measured next, using the ultra-performance liquid chromatography-mass spectrometry/ mass spectrometry (UPLC-MS/MS) method. The total alkylamide content ranged from 9.83 ± 0.15 to 89.98 ± 1.35 g kg-1 . Hydroxy-ϵ-sanshool, hydroxy-α-sanshool, hydroxy-ß-sanshool, hydroxy-γ-sanshool, bungeanool, and isobungeanool were found to be the key pungent compounds, ranging in proportion from 92.65% to 97.69%. The relationship between alkymide compound content and pungency intensity was also analyzed by ridge regression, and it was found that the ß values of independent variables were stable when k was more than 0.6. The regression coefficients of hydroxy-ϵ-sanshool, hydroxy-α-sanshool, hydroxy-ß-sanshool, hydroxy-γ-sanshool, bungeanool, isobungeanool, and other alkylamides were 0.105, 0.177, 0.386, -0.166, -0.006, 0.005, and -0.018, respectively. CONCLUSION: Hydroxy- sanshool compounds were important in determinant the pungency intensity of Z. bungeanum. Knowledge of the relationship between alkymide compound content and pungency intensity will assist in the creation of new methods to determine pungency intensity and provide a scientific basis for flavor design, development of pungent food products, and consumer choice evaluations. © 2018 Society of Chemical Industry.

The enhancement of the perception of saltiness by Sichuan pepper oleoresin in a NaCl model solution.

Health concerns related to the intake of salt have necessitated the investigation into NaCl reduction by examining the cross-modal interaction between the perception of saltiness and pungency elicited by Sichuan pepper oleoresin (Spo). The category scale and the generalized Labeled Magnitude Scale (gLMS) were used to determine the degree to which Spo enhanced the perception of saltiness in the NaCl model solution. Sixty-eight participants were divided into the hyposensitive, semi-sensitive, and hypersensitive groups according to individual exponent. The power functions of saltiness under different pungency carriers were obtained. The level of enhancement varied between the different sensitivity groups and pungency carriers. In the hypersensitive group, the low and strong pungency carriers effectively enhanced the perception of saltiness at low to moderate, and moderate to strong NaCl solutions, respectively. In the semi-sensitive group, low and moderate pungency carriers induced additive effect in the perception of saltiness at full and moderately strong NaCl solutions, respectively. However, the additive effect was inadequate in the hypo-sensitive group. Therefore, the low pungency solution was more feasible for enhancing in the perception of saltiness, while the maximum NaCl reduction percentages corresponded to the hypersensitive and semi-sensitive groups at 38.61% and 39.06%, respectively. This research not only provided insight into the effect of pungency on the perception of saltiness as it related to individual sensitivity, but also presented valuable information regarding flavor when developing food with reduced salt content.