%0 Generic
%A Sanchez, Nestor,
%A Gutiérrez López, Gustavo F
%A Cáez Ramírez, Gabriela
%8 04/06/2020
%U http://hdl.handle.net/10818/51128
%X Papaya fruit, widely consumed around the world, is mechanically and structurally affected by several enzymatic processes during ripening, where pectin methylesterase plays a key role. Hence, the aim of this work was to evaluate possible correlations among physicochemical changes, mechanical parameters, viscoelastic behavior, and enzyme activity of pectin methylesterase to provide information about the softening phenomenon by applying the Maxwell and Peleg models. Mechanical parameters were estimated by texture profile analysis, enzyme activity by Michaelis–Menten parameters, and viscoelastic behavior by relaxation test responses fitted to these models. The Maxwell model described properly mechanical changes during ripening, displaying a better adjustment (R2 > 0.97) than the Peleg model (0.80 < R2 < 0.84). Pearson correlation analysis (P ≤ 0.01) indicated an inversely proportional relation among firmness, total soluble solids, and the first elastic element of the Maxwell model. Besides, the PME Michaelis–Menten affinity constant showed a correlation between the first elastic element and the first viscoelastic element of the Maxwell model. Findings of this work pointed out that the first Maxwell elastic element could explain structural changes as papaya ripening advance, associated with pectin methylesterase activity, cell wall disruption, and cell assembling into the tissue.
%I Food Engineering, Materials Science, & Nanotechnology
%K Correlation
%K PME activity
%K Viscoelastic
%K Carica papaya
%T Correlation among PME activity, viscoelastic, and structural parameters for Carica papaya edible tissue along ripening
%T Correlación entre actividad PME, parámetros viscoelásticos y estructurales para tejido comestible de Carica papaya a lo largo de la maduración
%R 10.1111/1750-3841.15130
%~ Intellectum