Papaya endoxylanase biochemical characterization and isoforms expressed during fruit ripening

► An endoxylanase from ripe ‘Maradol’ papaya fruit was semipurified. ► It had a Michaelis–Menten kinetic and activation energy of 25.5kJmol−1. ► Optimal enzymatic activity was obtained at 45–50°C and pH of 5.5. ► Endoxylanase isoforms expressed during fruit ripening were identified. Papaya fruit rip...

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Bibliographic Details
Published in:Postharvest biology and technology 2013-07, Vol.81, p.13-22
Main Authors: Iniestra-González, J. Jesús, Lino-López, Gisela Jareth, Paull, Robert E., de la Rosa, Ana Paulina Barba, Mancilla-Margalli, N. Alejandra, Sañudo-Barajas, J. Adriana, Ibarra-Junquera, Vrani, Chen, Nancy J., Hernández-Velasco, Miguel Ángel, Osuna-Castro, Juan Alberto
Format: Article
Language:English
Subjects:
Biological and medical sciences
Endoxylanase
Food industries
Fruit and vegetable industries
Fundamental and applied biological sciences. Psychology
Immunodetection
Isoelectric point
Ripening
Softening
‘Maradol’ papaya
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Summary:► An endoxylanase from ripe ‘Maradol’ papaya fruit was semipurified. ► It had a Michaelis–Menten kinetic and activation energy of 25.5kJmol−1. ► Optimal enzymatic activity was obtained at 45–50°C and pH of 5.5. ► Endoxylanase isoforms expressed during fruit ripening were identified. Papaya fruit ripening processes involve the coordinated action of several hydrolases that causes cell wall degradation. Endoxylanase participates in xylan or arabinoxylan modifications and its importance has been related to papaya softening. However, endoxylanase has been not fully characterized biochemically and kinetically. Semipurified endoxylanase from ripe ‘Maradol’ papaya fruit had an optimal temperature from 45°C to 50°C, a pH optimum of 5.5 against Remazol brilliant blue-xylan (RBB-Xylan) and enzymatic activity remained stable during 36h at 45°C. The activation energy of the enzyme was 25.5kJmol−1, and the Vmax at 32, 37 and 42°C was 788.9, 888.9 and 1085.6μgkg−1s−1, respectively. The Km did not change as a function of temperature and was measured as 1.8gL−1 and was within the range reported for other xylanases. Total proteins were extracted from color-break, half-ripe and ripe fruit. A pre-endoxylanase at 63.9kDa was identified in the color-break fruit and an active endoxylanase at 32.5kDa that was only found in ripe fruit, when the highest enzymatic activity was obtained. Immunodetection on two-dimensional gel electrophoresis (2DE) protein blots showed three isoforms of the pre-endoxylanase at color-break and ripe stages and, four isoforms in ripe fruit that were absent in color-break fruit. The biochemical and kinetic characteristics of the endoxylanase are crucial to our understanding papaya fruit softening.
ISSN:0925-5214
1873-2356
DOI:10.1016/j.postharvbio.2013.02.001