Modification of matrix polysaccharides during avocado (Persea americana) fruit ripening: an assessment of the role of Cx-cellulase |
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Authors: | E. M. O'Donoghue D. J. Huber |
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Affiliation: | Horticultural Sciences, Institute of Food and Agricultural Sciences, Univ. of Florida, Gainesville, FL 32611, USA. |
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Abstract: | The role of Cx-cellulase (EC 3.2.1.4) in fruit ripening and softening is unknown. In the present study, avocado ( Persea americana ) fruit, a rich source of Cx-cellulase, were examined to determine if the enzyme plays a role in ripening-related hemicellulose metabolism. Hemicelluloses (4 M alkali-soluble) from avocado fruit exhibited a very broad distribution of polymer sizes and an overall decrease in Mr during ripening. Polymers affected were primarily those of large Mr (relative molecular mass). The characteristic total hemicellulose Mr distribution and changes with ripening were also evident for xyloglucan (XG), a putative substrate for avocado Cx-cellulase. Hydrolytic activity toward hemicelluloses from preripe fruit was detected in crude buffer-soluble protein extracts derived from ripe avocado mesocarp tissue. XG was also degraded, and in a pattern similar to that observed during ripening. Purified Cx-cellulase also exhibited activity against specific components of isolated hemicelluloses; however, in contrast to the crude protein. Cx-cellulase alone was without influence on the Mr distribution of avocado XG. Protein depleted of Cx-cellulase was capable of moderate XG depolymerization. We conclude from the present studies that the enzyme Cx-cellulase is not involved in the ripening-related depolymerization of XG in avocado fruit. |
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Keywords: | Avocado Cx-cellulase hemicellulose Persea americana xyloglucan |
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