Polygalacturonase activity and expression of related genes during ripening of strawberry cultivars with contrasting fruit firmness

Fleshy fruits soften during ripening mainly as a consequence of the catabolism of cell wall components. In strawberry ( Fragaria × ananassa Duch), the depolymerization and solubilization of pectins increase during ripening and contribute to fruit softening. In the present paper, we report the clonin...

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Published in	Postharvest biology and technology Vol. 47; no. 2; pp. 141 - 150
Main Authors	Villarreal, Natalia M., Rosli, Hernán G., Martínez, Gustavo A., Civello, P. Marcos
Format	Journal Article
Language	English
Published	New York, NY Elsevier B.V 01.02.2008 Amsterdam; New York: Elsevier Elsevier Science
Subjects	auxins Biological and medical sciences Cell wall complementary DNA correlation cultivars enzyme activity firmness Food additives Food industries Fragaria Fragaria ananassa Fruit and vegetable industries fruit quality Fundamental and applied biological sciences. Psychology gene expression General aspects genes molecular cloning molecular sequence data nucleotide sequences Pectin polygalacturonase postharvest physiology ripening Softening strawberries Pectin Fragaria Softening Cell wall PG Rosaceae Firmness Food additive Dicotyledones Strawberry Quality Angiospermae Fruit Enzyme Polygalacturonase Gene expression Glycosylases Ripening Gelling agent Glycosidases Hydrolases Spermatophyta Dietary fiber Polysaccharide Cultivar
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Abstract	Fleshy fruits soften during ripening mainly as a consequence of the catabolism of cell wall components. In strawberry ( Fragaria × ananassa Duch), the depolymerization and solubilization of pectins increase during ripening and contribute to fruit softening. In the present paper, we report the cloning and expression analysis of two polygalacturonase (PG) putative cDNAs: FaPG1 and T-PG. The former seems to be the same sequence of previously reported PG in strawberry, while T-PG cDNA has a deletion of 85 bp that cause a frame shift and would produce an inactive protein. Measurement of total PG activity and expression of FaPG1 and T-PG were performed in strawberry cultivars with contrasting softening rates. The softest cultivar (Toyonaka) showed the higher total PG activity in all ripening stages analyzed. The analysis by RT-PCR revealed that both genes express in the three cultivars, though the expression pattern was different. In the firmer cultivars (Selva and Camarosa) the expression of T-PG was considerably higher than the expression of FaPG1, while the opposite occurred in the softest cultivar (Toyonaka). Therefore, the higher PG activity detected in Toyonaka correlates with the enhanced expression of FaPG1 gene, while the low PG activity found in the firm cultivars correlates with a higher expression of T-PG, a gene that could encode a truncated protein without PG activity. The influence of auxins on both the expression of PG genes and the total PG activity during strawberry fruit ripening was also analyzed.
AbstractList	Fleshy fruits soften during ripening mainly as a consequence of the catabolism of cell wall components. In strawberry ( Fragaria × ananassa Duch), the depolymerization and solubilization of pectins increase during ripening and contribute to fruit softening. In the present paper, we report the cloning and expression analysis of two polygalacturonase (PG) putative cDNAs: FaPG1 and T-PG. The former seems to be the same sequence of previously reported PG in strawberry, while T-PG cDNA has a deletion of 85 bp that cause a frame shift and would produce an inactive protein. Measurement of total PG activity and expression of FaPG1 and T-PG were performed in strawberry cultivars with contrasting softening rates. The softest cultivar (Toyonaka) showed the higher total PG activity in all ripening stages analyzed. The analysis by RT-PCR revealed that both genes express in the three cultivars, though the expression pattern was different. In the firmer cultivars (Selva and Camarosa) the expression of T-PG was considerably higher than the expression of FaPG1, while the opposite occurred in the softest cultivar (Toyonaka). Therefore, the higher PG activity detected in Toyonaka correlates with the enhanced expression of FaPG1 gene, while the low PG activity found in the firm cultivars correlates with a higher expression of T-PG, a gene that could encode a truncated protein without PG activity. The influence of auxins on both the expression of PG genes and the total PG activity during strawberry fruit ripening was also analyzed. Fleshy fruits soften during ripening mainly as a consequence of the catabolism of cell wall components. In strawberry (Fragaria x ananassa Duch), the depolymerization and solubilization of pectins increase during ripening and contribute to fruit softening. In the present paper, we report the cloning and expression analysis of two polygalacturonase (PG) putative cDNAs: FaPG1 and T-PG. The former seems to be the same sequence of previously reported PG in strawberry, while T-PG cDNA has a deletion of 85bp that cause a frame shift and would produce an inactive protein. Measurement of total PG activity and expression of FaPG1 and T-PG were performed in strawberry cultivars with contrasting softening rates. The softest cultivar (Toyonaka) showed the higher total PG activity in all ripening stages analyzed. The analysis by RT-PCR revealed that both genes express in the three cultivars, though the expression pattern was different. In the firmer cultivars (Selva and Camarosa) the expression of T-PG was considerably higher than the expression of FaPG1, while the opposite occurred in the softest cultivar (Toyonaka). Therefore, the higher PG activity detected in Toyonaka correlates with the enhanced expression of FaPG1 gene, while the low PG activity found in the firm cultivars correlates with a higher expression of T-PG, a gene that could encode a truncated protein without PG activity. The influence of auxins on both the expression of PG genes and the total PG activity during strawberry fruit ripening was also analyzed.
Author	Civello, P. Marcos Rosli, Hernán G. Villarreal, Natalia M. Martínez, Gustavo A.
Author_xml	– sequence: 1 givenname: Natalia M. surname: Villarreal fullname: Villarreal, Natalia M. – sequence: 2 givenname: Hernán G. surname: Rosli fullname: Rosli, Hernán G. – sequence: 3 givenname: Gustavo A. surname: Martínez fullname: Martínez, Gustavo A. – sequence: 4 givenname: P. Marcos surname: Civello fullname: Civello, P. Marcos email: civello@intech.gov.ar
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Keywords	Pectin Fragaria Softening Cell wall PG Rosaceae Firmness Food additive Dicotyledones Strawberry Quality Angiospermae Fruit Enzyme Polygalacturonase Gene expression Glycosylases Ripening Gelling agent Glycosidases Hydrolases Spermatophyta Dietary fiber Polysaccharide Cultivar
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Snippet	Fleshy fruits soften during ripening mainly as a consequence of the catabolism of cell wall components. In strawberry ( Fragaria × ananassa Duch), the... Fleshy fruits soften during ripening mainly as a consequence of the catabolism of cell wall components. In strawberry (Fragaria x ananassa Duch), the...
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SubjectTerms	auxins Biological and medical sciences Cell wall complementary DNA correlation cultivars enzyme activity firmness Food additives Food industries Fragaria Fragaria ananassa Fruit and vegetable industries fruit quality Fundamental and applied biological sciences. Psychology gene expression General aspects genes molecular cloning molecular sequence data nucleotide sequences Pectin polygalacturonase postharvest physiology ripening Softening strawberries
Title	Polygalacturonase activity and expression of related genes during ripening of strawberry cultivars with contrasting fruit firmness
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