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Characterization of Two Divergent Endo-
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  S. Spolaore, L. Trainotti, A. Pavanello, and G. Casadoro Isolation and promoter analysis of two genes encoding different endo-{beta}-1,4-glucanases in the non-climacteric strawberry1 J. Exp. Bot., January 2, 2003; 54(381): 271 - 277. [Abstract] [Full Text] [PDF]
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A. Aharoni and A. P. O'Connell Gene expression analysis of strawberry achene and receptacle maturation using DNA microarrays J. Exp. Bot., October 1, 2002; 53(377): 2073 - 2087. [Abstract] [Full Text] [PDF]
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 C. Ampomah-Dwamena, B. A. Morris, P. Sutherland, B. Veit, and J.-L. Yao Down-Regulation of TM29, a Tomato SEPALLATA Homolog, Causes Parthenocarpic Fruit Development and Floral Reversion Plant Physiology, October 1, 2002; 130(2): 605 - 617. [Abstract] [Full Text] [PDF]
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S. Jimenez-Bermudez, J. Redondo-Nevado, J. Munoz-Blanco, J. L. Caballero, J. M. Lopez-Aranda, V. Valpuesta, F. Pliego-Alfaro, M. A. Quesada, and J. A. Mercado Manipulation of Strawberry Fruit Softening by Antisense Expression of a Pectate Lyase Gene Plant Physiology, February 1, 2002; 128(2): 751 - 759. [Abstract] [Full Text] [PDF]
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L. Trainotti, R. Spinello, A. Piovan, S. Spolaore, and G. Casadoro {beta}-Galactosidases with a lectin-like domain are expressed in strawberry J. Exp. Bot., August 1, 2001; 52(361): 1635 - 1645. [Abstract] [Full Text] [PDF]
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E. P. Harrison, S. J. McQueen-Mason, and K. Manning Expression of six expansin genes in relation to extension activity in developing strawberry fruit J. Exp. Bot., July 1, 2001; 52(360): 1437 - 1446. [Abstract] [Full Text] [PDF]
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| HOME | HELP | FEEDBACK | SUBSCRIPTIONS | ARCHIVE | SEARCH | TABLE OF CONTENTS |
| ASPB Publications | PLANT PHYSIOLOGY | THE PLANT CELL | |
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-1,4-Glucanase cDNA
Clones Highly Expressed in the Nonclimacteric Strawberry Fruit
-1,4-glucanases
(EGases) have been isolated from a cDNA library obtained from ripe
strawberry (Fragaria x ananassa Duch)
fruit. The analysis of the amino acid sequence suggests that
Cel1 and Cel2 EGases have different
secondary and tertiary structures and that they differ in the presence
of potential N-glycosylation sites. By in vitro
translation we show that Cel1 and Cel2
bear a functional signal peptide, the cleavage of which yields mature proteins of 52 and 60 kD, respectively. Phylogenetic analysis revealed
that the Cel2 EGase diverged early in evolution from other plant EGases. Northern analysis showed that both EGases are
highly expressed in fruit and that they have different temporal patterns of accumulation. The Cel2 EGase was expressed
in green fruit, accumulating as the fruit turned from green to white
and remaining at an elevated, constant level throughout fruit ripening. In contrast, the Cel1 transcript was not detected in
green fruit and only a low level of expression was observed in white
fruit. The level of Cel1 mRNA increased gradually during
ripening, reaching a maximum in fully ripe fruit. The high levels of
Cel1 and Cel2 mRNA in ripe fruit and
their overlapping patterns of expression suggest that these EGases play
an important role in softening during ripening. In addition, the early
expression of Cel2 in green fruit, well before
significant softening begins, suggests that the product of this gene
may also be involved in processes other than fruit softening, e.g. cell
wall expansion.