Literature DB >> 16659305

The influence of temperature on malic Acid metabolism in grape berries: I. Enzyme responses.

A N Lakso1, W M Kliewer.   

Abstract

Phosphoenolpyruvate (PEP) carboxylase activity in immature ;Carignane' grape berries (Vitis vinifera L.) had a temperature optimum of about 38 C, whereas malic enzyme activity rose with increasing temperature between 10 and 46 C. In vitro temperature inactivation rates for the PEP carboxylase were markedly greater than for the malic enzyme activity. From the simultaneous action of malic acid-producing enzymes (PEP carboxylase and malic dehydrogenase) and malic acid-degradating enzyme (malic enzyme) systems at different temperatures, the greatest tendency for malic acid accumulation in immature grape berries was at 20 to 25 C. Time-course measurements of enzymic activity from heated, intact berries revealed greater in vivo temperature stability for the malic enzyme activity than for the PEP carboxylase activity.

Entities:  

Year:  1975        PMID: 16659305      PMCID: PMC541825          DOI: 10.1104/pp.56.3.370

Source DB:  PubMed          Journal:  Plant Physiol        ISSN: 0032-0889            Impact factor:   8.340


  3 in total

1.  Some molecular and kinetic properties of heart malic dehydrogenase.

Authors:  R G WOLFE; J B NEILANDS
Journal:  J Biol Chem       Date:  1956-07       Impact factor: 5.157

2.  Temperature features of enzymes affecting crassulacean Acid metabolism.

Authors:  P C Brandon
Journal:  Plant Physiol       Date:  1967-07       Impact factor: 8.340

3.  Sugars and Organic Acids of Vitis vinifera.

Authors:  W M Kliewer
Journal:  Plant Physiol       Date:  1966-06       Impact factor: 8.340
  3 in total
  16 in total

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2.  The physiological role of malic enzyme in grape ripening.

Authors:  H P Ruffner; D Possner; S Brem; D M Rast
Journal:  Planta       Date:  1984-04       Impact factor: 4.116

3.  Is vegetative area, photosynthesis, or grape C uploading involved in the climate change-related grape sugar/anthocyanin decoupling in Tempranillo?

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4.  Modelling fruit-temperature dynamics within apple tree crowns using virtual plants.

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5.  Phosphoenolpyruvate carboxylase from the crassulacean plant Bryophyllum fedtschenkoi Hamet et Perrier. Purification, molecular and kinetic properties.

Authors:  R Jones; M B Wilkins; J R Coggins; C A Fewson; A D Malcolm
Journal:  Biochem J       Date:  1978-11-01       Impact factor: 3.857

6.  Isolation and biochemical characterization of grape malic enzyme.

Authors:  D Possner; H P Ruffner; D M Rast
Journal:  Planta       Date:  1981-05       Impact factor: 4.116

7.  Impact of diurnal temperature variation on grape berry development, proanthocyanidin accumulation, and the expression of flavonoid pathway genes.

Authors:  Seth D Cohen; Julie M Tarara; Greg A Gambetta; Mark A Matthews; James A Kennedy
Journal:  J Exp Bot       Date:  2012-01-20       Impact factor: 6.992

8.  A Process-Based Model of TCA Cycle Functioning to Analyze Citrate Accumulation in Pre- and Post-Harvest Fruits.

Authors:  Audrey Etienne; Michel Génard; Christophe Bugaud
Journal:  PLoS One       Date:  2015-06-04       Impact factor: 3.240

9.  Metabolic effects of elevated temperature on organic acid degradation in ripening Vitis vinifera fruit.

Authors:  C Sweetman; V O Sadras; R D Hancock; K L Soole; C M Ford
Journal:  J Exp Bot       Date:  2014-09-01       Impact factor: 6.992

10.  Is transcriptomic regulation of berry development more important at night than during the day?

Authors:  Markus Rienth; Laurent Torregrosa; Mary T Kelly; Nathalie Luchaire; Anne Pellegrino; Jérôme Grimplet; Charles Romieu
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