Maria Fabiana Drincovich
Overview
Explore the profile of Maria Fabiana Drincovich including associated specialties, affiliations and a list of published articles.
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14
Citations
118
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Recent Articles
1.
Gismondi M, Strologo L, Gabilondo J, Budde C, Drincovich M, Bustamante C
Planta
. 2024 Dec;
261(1):14.
PMID: 39672956
PpZAT12, a transcription factor differentially expressed in peach varieties with distinct susceptibility tochilling injury (CI), is a potential candidate gene for CI tolerance by regulating several identified gene targets. ZAT...
2.
Novello M, Bustamante C, Svetaz L, Goldy C, Valentini G, Drincovich M, et al.
Plant Cell Environ
. 2024 Oct;
48(2):1179-1200.
PMID: 39420723
Peach Leaf Curl Disease, caused by Taphrina deformans, is characterized by reddish hypertrophic and hyperplasic leaf areas. To comprehend the biochemical imbalances caused by the fungus, dissected symptomatic (C) and...
3.
4.
Pavlovic T, Margarit E, Muller G, Saenz E, Ruzzo A, Drincovich M, et al.
Plant Mol Biol
. 2023 Sep;
113(1-3):89-103.
PMID: 37702897
Seed storage compound deposition is influenced by both maternal and filial tissues. Within this framework, we analyzed strategies that operate during the development and filling of soybean embryos, using in...
5.
Wheeler M, Arias C, da Fonseca Rezende E Mello J, Diaz N, Rodrigues C, Drincovich M, et al.
Plant Mol Biol
. 2021 Aug;
107(1-2):37-48.
PMID: 34333694
NADP-ME2 from Arabidopsis thaliana exhibits a distinctive and complex regulation by fumarate, acting as an activator or an inhibitor according to substrate and effector concentrations. In this work, we used...
6.
Lara M, Bonghi C, Famiani F, Vizzotto G, Walker R, Drincovich M
Front Plant Sci
. 2020 Sep;
11:562252.
PMID: 32983215
Phytochemicals or secondary metabolites present in fruit are key components contributing to sensory attributes like aroma, taste, and color. In addition, these compounds improve human nutrition and health. Stone fruits...
7.
Loss of function of Arabidopsis NADP-malic enzyme 1 results in enhanced tolerance to aluminum stress
Badia M, Maurino V, Pavlovic T, Arias C, Pagani M, Andreo C, et al.
Plant J
. 2019 Oct;
101(3):653-665.
PMID: 31626366
In acidic soils, aluminum (Al) toxicity is a significant limitation to crop production worldwide. Given its Al-binding capacity, malate allows internal as well as external detoxification strategies to cope with...
8.
Badia M, Mans R, Lis A, Tronconi M, Arias C, Maurino V, et al.
FEBS J
. 2017 Jan;
284(4):654-665.
PMID: 28075062
NAD(P)-malic enzyme (NAD(P)-ME) catalyzes the reversible oxidative decarboxylation of malate to pyruvate, CO , and NAD(P)H and is present as a multigene family in Arabidopsis thaliana. The carboxylation reaction catalyzed...
9.
Wheeler M, Arias C, Righini S, Badia M, Andreo C, Drincovich M, et al.
PLoS One
. 2016 Jun;
11(6):e0158040.
PMID: 27347875
Malic enzymes (ME) catalyze the decarboxylation of malate generating pyruvate, CO2 and NADH or NADPH. In some organisms it has been established that ME is involved in lipids biosynthesis supplying...
10.
Tronconi M, Wheeler M, Martinatto A, Zubimendi J, Andreo C, Drincovich M
Phytochemistry
. 2014 Dec;
111:37-47.
PMID: 25433630
Plant mitochondria can use L-malate and fumarate, which accumulate in large levels, as respiratory substrates. In part, this property is due to the presence of NAD-dependent malic enzymes (NAD-ME) with...