TY  - DATA
AU  - Petrović, Ivana
AU  - Savić, Slađana
AU  - Gricourt, Justine
AU  - Causse, Mathilde
AU  - Jovanović, Zorica
AU  - Stikić, Radmila
PY  - 2021
UR  - http://RIVeC.institut-palanka.rs/handle/123456789/485
PB  - Springer
T2  - Physiology and Molecular Biology of Plants
T1  - Supplementary data for article: Petrović I, Savić S, Gricourt J, Causse M, Jovanović Z, Stikić R. Effect of long-term drought on tomato leaves: the impact on metabolic and antioxidative response. in Physiology and Molecular Biology of Plants
UR  - https://hdl.handle.net/21.15107/rcub_rivec_485
ER  - 

@misc{
author = "Petrović, Ivana and Savić, Slađana and Gricourt, Justine and Causse, Mathilde and Jovanović, Zorica and Stikić, Radmila",
year = "2021",
publisher = "Springer",
journal = "Physiology and Molecular Biology of Plants",
title = "Supplementary data for article: Petrović I, Savić S, Gricourt J, Causse M, Jovanović Z, Stikić R. Effect of long-term drought on tomato leaves: the impact on metabolic and antioxidative response. in Physiology and Molecular Biology of Plants",
url = "https://hdl.handle.net/21.15107/rcub_rivec_485"
}

Petrović, I., Savić, S., Gricourt, J., Causse, M., Jovanović, Z.,& Stikić, R.. (2021). Supplementary data for article: Petrović I, Savić S, Gricourt J, Causse M, Jovanović Z, Stikić R. Effect of long-term drought on tomato leaves: the impact on metabolic and antioxidative response. in Physiology and Molecular Biology of Plants. in Physiology and Molecular Biology of Plants
Springer..
https://hdl.handle.net/21.15107/rcub_rivec_485

Petrović I, Savić S, Gricourt J, Causse M, Jovanović Z, Stikić R. Supplementary data for article: Petrović I, Savić S, Gricourt J, Causse M, Jovanović Z, Stikić R. Effect of long-term drought on tomato leaves: the impact on metabolic and antioxidative response. in Physiology and Molecular Biology of Plants. in Physiology and Molecular Biology of Plants. 2021;.
https://hdl.handle.net/21.15107/rcub_rivec_485 .

Petrović, Ivana, Savić, Slađana, Gricourt, Justine, Causse, Mathilde, Jovanović, Zorica, Stikić, Radmila, "Supplementary data for article: Petrović I, Savić S, Gricourt J, Causse M, Jovanović Z, Stikić R. Effect of long-term drought on tomato leaves: the impact on metabolic and antioxidative response. in Physiology and Molecular Biology of Plants" in Physiology and Molecular Biology of Plants (2021),
https://hdl.handle.net/21.15107/rcub_rivec_485 .

TY  - JOUR
AU  - Petrović, Ivana
AU  - Savić, Slađana
AU  - Gricourt, Justine
AU  - Causse, Mathilde
AU  - Jovanović, Zorica
AU  - Stikić, Radmila
PY  - 2021
UR  - http://RIVeC.institut-palanka.rs/handle/123456789/410
AB  - Water deficit triggers physiological, biochemical,
and molecular changes in leaves that could be important
for overall plant adaptive response and it can affect
tomato yield and quality. To assess the influence of longterm
moderate drought on leaves, four tomato accessions
from MAGIC TOM populations were selected on the basis
of their differences in fruit size and were grown in a
glasshouse under control and water deficit conditions.
Drought affected stomatal conductance more in large fruit
genotypes compared to cherry genotypes and this could be
related to higher abscisic acid (ABA) leaf content. Compared
to large fruits, cherry tomato genotypes coped better
with water stress by reducing leaf area and maintaining
photochemical efficiency as important adaptive responses.
Accumulation of soluble sugars in the cherry genotypes
and organic acid in the leaves of the larger fruit genotypes
indicated their role in the osmoregulation and the continuum
of source/sink gradient under stress conditions. Longterm
moderate drought induced upregulation of NCED
gene in all four genotypes that was associated with ABA
production. The increase in the expression of ZEP gene
was found only in the LA1420 cherry genotype and indicated
its possible role in the protection against photooxidative
stress induced by prolonged water stress. In
addition, upregulation of the APX genes, higher accumulation
of vitamin C and total antioxidant capacity in cherry
genotype leaves highlighted their greater adaptive response
against long-term drought stress compared to larger fruit
genotypes that could also reflect at fruit level.
PB  - Springer
T2  - Physiology and Molecular Biology of Plants
T1  - Effect of long-term drought on tomato leaves: the impact on metabolic and antioxidative response
EP  - 2817
IS  - 27
SP  - 2805
DO  - 10.1007/s12298-021-01102-2
ER  - 

@article{
author = "Petrović, Ivana and Savić, Slađana and Gricourt, Justine and Causse, Mathilde and Jovanović, Zorica and Stikić, Radmila",
year = "2021",
abstract = "Water deficit triggers physiological, biochemical,
and molecular changes in leaves that could be important
for overall plant adaptive response and it can affect
tomato yield and quality. To assess the influence of longterm
moderate drought on leaves, four tomato accessions
from MAGIC TOM populations were selected on the basis
of their differences in fruit size and were grown in a
glasshouse under control and water deficit conditions.
Drought affected stomatal conductance more in large fruit
genotypes compared to cherry genotypes and this could be
related to higher abscisic acid (ABA) leaf content. Compared
to large fruits, cherry tomato genotypes coped better
with water stress by reducing leaf area and maintaining
photochemical efficiency as important adaptive responses.
Accumulation of soluble sugars in the cherry genotypes
and organic acid in the leaves of the larger fruit genotypes
indicated their role in the osmoregulation and the continuum
of source/sink gradient under stress conditions. Longterm
moderate drought induced upregulation of NCED
gene in all four genotypes that was associated with ABA
production. The increase in the expression of ZEP gene
was found only in the LA1420 cherry genotype and indicated
its possible role in the protection against photooxidative
stress induced by prolonged water stress. In
addition, upregulation of the APX genes, higher accumulation
of vitamin C and total antioxidant capacity in cherry
genotype leaves highlighted their greater adaptive response
against long-term drought stress compared to larger fruit
genotypes that could also reflect at fruit level.",
publisher = "Springer",
journal = "Physiology and Molecular Biology of Plants",
title = "Effect of long-term drought on tomato leaves: the impact on metabolic and antioxidative response",
pages = "2817-2805",
number = "27",
doi = "10.1007/s12298-021-01102-2"
}

Petrović, I., Savić, S., Gricourt, J., Causse, M., Jovanović, Z.,& Stikić, R.. (2021). Effect of long-term drought on tomato leaves: the impact on metabolic and antioxidative response. in Physiology and Molecular Biology of Plants
Springer.(27), 2805-2817.
https://doi.org/10.1007/s12298-021-01102-2

Petrović I, Savić S, Gricourt J, Causse M, Jovanović Z, Stikić R. Effect of long-term drought on tomato leaves: the impact on metabolic and antioxidative response. in Physiology and Molecular Biology of Plants. 2021;(27):2805-2817.
doi:10.1007/s12298-021-01102-2 .

Petrović, Ivana, Savić, Slađana, Gricourt, Justine, Causse, Mathilde, Jovanović, Zorica, Stikić, Radmila, "Effect of long-term drought on tomato leaves: the impact on metabolic and antioxidative response" in Physiology and Molecular Biology of Plants, no. 27 (2021):2805-2817,
https://doi.org/10.1007/s12298-021-01102-2 . .