A biochemical and proteomic approach to the analysis of tomato mutant fruit growth
Authors
Marjanović, MilenaJovanović, Zorica
Vucelić Radović, Biljana
Savić, Slađana
Petrović, Ivana
Stikić, Radmila
Article (Published version)
Metadata
Show full item recordAbstract
To assess the effects of ABA deficiency on tomato fruit growth, the ABA mutant flacca was grown in an optimal soil water regime and various analyzes were performed, including morphological (fruit number, diameter and fruit biomass), physiological (duration of growth and fruit growth rate), biochemical (ABA accumulation, enzyme cell wall peroxidase activity) as well as proteomics. The fruit growth analysis showed that the slower fruit growth rate and development resulted in smaller flacca fruits in comparison to the wild-type fruits. The comparison of the temporal dynamics of cell wall peroxidase activity and ABA content in our experiment indicated an opposite relationship during fruit development. Proteomic analysis and the down-regulation of most proteins from carbon and amino acid metabolism, the translation and processing of proteins, energy metabolism and cell wall-related metabolism in the flacca fruits compared to the wild type, indicated reduced metabolic flux which reflected a ...slower fruit growth and development and reduced fruit size in the ABA mutant. These findings also indicated that ABA limited carbon sources, which could be responsible for the reduced fruit growth and size of ABA-deficient tomato fruits. The up-regulation of sulfur and oxygen-evolving enhancer proteins in the flacca fruits implicated the maintenance of photosynthesis in the late expansion phase, which slows down transition to the ripening stage. The majority of antioxidative and stress defence proteins were down-regulated in the flacca fruits, which could be related to the role of ABA in the activity of different antioxidative enzymes as well as in regulating cell wall expansion and the cessation of fruit growth.
Keywords:
ABA / cell wall peroxidase / flacca mutantSource:
Botanica Serbica, 2021, 45, 1, 71-85Publisher:
- • Institute of Botany and Botanical Garden "Jevremovac", University of Belgrade
Funding / projects:
DOI: 10.2298/BOTSERB2101071M
ISSN: 1821-2158
WoS: 000641742900007
Scopus: 2-s2.0-85105030360
Collections
Institution/Community
IZBISTY - JOUR AU - Marjanović, Milena AU - Jovanović, Zorica AU - Vucelić Radović, Biljana AU - Savić, Slađana AU - Petrović, Ivana AU - Stikić, Radmila PY - 2021 UR - https://plantarum.izbis.bg.ac.rs/handle/123456789/874 AB - To assess the effects of ABA deficiency on tomato fruit growth, the ABA mutant flacca was grown in an optimal soil water regime and various analyzes were performed, including morphological (fruit number, diameter and fruit biomass), physiological (duration of growth and fruit growth rate), biochemical (ABA accumulation, enzyme cell wall peroxidase activity) as well as proteomics. The fruit growth analysis showed that the slower fruit growth rate and development resulted in smaller flacca fruits in comparison to the wild-type fruits. The comparison of the temporal dynamics of cell wall peroxidase activity and ABA content in our experiment indicated an opposite relationship during fruit development. Proteomic analysis and the down-regulation of most proteins from carbon and amino acid metabolism, the translation and processing of proteins, energy metabolism and cell wall-related metabolism in the flacca fruits compared to the wild type, indicated reduced metabolic flux which reflected a slower fruit growth and development and reduced fruit size in the ABA mutant. These findings also indicated that ABA limited carbon sources, which could be responsible for the reduced fruit growth and size of ABA-deficient tomato fruits. The up-regulation of sulfur and oxygen-evolving enhancer proteins in the flacca fruits implicated the maintenance of photosynthesis in the late expansion phase, which slows down transition to the ripening stage. The majority of antioxidative and stress defence proteins were down-regulated in the flacca fruits, which could be related to the role of ABA in the activity of different antioxidative enzymes as well as in regulating cell wall expansion and the cessation of fruit growth. PB - • Institute of Botany and Botanical Garden "Jevremovac", University of Belgrade T2 - Botanica Serbica T1 - A biochemical and proteomic approach to the analysis of tomato mutant fruit growth EP - 85 IS - 1 SP - 71 VL - 45 DO - 10.2298/BOTSERB2101071M ER -
@article{ author = "Marjanović, Milena and Jovanović, Zorica and Vucelić Radović, Biljana and Savić, Slađana and Petrović, Ivana and Stikić, Radmila", year = "2021", abstract = "To assess the effects of ABA deficiency on tomato fruit growth, the ABA mutant flacca was grown in an optimal soil water regime and various analyzes were performed, including morphological (fruit number, diameter and fruit biomass), physiological (duration of growth and fruit growth rate), biochemical (ABA accumulation, enzyme cell wall peroxidase activity) as well as proteomics. The fruit growth analysis showed that the slower fruit growth rate and development resulted in smaller flacca fruits in comparison to the wild-type fruits. The comparison of the temporal dynamics of cell wall peroxidase activity and ABA content in our experiment indicated an opposite relationship during fruit development. Proteomic analysis and the down-regulation of most proteins from carbon and amino acid metabolism, the translation and processing of proteins, energy metabolism and cell wall-related metabolism in the flacca fruits compared to the wild type, indicated reduced metabolic flux which reflected a slower fruit growth and development and reduced fruit size in the ABA mutant. These findings also indicated that ABA limited carbon sources, which could be responsible for the reduced fruit growth and size of ABA-deficient tomato fruits. The up-regulation of sulfur and oxygen-evolving enhancer proteins in the flacca fruits implicated the maintenance of photosynthesis in the late expansion phase, which slows down transition to the ripening stage. The majority of antioxidative and stress defence proteins were down-regulated in the flacca fruits, which could be related to the role of ABA in the activity of different antioxidative enzymes as well as in regulating cell wall expansion and the cessation of fruit growth.", publisher = "• Institute of Botany and Botanical Garden "Jevremovac", University of Belgrade", journal = "Botanica Serbica", title = "A biochemical and proteomic approach to the analysis of tomato mutant fruit growth", pages = "85-71", number = "1", volume = "45", doi = "10.2298/BOTSERB2101071M" }
Marjanović, M., Jovanović, Z., Vucelić Radović, B., Savić, S., Petrović, I.,& Stikić, R.. (2021). A biochemical and proteomic approach to the analysis of tomato mutant fruit growth. in Botanica Serbica • Institute of Botany and Botanical Garden "Jevremovac", University of Belgrade., 45(1), 71-85. https://doi.org/10.2298/BOTSERB2101071M
Marjanović M, Jovanović Z, Vucelić Radović B, Savić S, Petrović I, Stikić R. A biochemical and proteomic approach to the analysis of tomato mutant fruit growth. in Botanica Serbica. 2021;45(1):71-85. doi:10.2298/BOTSERB2101071M .
Marjanović, Milena, Jovanović, Zorica, Vucelić Radović, Biljana, Savić, Slađana, Petrović, Ivana, Stikić, Radmila, "A biochemical and proteomic approach to the analysis of tomato mutant fruit growth" in Botanica Serbica, 45, no. 1 (2021):71-85, https://doi.org/10.2298/BOTSERB2101071M . .