Micić, Dragana Ignjatovic

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  • Micić, Dragana Ignjatovic (1)
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Physiological and gene expression changes during imbibition in maize seeds under low temperature conditions

Bozić, Manja; Stanojević, Aleksandra; Marković, Ksenija; Micić, Dragana Ignjatovic; Nikolić, Dragana; Milivojević, Marija; Nikolić, Ana

(Društvo genetičara Srbije, Beograd, 2021) 

TY  - JOUR
AU  - Bozić, Manja
AU  - Stanojević, Aleksandra
AU  - Marković, Ksenija
AU  - Micić, Dragana Ignjatovic
AU  - Nikolić, Dragana
AU  - Milivojević, Marija
AU  - Nikolić, Ana
PY  - 2021
UR  - https://imagine.imgge.bg.ac.rs/handle/123456789/1432
AB  - Maize is one of the most important crop species worldwide, but also extremely susceptible to the effects of increasingly higher temperatures and drought during the summer and its flowering and grain filling stage. Different strategies are being utilized to ensure a satisfying yield potential and quality even in the extremely unfavourable environmental conditions, which are the result of climate change. Some of them are cropping pattern changes and sowing alterations, including earlier sowing. Since this implies the exposure to suboptimal temperatures during early developmental stages, it leads to a demand for developing maize lines tolerant to low temperatures during these stages. This research focuses on the first phase of germination, imbibition. Maize tolerance to low temperatures is a complex trait that includes different mechanisms and strategies that all work together to ensure adaptation and survival, such as cell membrane changes, antioxidative system activation, etc. Additionally, the low temperature response of different maize inbreds varies substantially, so recognizing the different ways in which they respond to low temperatures during imbibition and other earlier stages of development is crucial. To accomplish this, seeds of two maize inbred lines of contrasting susceptibility to low temperatures were selected and exposed to control (20 degrees C) and low temperature (8 degrees C) conditions during the first 24h of imbition and then further analyzed to assess their response. This included germination and tetrazolium assays; ascertaining membrane integrity by evaluating cell leakage and lipid peroxidation; determining the antioxidative capacity by assessing superoxide dismutase (SOD) and catalase (CAT) activity; and expression analysis of four genes included in the low temperature response (gibberellin insensitive dwarf 1 gibberellin receptor, gid1; fatty acid desaturases 2 and 6, fad2 and fad6; plastid-lipid-associated 2 protein, pap2). The results showed that, while there is not a significant difference in their germination rate, they differ in their survival rate, with more seeds of the tolerant genotype surviving the low temperature period. Significant differences between them were found in cell leakage (p lt 0,01), as well as gid1(p lt 0,05) and fad6 (p lt 0,05) gene expression assays. The present research brings light to our understanding of the effect of low temperatures on the first germination stage, -imbibition. It highlights the importance of choosing the right inbreds for earlier sowing and points to certain routes that could be taken for improving and accelerating the breeding process for low temperature tolerance.
PB  - Društvo genetičara Srbije, Beograd
T2  - Genetika-Belgrade
T1  - Physiological and gene expression changes during imbibition in maize seeds under low temperature conditions
EP  - 1165
IS  - 3
SP  - 1147
VL  - 53
DO  - 10.2298/GENSR2103147B
ER  - 
@article{
author = "Bozić, Manja and Stanojević, Aleksandra and Marković, Ksenija and Micić, Dragana Ignjatovic and Nikolić, Dragana and Milivojević, Marija and Nikolić, Ana",
year = "2021",
abstract = "Maize is one of the most important crop species worldwide, but also extremely susceptible to the effects of increasingly higher temperatures and drought during the summer and its flowering and grain filling stage. Different strategies are being utilized to ensure a satisfying yield potential and quality even in the extremely unfavourable environmental conditions, which are the result of climate change. Some of them are cropping pattern changes and sowing alterations, including earlier sowing. Since this implies the exposure to suboptimal temperatures during early developmental stages, it leads to a demand for developing maize lines tolerant to low temperatures during these stages. This research focuses on the first phase of germination, imbibition. Maize tolerance to low temperatures is a complex trait that includes different mechanisms and strategies that all work together to ensure adaptation and survival, such as cell membrane changes, antioxidative system activation, etc. Additionally, the low temperature response of different maize inbreds varies substantially, so recognizing the different ways in which they respond to low temperatures during imbibition and other earlier stages of development is crucial. To accomplish this, seeds of two maize inbred lines of contrasting susceptibility to low temperatures were selected and exposed to control (20 degrees C) and low temperature (8 degrees C) conditions during the first 24h of imbition and then further analyzed to assess their response. This included germination and tetrazolium assays; ascertaining membrane integrity by evaluating cell leakage and lipid peroxidation; determining the antioxidative capacity by assessing superoxide dismutase (SOD) and catalase (CAT) activity; and expression analysis of four genes included in the low temperature response (gibberellin insensitive dwarf 1 gibberellin receptor, gid1; fatty acid desaturases 2 and 6, fad2 and fad6; plastid-lipid-associated 2 protein, pap2). The results showed that, while there is not a significant difference in their germination rate, they differ in their survival rate, with more seeds of the tolerant genotype surviving the low temperature period. Significant differences between them were found in cell leakage (p lt 0,01), as well as gid1(p lt 0,05) and fad6 (p lt 0,05) gene expression assays. The present research brings light to our understanding of the effect of low temperatures on the first germination stage, -imbibition. It highlights the importance of choosing the right inbreds for earlier sowing and points to certain routes that could be taken for improving and accelerating the breeding process for low temperature tolerance.",
publisher = "Društvo genetičara Srbije, Beograd",
journal = "Genetika-Belgrade",
title = "Physiological and gene expression changes during imbibition in maize seeds under low temperature conditions",
pages = "1165-1147",
number = "3",
volume = "53",
doi = "10.2298/GENSR2103147B"
}
Bozić, M., Stanojević, A., Marković, K., Micić, D. I., Nikolić, D., Milivojević, M.,& Nikolić, A.. (2021). Physiological and gene expression changes during imbibition in maize seeds under low temperature conditions. in Genetika-Belgrade
Društvo genetičara Srbije, Beograd., 53(3), 1147-1165.
https://doi.org/10.2298/GENSR2103147B
Bozić M, Stanojević A, Marković K, Micić DI, Nikolić D, Milivojević M, Nikolić A. Physiological and gene expression changes during imbibition in maize seeds under low temperature conditions. in Genetika-Belgrade. 2021;53(3):1147-1165.
doi:10.2298/GENSR2103147B .
Bozić, Manja, Stanojević, Aleksandra, Marković, Ksenija, Micić, Dragana Ignjatovic, Nikolić, Dragana, Milivojević, Marija, Nikolić, Ana, "Physiological and gene expression changes during imbibition in maize seeds under low temperature conditions" in Genetika-Belgrade, 53, no. 3 (2021):1147-1165,
https://doi.org/10.2298/GENSR2103147B . .