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Journal articles on the topic 'Dreb2a'

Author: Grafiati
Published: 4 June 2021
Last updated: 26 July 2025

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1

Morimoto, Kyoko, Naohiko Ohama, Satoshi Kidokoro, et al. "BPM-CUL3 E3 ligase modulates thermotolerance by facilitating negative regulatory domain-mediated degradation of DREB2A in Arabidopsis." Proceedings of the National Academy of Sciences 114, no. 40 (2017): E8528—E8536. http://dx.doi.org/10.1073/pnas.1704189114.

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DEHYDRATION-RESPONSIVE ELEMENT BINDING PROTEIN 2A (DREB2A) acts as a key transcription factor in both drought and heat stress tolerance in Arabidopsis and induces the expression of many drought- and heat stress-inducible genes. Although DREB2A expression itself is induced by stress, the posttranslational regulation of DREB2A, including protein stabilization, is required for its transcriptional activity. The deletion of a 30-aa central region of DREB2A known as the negative regulatory domain (NRD) transforms DREB2A into a stable and constitutively active form referred to as DREB2A CA. However,
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2

Vainonen, Julia P., Pinja Jaspers, Michael Wrzaczek, et al. "RCD1–DREB2A interaction in leaf senescence and stress responses in Arabidopsis thaliana." Biochemical Journal 442, no. 3 (2012): 573–81. http://dx.doi.org/10.1042/bj20111739.

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Transcriptional regulation of gene expression is one major determinant of developmental control and stress adaptation in virtually all living organisms. In recent years numerous transcription factors controlling various aspects of plant life have been identified. The activity of transcription factors needs to be regulated to prevent unspecific, prolonged or inappropriate responses. The transcription factor DREB2A (DEHYDRATION-RESPONSIVE ELEMENT BINDING 2A) has been identified as one of the main regulators of drought and heat responses, and it is regulated through protein stability. In the pres
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3

Rizaev, D., J. Ziyavitdinov, S. Sherimbetov, B. Adilov, S. Kurganov, and O. Pulatov. "ISOLATION AND DETERMINATION OF THE NUCLEOTIDE SEQUENCE OF THE DREB2A GENE FROM THE PLANT HALOCNEMUM STROBILACEUM (Pall.) Bieb. M." Sciences of Europe, no. 151 (October 27, 2024): 7–12. https://doi.org/10.5281/zenodo.13998942.

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The DREB2A gene protein is responsible for resistance to drought and high-temperature stress, and is one of the transcription factors. The DREB2A gene activates genes that are expressed under drought and high-temperature stress conditions. In order to study the natural essence of this molecular biological process, the DREB2A gene, consisting of 1231 nucleotide pairs, was isolated from the genome of the Halocnemum strobilaceum (Pall.) Bieb. M. plant and analyzed using the bioinformatics method.
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4

Gumi, A. M., B. Kumar, A. Pareek, and S. L. Singla-Pareek. "<i>In silico</i> Analysis of <i>Dreb2a</i> Gene among Diploid <i>Oryza</i> Species Reveal Gene Retrogression in Cultivated Species." Nigerian Journal of Basic and Applied Sciences 30, no. 2 (2023): 22–34. http://dx.doi.org/10.4314/njbas.v30i2.4.

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The dehydration-responsive element-binding (DREB) genes are types of plant-specific transcription factors that bind to DRE/CRT elements in response to abiotic stresses. It belongs to the AP2 superfamily and contains highly conserved APETELA2 (AP2) domain. In this study, comparative analysis of DREB2A gene from diploid Oryza species was performed using BLASTN approach. The OglDREB2A sequence (KU159742.1) was used as query against 11 diploid Oryza species in the Gramene database for identification of DREB2A orthologs. Molecular characterization, subcellular localization, conserved motifs and pro
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5

Huang, Yiming, Bingshuai Du, Mingxin Yu, Yibo Cao, Kehao Liang, and Lingyun Zhang. "Picea wilsonii NAC31 and DREB2A Cooperatively Activate ERD1 to Modulate Drought Resistance in Transgenic Arabidopsis." International Journal of Molecular Sciences 25, no. 4 (2024): 2037. http://dx.doi.org/10.3390/ijms25042037.

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The NAC family of transcription factors (TFs) regulate plant development and abiotic stress. However, the specific function and response mechanism of NAC TFs that increase drought resistance in Picea wilsonii remain largely unknown. In this study, we functionally characterized a member of the PwNAC family known as PwNAC31. PwNAC31 is a nuclear-localized protein with transcriptional activation activity and contains an NAC domain that shows extensive homology with ANAC072 in Arabidopsis. The expression level of PwNAC31 is significantly upregulated under drought and ABA treatments. The heterologo
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6

Rizaev, Doston, Jamoliddin Ziyavitdinov, Sanjar Sherimbetov, and Bahtiyor Adilov. "Amplification of the dreb2a transcription factor gene from salsola richteri (moq.) Kar. Ex litv. Growing in the southern Aralkum." American Journal Of Agriculture And Horticulture Innovations 5, no. 3 (2025): 28–31. https://doi.org/10.37547/ajahi/volume05issue03-08.

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This study investigates halophytic plants of the genus Salsola L., which are widely spread in the southern part of the Aralkum Desert. During the research, a PCR product of approximately 1200 bp associated with the DREB2A gene was amplified in one of the species, Salsola richteri. This gene plays a key role in plant adaptation to drought and salt stress. The obtained data will be used for sequencing the DREB2A gene and analyzing its expression.
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7

Tawfik, Rasha Sabry, Abdelfattah Badr, Reda Sammour, Usama Ibrahim, Mohamed Matter, and Mahmoud Sakr. "Improvement of Flax Drought Tolerance Using Gene Transfer." Plant Tissue Culture and Biotechnology 26, no. 2 (2016): 197–207. http://dx.doi.org/10.3329/ptcb.v26i2.30570.

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Attempt was made to produce transgenic cell lines of flax cv. Blanka tolerant to drought stress. Genetic transformation systems were used to incorporate the DREB2A gene, as the specific gene for drought stress tolerance. In biolistic transformation, hypocotyl segments were bombarded with DREB2A and GFP genes at particle flight distance of 9 cm and rupture disc pressure of 1300 psi. The expression of the gene was observed under a light microscope after 24 and 48 hrs. In Agrobacterium?mediated transformation, the hypocotyl segments were incubated overnight with Agrobacterium culture at five opti
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8

Karpova, O., A. Alexandrova, R. Nargilova, M. Ramazanova, R. Kryldakov, and B. Iskakov. "AtDREB2A Gene Expression Under Control of the Inducible Promoter and Virus 5’-untranslated Regions Improves Tolerance to Salinity in Nicotiana Tabacum." International Journal of Biology and Biomedical Engineering 15 (July 19, 2021): 260–74. http://dx.doi.org/10.46300/91011.2021.15.32.

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Transcriptional factor DEHYDRATION-RESPONSIVE ELEMENT BINDING PROTEIN 2A (DREB2A) induces the expression of many genes in dehydration, heat shock, and salinity in Arabidopsis. Deletion of sequence coding the 30 amino acid central region transforms full length (FL) protein DREB2A FL into a more stable and constitutively active form known as DREB2A CA. Here, using agrobacteria, a leaf disc transformation of Nicotiana tabacum v. Samsun NN was carried out by transgenes AtDREB2A-FL and AtDREB2A-CA coding the proteins with His-tag on the С-end. The effects of combinations of constitutive 35S CaMV pr
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9

Seale, Madeleine. "Hot on the Trail of DREB2A Protein Stability." Plant Physiology 183, no. 1 (2020): 7–8. http://dx.doi.org/10.1104/pp.20.00410.

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10

Maruyama, Kyonoshin, Migiwa Takeda, Satoshi Kidokoro, et al. "Metabolic Pathways Involved in Cold Acclimation Identified by Integrated Analysis of Metabolites and Transcripts Regulated by DREB1A and DREB2A." Plant Physiology 150, no. 4 (2009): 1972–80. http://dx.doi.org/10.1104/pp.109.135327.

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11

Filyushin, Mikhail A., Elena Z. Kochieva, and Anna V. Shchennikova. "ZmDREB2.9 Gene in Maize (Zea mays L.): Genome-Wide Identification, Characterization, Expression, and Stress Response." Plants 11, no. 22 (2022): 3060. http://dx.doi.org/10.3390/plants11223060.

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Dehydration-responsive element-binding (DREB) transcription factors of the A2 subfamily play key roles in plant stress responses. In this study, we identified and characterized a new A2-type DREB gene, ZmDREB2.9, in the Zea mays cv. B73 genome and compared its expression profile with those of the known A2-type maize genes ZmDREB2.1–2.8. ZmDREB2.9 was mapped to chromosome 8, contained 18 predicted hormone- and stress-responsive cis-elements in the promoter, and had two splice isoforms: short ZmDREB2.9-S preferentially expressed in the leaves, embryos, and endosperm and long ZmDREB2.9-L expresse
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12

Wang, Feige, Yiyang Liu, Yaqiao Shi, et al. "SUMOylation Stabilizes the Transcription Factor DREB2A to Improve Plant Thermotolerance." Plant Physiology 183, no. 1 (2020): 41–50. http://dx.doi.org/10.1104/pp.20.00080.

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13

Sharma, Rakesh, Manan Azad, Vandana Nunia, S. L. Kothari, and Sumita Kachhwaha. "Differential and developmental stage specific abundance of Zmdreb2a mRNA transcripts under drought stress and root development in Zea mays (L.)." Plant Omics, no. 12(02):2019 (September 20, 2019): 78–86. http://dx.doi.org/10.21475/poj.12.02.19.p1763.

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Environmental stress constraints like temperature, drought and salinity affect plant growth, development and productivity negatively. In maize (Zea mays L.) water-deficiency affects flowering, pollination and embryo development. Transgenic plants having drought tolerance is a priority target in maize breeding programs worldwide. Various transcription factors play a key role in plant development and stress management. DRE-Binding Protein 2A (DREB2A) has been shown to play a central role in drought tolerance in Arabidopsis thaliana. The homologue of dreb2a in Zea mays is Zmdreb2a, a well-known t
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14

Pagliarini, Renata Fuganti, Juliane Prela Marinho, Mayla Daiane Correa Molinari, et al. "Overexpression of full-length and partial DREB2A enhances soybean drought tolerance." Agronomy Science and Biotechnology 8 (September 16, 2021): 1–21. http://dx.doi.org/10.33158/asb.r141.v8.2022.

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Soybean is an important commodity worldwide. Abiotic conditions can adversely disturb crop growth and final yield. The transcription factor Dehydration-Responsive Element-Binding Proteins 2 (DREB2) act as a regulator of drought-responses. This study aimed to characterize soybean plants genetically modified with GmDREB2A;2 FL and GmDREB2A;2 CA for molecular, physiological, and agronomic responses, at different developmental periods. Results showed that seedlings from GmDREB2A;2 FL event presented lower growth reduction under osmotic treatment during germination. The GmDREB2A;2 FL and GmDREB2A;2
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15

Lathif, Yudrik, Dwi Listyorini, and Suharti Suharti. "Varietas Padi Lokal Jawa Timur Tahan Cekaman Kekeringan Berdasarkan Gen DREB2A." Biotropika - Journal of Tropical Biology 6, no. 3 (2018): 89–95. http://dx.doi.org/10.21776/ub.biotropika.2018.006.03.03.

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16

Seok, Hye-Yeon, Sun-Young Lee, Linh Vu Nguyen, Md Bayzid, Yunseong Jang, and Yong-Hwan Moon. "AtC3H3, an Arabidopsis Non-TZF Gene, Enhances Salt Tolerance by Increasing the Expression of Both ABA-Dependent and -Independent Stress-Responsive Genes." International Journal of Molecular Sciences 25, no. 20 (2024): 10943. http://dx.doi.org/10.3390/ijms252010943.

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Salinity causes widespread crop loss and prompts plants to adapt through changes in gene expression. In this study, we aimed to investigate the function of the non-tandem CCCH zinc-finger (non-TZF) protein gene AtC3H3 in response to salt stress in Arabidopsis. AtC3H3, a gene from the non-TZF gene family known for its RNA-binding and RNase activities, was up-regulated under osmotic stress, such as high salt and drought. When overexpressed in Arabidopsis, AtC3H3 improved tolerance to salt stress, but not drought stress. The expression of well-known abscisic acid (ABA)-dependent salt stress-respo
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17

Yu, Mingxin, Junling Liu, Bingshuai Du, Mengjuan Zhang, Aibin Wang, and Lingyun Zhang. "NAC Transcription Factor PwNAC11 Activates ERD1 by Interaction with ABF3 and DREB2A to Enhance Drought Tolerance in Transgenic Arabidopsis." International Journal of Molecular Sciences 22, no. 13 (2021): 6952. http://dx.doi.org/10.3390/ijms22136952.

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NAC (NAM, ATAF1/2, and CUC2) transcription factors are ubiquitously distributed in eukaryotes and play significant roles in stress response. However, the functional verifications of NACs in Picea (P.) wilsonii remain largely uncharacterized. Here, we identified the NAC transcription factor PwNAC11 as a mediator of drought stress, which was significantly upregulated in P. wilsonii under drought and abscisic acid (ABA) treatments. Yeast two-hybrid assays showed that both the full length and C-terminal of PwNAC11 had transcriptional activation activity and PwNAC11 protein cannot form a homodimer
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18

More, Prashant, Parinita Agarwal, Shaik G. Mastan, and Pradeep K. Agarwal. "MSAP marker based DNA methylation study in Salicornia brachiata DREB2A transgenic tobacco." Plant Gene 6 (June 2016): 77–81. http://dx.doi.org/10.1016/j.plgene.2016.04.001.

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19

Xu, Daixi, Junfei Hao, Chen Wang, Lei Zhang, and Hanguo Zhang. "Analysis of the Expression Patterns of 13 DREB Family Genes Related to Cone-Setting Genes in Hybrid Larch (Larix kaempferi × Larix olgensis)." Forests 14, no. 12 (2023): 2300. http://dx.doi.org/10.3390/f14122300.

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AP2/ERF is an important transcription factor family involved in physiological processes such as plant development and hormone signaling. In this study, based on the available transcriptome data of hybrid larch during floral induction, 13 DREB genes belonging to the AP2/EREBP family with complete CDS regions were identified through alignment using the NCBI website. We conducted a bioinformatics analysis on the gene sequences, examining their tissue specificity, response to hormone treatment, and response to environmental factors. The DREB genes in hybrid larch (Larix kaempferi × Larix olgensis)
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20

Tran, Can Thi My, Tiba Nazar Ibrahim Al Azzawi, Murtaza Khan, Sajid Ali, Yong-Sun Moon, and Byung-Wook Yun. "Brevundimonas vesicularis (S1T13) Mitigates Drought-Stress-Associated Damage in Arabidopsis thaliana." International Journal of Molecular Sciences 24, no. 23 (2023): 16590. http://dx.doi.org/10.3390/ijms242316590.

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Drought stress is a significant threat to agricultural productivity and poses challenges to plant survival and growth. Research into microbial plant biostimulants faces difficulties in understanding complicated ecological dynamics, molecular mechanisms, and specificity; to address these knowledge gaps, collaborative efforts and innovative strategies are needed. In the present study, we investigated the potential role of Brevundimonas vesicularis (S1T13) as a microbial plant biostimulant to enhance drought tolerance in Arabidopsis thaliana. We assessed the impact of S1T13 on Col-0 wild-type (WT
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21

Sakuma, Yoh, Kyonoshin Maruyama, Yuriko Osakabe, et al. "Functional Analysis of an Arabidopsis Transcription Factor, DREB2A, Involved in Drought-Responsive Gene Expression." Plant Cell 18, no. 5 (2006): 1292–309. http://dx.doi.org/10.1105/tpc.105.035881.

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22

Nayak, Spurthi N., Jayashree Balaji, Hari D. Upadhyaya, et al. "Isolation and sequence analysis of DREB2A homologues in three cereal and two legume species." Plant Science 177, no. 5 (2009): 460–67. http://dx.doi.org/10.1016/j.plantsci.2009.07.009.

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23

Oktavianti, Ria. "The Application Of PCR (Polymerase Chain Reaction) Using Specific Primer To Detect Chillies Drought Tolerant." JURNAL AGRONOMI TANAMAN TROPIKA (JUATIKA) 1, no. 2 (2019): 49–66. http://dx.doi.org/10.36378/juatika.v1i2.176.

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The purpose of this study was to find tolerant genotypes. This research was conducted on 16 chilli genotypes from UIN Suska Riau Laboratory of Breeding and Genetics. Using four specific primers wich were TIL, DREB2A, P5CS, and Primary Pair 2 (BLAS). Results of the study showed amplifikasi of chilli DNA could be obtained using TIL and Pair 2. Primer however th corsponding result were obtain only by using TI to be drought tolerant, while 5 genotypes were found drought intolerant. The drought tolerant genotypes were (RFC-005), (RFC-006), (G-UIN- 016), (G-UIN-015), (G-UIN-065), (UIN-097), (UIN-035
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24

Rana, Bhakti, S. Kumar, Sudhir Kumar, and M. K. Yadav. "Isolation and Sequence Analysis of Drought Induced Dreb2a in Indian Wheat Cultivars Under Water Stress Condition." Vegetos- An International Journal of Plant Research 26, no. 2 (2013): 331. http://dx.doi.org/10.5958/j.2229-4473.26.2.093.

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25

Mizoi, Junya, Natsumi Kanazawa, Satoshi Kidokoro, et al. "Heat-induced inhibition of phosphorylation of the stress-protective transcription factor DREB2A promotes thermotolerance ofArabidopsis thaliana." Journal of Biological Chemistry 294, no. 3 (2018): 902–17. http://dx.doi.org/10.1074/jbc.ra118.002662.

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26

Donde, Ravindra, Manoj Kumar Gupta, Gayatri Gouda, et al. "Computational characterization of structural and functional roles of DREB1A, DREB1B and DREB1C in enhancing cold tolerance in rice plant." Amino Acids 51, no. 5 (2019): 839–53. http://dx.doi.org/10.1007/s00726-019-02727-0.

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27

Blomberg, Jeanette, Ximena Aguilar, Kristoffer Brännström, et al. "Interactions between DNA, transcriptional regulator Dreb2a and the Med25 mediator subunit from Arabidopsis thaliana involve conformational changes." Nucleic Acids Research 40, no. 13 (2012): 5938–50. http://dx.doi.org/10.1093/nar/gks265.

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28

Lv, Meicheng, Wen Luo, Miaomiao Ge, et al. "A Group I WRKY Gene, TaWRKY133, Negatively Regulates Drought Resistance in Transgenic Plants." International Journal of Molecular Sciences 23, no. 19 (2022): 12026. http://dx.doi.org/10.3390/ijms231912026.

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WRKYs are one of the largest transcription factor (TF) families and play an important role in plant resistance to various stresses. TaWRKY133, a group I WRKY protein, responds to a variety of abiotic stresses, including PEG treatment. The TaWRKY133 protein is located in the nucleus of tobacco epidermal cells, and both its N-terminal and C-terminal domains exhibit transcriptional activation activity. Overexpression of TaWRKY133 reduced drought tolerance in Arabidopsis thaliana, as reflected by a lower germination rate, shorter roots, higher stomatal aperture, poorer growth and lower antioxidant
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29

Li, Xiaorui, Yan Tang, Chunju Zhou, Lixin Zhang, and Jinyin Lv. "A Wheat WRKY Transcription Factor TaWRKY46 Enhances Tolerance to Osmotic Stress in transgenic Arabidopsis Plants." International Journal of Molecular Sciences 21, no. 4 (2020): 1321. http://dx.doi.org/10.3390/ijms21041321.

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WRKY transcription factors play central roles in developmental processes and stress responses of wheat. Most WRKY proteins of the same group (Group III) have a similar function in abiotic stress responses in plants. TaWRKY46, a member of Group III, was up-regulated by PEG treatment. TaWRKY46-GFP fusion proteins localize to the nucleus in wheat mesophyll protoplasts. Overexpression of TaWRKY46 enhanced osmotic stress tolerance in transgenic Arabidopsis thaliana plants, which was mainly demonstrated by transgenic Arabidopsis plants forming higher germination rate and longer root length on 1/2 Mu
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30

Pandey, Sudhakar, Waquar Akhter Ansari, Ram Krishna, Akhilesh Yadav, Durgesh Kumar Jaiswal, and Bijendra Singh. "Physiological and Molecular Responses of Underutilized Genotype AHK-200 of Vegetable Melon (Cucumis melo var. melo) Against Drought Stress: Gas Exchange, Antioxidant Activity, and Gene Expression." Metabolites 15, no. 6 (2025): 359. https://doi.org/10.3390/metabo15060359.

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Background/Objectives: Drought stress is a significant environmental challenge that affects plant growth and productivity. Methods: In this study, an underutilized and better drought stress tolerance genotype of Cucumis melo var. melo, i.e., AHK-200, was investigated for drought tolerance potential, with special emphasis on various morphological, physiological, biochemical, and molecular parameters. Results: Our findings show that AHK-200 demonstrates superior drought tolerance with an enhanced root length, better water retention capacity, and stable cell membrane integrity under water deficit
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31

Sakuma, Y., K. Maruyama, F. Qin, Y. Osakabe, K. Shinozaki, and K. Yamaguchi-Shinozaki. "Dual function of an Arabidopsis transcription factor DREB2A in water-stress-responsive and heat-stress-responsive gene expression." Proceedings of the National Academy of Sciences 103, no. 49 (2006): 18822–27. http://dx.doi.org/10.1073/pnas.0605639103.

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32

Qin, Feng, Yoh Sakuma, Lam-Son Phan Tran, et al. "Arabidopsis DREB2A-Interacting Proteins Function as RING E3 Ligases and Negatively Regulate Plant Drought Stress–Responsive Gene Expression." Plant Cell 20, no. 6 (2008): 1693–707. http://dx.doi.org/10.1105/tpc.107.057380.

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33

Guerrero-Sánchez, Víctor M., Cristina López-Hidalgo, María-Dolores Rey, María Ángeles Castillejo, Jesús V. Jorrín-Novo, and Mónica Escandón. "Multiomic Data Integration in the Analysis of Drought-Responsive Mechanisms in Quercus ilex Seedlings." Plants 11, no. 22 (2022): 3067. http://dx.doi.org/10.3390/plants11223067.

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The integrated analysis of different omic layers can provide new knowledge not provided by their individual analysis. This approach is also necessary to validate data and reveal post-transcriptional and post-translational mechanisms of gene expression regulation. In this work, we validated the possibility of applying this approach to non-model species such as Quercus ilex. Transcriptomics, proteomics, and metabolomics from Q. ilex seedlings subjected to drought-like conditions under the typical summer conditions in southern Spain were integrated using a non-targeted approach. Two integrative a
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34

Tan, Zhen-Zhen, Yi-Ting Wang, Xia-Xiang Zhang, et al. "Karrikin1 Enhances Drought Tolerance in Creeping Bentgrass in Association with Antioxidative Protection and Regulation of Stress-Responsive Gene Expression." Agronomy 13, no. 3 (2023): 675. http://dx.doi.org/10.3390/agronomy13030675.

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Karrikins are active components of smoke that can promote seed germination and regulate seedling morphogenesis. However, the role of karrikins as alleviators of abiotic stress remains largely elusive. In this study, we examined whether exogenous application of karrikin1 (KAR1) might improve drought tolerance in creeping bentgrass (Agrostis stolonifera cv. PennA4), and investigated the underlying mechanism. We found that exogenous application of 100 nM KAR1 enhanced drought tolerance in creeping bentgrass, as manifested by significant increases in leaf relative water content, efficiency of phot
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35

Schramm, Franziska, Jane Larkindale, Elke Kiehlmann, et al. "A cascade of transcription factor DREB2A and heat stress transcription factor HsfA3 regulates the heat stress response of Arabidopsis." Plant Journal 53, no. 2 (2007): 264–74. http://dx.doi.org/10.1111/j.1365-313x.2007.03334.x.

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36

Kim, June-Sik, Junya Mizoi, Satoshi Kidokoro, et al. "Arabidopsis GROWTH-REGULATING FACTOR7 Functions as a Transcriptional Repressor of Abscisic Acid– and Osmotic Stress–Responsive Genes, Including DREB2A." Plant Cell 24, no. 8 (2012): 3393–405. http://dx.doi.org/10.1105/tpc.112.100933.

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37

Khattab, H. I., M. A. Emam, M. M. Emam, N. M. Helal, and M. R. Mohamed. "Effect of selenium and silicon on transcription factors NAC5 and DREB2A involved in drought-responsive gene expression in rice." Biologia plantarum 58, no. 2 (2014): 265–73. http://dx.doi.org/10.1007/s10535-014-0391-z.

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38

Masuda, Shinji, Yoshihito Tokaji, Yuichi Kobayashi, and Hiroyuki Ohta. "Mechanisms of induction of the stress-responsive transcription factors HsfA2 and DREB2A by 12-oxo-phytodienoic acid inArabidopsis thaliana." Bioscience, Biotechnology, and Biochemistry 78, no. 4 (2014): 647–50. http://dx.doi.org/10.1080/09168451.2014.891929.

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39

Morimoto, Kyoko, Junya Mizoi, Feng Qin, et al. "Stabilization of Arabidopsis DREB2A Is Required but Not Sufficient for the Induction of Target Genes under Conditions of Stress." PLoS ONE 8, no. 12 (2013): e80457. http://dx.doi.org/10.1371/journal.pone.0080457.

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40

Agarwal, Parinita, Pradeep K. Agarwal, Suresh Nair, S. K. Sopory, and M. K. Reddy. "Stress-inducible DREB2A transcription factor from Pennisetum glaucum is a phosphoprotein and its phosphorylation negatively regulates its DNA-binding activity." Molecular Genetics and Genomics 277, no. 2 (2006): 189–98. http://dx.doi.org/10.1007/s00438-006-0183-z.

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41

Piao, Mingxin, Jinpeng Zou, Zhifang Li, et al. "The Arabidopsis HY2 Gene Acts as a Positive Regulator of NaCl Signaling during Seed Germination." International Journal of Molecular Sciences 22, no. 16 (2021): 9009. http://dx.doi.org/10.3390/ijms22169009.

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Phytochromobilin (PΦB) participates in the regulation of plant growth and development as an important synthetase of photoreceptor phytochromes (phy). In addition, Arabidopsis long hypocotyl 2 (HY2) appropriately works as a key PΦB synthetase. However, whether HY2 takes part in the plant stress response signal network remains unknown. Here, we described the function of HY2 in NaCl signaling. The hy2 mutant was NaCl-insensitive, whereas HY2-overexpressing lines showed NaCl-hypersensitive phenotypes during seed germination. The exogenous NaCl induced the transcription and the protein level of HY2
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42

Meng, Huijing, Jinna Zhao, Yanfei Yang, et al. "PeGSTU58, a Glutathione S-Transferase from Populus euphratica, Enhances Salt and Drought Stress Tolerance in Transgenic Arabidopsis." International Journal of Molecular Sciences 24, no. 11 (2023): 9354. http://dx.doi.org/10.3390/ijms24119354.

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Glutathione S-transferases (GSTs) play a crucial role in responding to abiotic stress and are an important target for research on plant stress tolerance mechanisms. Populus euphratica is a promising candidate species for investigating the abiotic tolerance mechanisms in woody plants. In our previous study, PeGSTU58 was identified as being associated with seed salinity tolerance. In the present study, PeGSTU58 was cloned from P. euphratica and functionally characterized. PeGSTU58 encodes a Tau class GST and is located in both the cytoplasm and nucleus. Transgenic Arabidopsis overexpressing PeGS
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43

Novillo, F., J. M. Alonso, J. R. Ecker, and J. Salinas. "CBF2/DREB1C is a negative regulator of CBF1/DREB1B and CBF3/DREB1A expression and plays a central role in stress tolerance in Arabidopsis." Proceedings of the National Academy of Sciences 101, no. 11 (2004): 3985–90. http://dx.doi.org/10.1073/pnas.0303029101.

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44

Kokkanti, Rekha Rani, Hindu Vemuri, Anil Gaddameedi, and Usha Rayalacheruvu. "Variability in drought stress-induced physiological, biochemical responses and expression of DREB2A, NAC4 and HSP70 genes in groundnut (Arachis hypogaea L.)." South African Journal of Botany 144 (January 2022): 448–57. http://dx.doi.org/10.1016/j.sajb.2021.09.025.

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45

Yoshida, Takumi, Yoh Sakuma, Daisuke Todaka, et al. "Functional analysis of an Arabidopsis heat-shock transcription factor HsfA3 in the transcriptional cascade downstream of the DREB2A stress-regulatory system." Biochemical and Biophysical Research Communications 368, no. 3 (2008): 515–21. http://dx.doi.org/10.1016/j.bbrc.2008.01.134.

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46

Han, Yuliang, Maohong Cai, Siqi Zhang, et al. "Genome-Wide Identification of AP2/ERF Transcription Factor Family and Functional Analysis of DcAP2/ERF#96 Associated with Abiotic Stress in Dendrobium catenatum." International Journal of Molecular Sciences 23, no. 21 (2022): 13603. http://dx.doi.org/10.3390/ijms232113603.

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APETALA2/Ethylene Responsive Factor (AP2/ERF) family plays important roles in reproductive development, stress responses and hormone responses in plants. However, AP2/ERF family has not been systematically studied in Dendrobium catenatum. In this study, 120 AP2/ERF family members were identified for the first time in D. catenatum, which were divided into four groups (AP2, RAV, ERF and DREB subfamily) according to phylogenetic analysis. Gene structures and conserved motif analysis showed that each DcAP2/ERF family gene contained at least one AP2 domain, and the distribution of motifs varied amo
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47

Sandhya, Jagtap, Talakayala Ashwini, Ravula Manisha, Mahankali Vinodha, and Ankanagari Srinivas. "Drought Tolerance Enhancement with Co-Overexpression of DREB2A and APX in Indica Rice (<i>Oryza sativa</i> L.)." American Journal of Plant Sciences 12, no. 02 (2021): 234–58. http://dx.doi.org/10.4236/ajps.2021.122014.

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48

Karki, Amrit, David P. Horvath, and Fedora Sutton. "Induction of DREB2A pathway with repression of E2F, jasmonic acid biosynthetic and photosynthesis pathways in cold acclimation-specific freeze-resistant wheat crown." Functional & Integrative Genomics 13, no. 1 (2012): 57–65. http://dx.doi.org/10.1007/s10142-012-0303-2.

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Ma, Yanlin, Jing Cao, Qiaoqiao Chen, et al. "The Kinase CIPK11 Functions as a Negative Regulator in Drought Stress Response in Arabidopsis." International Journal of Molecular Sciences 20, no. 10 (2019): 2422. http://dx.doi.org/10.3390/ijms20102422.

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Drought is a major limiting factor for plant growth and crop productivity. Many Calcineurin B-like interacting protein kinases (CIPKs) play crucial roles in plant adaptation to environmental stresses. It is particularly essential to find the phosphorylation targets of CIPKs and to study the underlying molecular mechanisms. In this study, we demonstrate that CIPK11 acts as a novel component to modulate drought stress in plants. The overexpression of CIPK11 (CIPK11OE) in Arabidopsis resulted in the decreased tolerance of plant to drought stress. When compared to wild type plants, CIPK11OE plants
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50

Vitko, Sandra, Dunja Leljak-Levanić, Nataša Bauer, and Željka Vidaković-Cifrek. "BPM Proteins Modulate Heat Stress Response in Arabidopsis thaliana Seedlings." Plants 14, no. 13 (2025): 1969. https://doi.org/10.3390/plants14131969.

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Plant responses to heat stress include complex transcriptional networks and protein regulations in which BTB/POZ-MATH (BPM) proteins participate as a part of ubiquitin-mediated protein degradation. Arabidopsis thaliana contains six BPM genes involved in responses to environmental changes, including heat. Seedlings overexpressing BPM1 (oeBPM1), seedlings with downregulation of BPM1, 4, 5, and 6 (amiR-bpm) and wild type were exposed to 37 °C for 6 h. Treatment caused stronger decline of photosynthesis in oeBPM1 than in amiR-bpm and wild type, although all seedlings recovered after 24 h at 24 °C.
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