Gotowe bibliografie tematyczne / Abiotic stress systems biology

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  1. Artykuły w czasopismach
  2. Rozprawy doktorskie
  3. Książki
  4. Części książek
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Gotowa bibliografia na temat „Abiotic stress systems biology”

Autor: Grafiati
Data publikacji: 3 czerwca 2025
Data aktualizacji: 31 lipca 2025

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Artykuły w czasopismach na temat "Abiotic stress systems biology"

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Cramer, Grant R., Kaoru Urano, Serge Delrot, Mario Pezzotti, and Kazuo Shinozaki. "Effects of abiotic stress on plants: a systems biology perspective." BMC Plant Biology 11, no. 1 (2011): 163. http://dx.doi.org/10.1186/1471-2229-11-163.

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Sahoo, Jyoti Prakash, Laxmipreeya Behera, Siddhartha Shankar Sharma, Jannila Praveena, Suman Kumari Nayak, and Kailash Chandra Samal. "Omics Studies and Systems Biology Perspective towards Abiotic Stress Response in Plants." American Journal of Plant Sciences 11, no. 12 (2020): 2172–94. http://dx.doi.org/10.4236/ajps.2020.1112152.

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Zhou, Bo, Baojiang Zheng, and Weilin Wu. "The ncRNAs Involved in the Regulation of Abiotic Stress-Induced Anthocyanin Biosynthesis in Plants." Antioxidants 13, no. 1 (2023): 55. http://dx.doi.org/10.3390/antiox13010055.

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Plants have evolved complicated defense and adaptive systems to grow in various abiotic stress environments such as drought, cold, and salinity. Anthocyanins belong to the secondary metabolites of flavonoids with strong antioxidant activity in response to various abiotic stress and enhance stress tolerance. Anthocyanin accumulation often accompanies the resistance to abiotic stress in plants to scavenge reactive oxygen species (ROS). Recent research evidence showed that many regulatory pathways such as osmoregulation, antioxidant response, plant hormone response, photosynthesis, and respiratio
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Lohani, Neeta, Mohan B. Singh, and Prem L. Bhalla. "Biological Parts for Engineering Abiotic Stress Tolerance in Plants." BioDesign Research 2022 (January 22, 2022): 1–41. http://dx.doi.org/10.34133/2022/9819314.

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It is vital to ramp up crop production dramatically by 2050 due to the increasing global population and demand for food. However, with the climate change projections showing that droughts and heatwaves becoming common in much of the globe, there is a severe threat of a sharp decline in crop yields. Thus, developing crop varieties with inbuilt genetic tolerance to environmental stresses is urgently needed. Selective breeding based on genetic diversity is not keeping up with the growing demand for food and feed. However, the emergence of contemporary plant genetic engineering, genome-editing, an
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Dr. Aruna Bohra and Dr. Uma Pillai. "Abiotic Stress Tolerance in Plants: Molecular Mechanisms and Biotechnological Advances." International Journal of Latest Technology in Engineering Management & Applied Science 14, no. 5 (2025): 708–13. https://doi.org/10.51583/ijltemas.2025.140500075.

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Abstract: Abiotic stress factors—including drought, salinity, extreme temperatures, and heavy metal exposure—pose serious threats to global agricultural productivity and food security. In response, plants have developed complex physiological and molecular systems to detect and counteract these environmental challenges. Key components include dynamic signaling pathways, efficient reactive oxygen species (ROS) detoxification mechanisms, regulation of gene expression by specialized transcription factors, and accumulation of osmoprotectants to maintain cellular balance. Breakthroughs in omics-base
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Li, Chunmei, Jing Zhu, Han Jin, et al. "Regulation of plant gene expression by tsRNAs in response to abiotic stress." PeerJ 13 (May 23, 2025): e19487. https://doi.org/10.7717/peerj.19487.

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Objective Transfer RNA-derived small RNAs (tsRNAs) are emerging regulators of gene expression in response to abiotic stress. This review aims to summarize recent advances in the classification, biogenesis, and biological functions of tsRNAs, with a focus on their roles in plant stress responses and the methodologies for investigating these molecules. Methods We conducted a comprehensive literature search across PubMed, Web of Science, and Google Scholar using keywords such as “tRNA-derived small RNAs”, “abiotic stress”, “plant gene regulation”, and “RNA sequencing”. Studies were selected based
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Hasanuzzaman, Mirza, M. H. M. Borhannuddin Bhuyan, Faisal Zulfiqar, et al. "Reactive Oxygen Species and Antioxidant Defense in Plants under Abiotic Stress: Revisiting the Crucial Role of a Universal Defense Regulator." Antioxidants 9, no. 8 (2020): 681. http://dx.doi.org/10.3390/antiox9080681.

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Global climate change and associated adverse abiotic stress conditions, such as drought, salinity, heavy metals, waterlogging, extreme temperatures, oxygen deprivation, etc., greatly influence plant growth and development, ultimately affecting crop yield and quality, as well as agricultural sustainability in general. Plant cells produce oxygen radicals and their derivatives, so-called reactive oxygen species (ROS), during various processes associated with abiotic stress. Moreover, the generation of ROS is a fundamental process in higher plants and employs to transmit cellular signaling informa
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Georgii, Elisabeth, Karl Kugler, Matthias Pfeifer, et al. "The Systems Architecture of Molecular Memory in Poplar after Abiotic Stress." Plant Cell 31, no. 2 (2019): 346–67. http://dx.doi.org/10.1105/tpc.18.00431.

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Pardo-Hernández, Miriam, Maria López-Delacalle, and Rosa M. Rivero. "ROS and NO Regulation by Melatonin Under Abiotic Stress in Plants." Antioxidants 9, no. 11 (2020): 1078. http://dx.doi.org/10.3390/antiox9111078.

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Abiotic stress in plants is an increasingly common problem in agriculture, and thus, studies on plant treatments with specific compounds that may help to mitigate these effects have increased in recent years. Melatonin (MET) application and its role in mitigating the negative effects of abiotic stress in plants have become important in the last few years. MET, a derivative of tryptophan, is an important plant-related response molecule involved in the growth, development, and reproduction of plants, and the induction of different stress factors. In addition, MET plays a protective role against
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Escandón, Mónica, María Ángeles Castillejo, Jesús V. Jorrín-Novo, and María-Dolores Rey. "Molecular Research on Stress Responses in Quercus spp.: From Classical Biochemistry to Systems Biology through Omics Analysis." Forests 12, no. 3 (2021): 364. http://dx.doi.org/10.3390/f12030364.

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The genus Quercus (oak), family Fagaceae, comprises around 500 species, being one of the most important and dominant woody angiosperms in the Northern Hemisphere. Nowadays, it is threatened by environmental cues, which are either of biotic or abiotic origin. This causes tree decline, dieback, and deforestation, which can worsen in a climate change scenario. In the 21st century, biotechnology should take a pivotal role in facing this problem and proposing sustainable management and conservation strategies for forests. As a non-domesticated, long-lived species, the only plausible approach for tr
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Rozprawy doktorskie na temat "Abiotic stress systems biology"

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Kleinjan, Hetty. "The influence of bacteria on the adaptation to changing environments in Ectocarpus : a systems biology approach." Thesis, Sorbonne université, 2018. http://www.theses.fr/2018SORUS267.

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Ectocarpus dépend de bactéries associées pour croitre en eau douce, ce qui souligne l'importance de l'holobionte lors de stress abiotique. Le but de ma thèse est d'élucider les mécanismes moléculaires qui sous-tendent ce phénomène. Les expériences de co-culture ciblées nécessitent des organismes cultivables. Par conséquent, j'ai caractérisé 388 bactéries associées à Ectocarpus, réparties en 33 genres. Aucune des bactéries cultivées testées n'a eu d'effet bénéfique sur la croissance des algues dans l'eau douce. J'ai continué à travailler avec des holobionts, traités aux antibiotiques doux, qui
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Abwao, Stephen Indieka. "Translational control of abiotic stress responses in Arabidopsis thaliana." Thesis, University of Glasgow, 2012. http://theses.gla.ac.uk/3502/.

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A detailed understanding of the mechanisms by which plants sense and respond to major environmental stress factors will significantly contribute towards the prospects of developing crops capable of yielding well over a wider geographical range, including marginalised lands. One of the important stress response mechanisms in eukaryotes is mediated through phosphorylation of the eIF2α-subunit (serine 51/56) by specific kinases, namely double stranded RNA activated protein kinase (PKR), General Control Non-repressible 2 protein kinase (GCN2), Pancreatic eIF2α kinase (PERK) and Heme-regulated inhi
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Weerathunga, Arachchilage Achira S. "A Novel Transcription Factor in Arabidopsis thaliana Abiotic Stress Response." ScholarWorks@UNO, 2015. http://scholarworks.uno.edu/td/2114.

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Plants respond to environmental stress by altering their gene expression. Under stress conditions some genes are activated and some genes are repressed. Even though a lot of work has been done to understand mechanisms of gene activation under abiotic stress very little information is available on how stress responsive genes are kept repressed under normal growth conditions. Recent work has revealed that plants use transcriptional repression as common mechanism of gene repression. Transcriptional repression is achieved by recruitment co-repressor complexes to the target genes. Recent studies ha
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Guragain, Bhuwan. "Transcriptional co-repressor response of Arabidopsis thaliana to different abiotic stress." ScholarWorks@UNO, 2013. http://scholarworks.uno.edu/td/1738.

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Plants adapt to the complex environmental challenges by regulating their gene expression. Analyses of plant genomes have identified many genes that are either expressed or repressed during environmental stress. However we do not have much information on gene repression. Transcriptional repression in Arabidopsis thaliana is caused by co-repressors that lack the DNA binding domain and are recruited by transcription factors to regulate target gene expression. The Sridhar lab has identified co-repressors SLK1, SLK2, and LUH, which prevent the expression of stress response genes under non-stress co
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Davis, Emily. "Molecular characterization of ALDRXv4, an aldose reductase orthologue isolated from xerophyta viscosa, in response to abiotic stress." Master's thesis, University of Cape Town, 2005. http://hdl.handle.net/11427/4254.

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Wu, Qingyu. "Improvement of abiotic stress tolerance and calcium-deficiency disorder resistance of tomato plants." Diss., Kansas State University, 2012. http://hdl.handle.net/2097/14033.

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Doctor of Philosophy<br>Department of Horticulture, Forestry, and Recreation Resources<br>Sunghun Park<br>Plants are continuously exposed to numerous abiotic stresses, which adversely affect plant growth, development, and yield. Plants have developed different signaling pathways to cope with abiotic stresses, and some of the pathways converge to help plants tolerate simultaneous stresses. Here, we report ectopic expression of an Arabidopsis glutaredoxin AtGRXS17 that confers tolerance to multiple abiotic stresses in tomato plants. In yeast assays, AtGRXS17 co-localized with yeast ScGrx3 in the
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John-Bejai, Carus Kristoff Joel. "Wheat floral biology : prospects for improving the efficiency of hybrid seed production and abiotic stress tolerance." Thesis, University of Nottingham, 2018. http://eprints.nottingham.ac.uk/49925/.

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The modification of floral characteristics will be beneficial in improving the efficiency of hybrid seed production and the breeding of more climate resilient varieties in bread wheat (Triticum aestivum). Methods for phenotyping floral traits were initially tested using small genotype panels under controlled conditions and in field trials. Low-tech phenotyping methods appropriate for use by breeders and researchers were developed and demonstrated to be accurate. A panel of 111 genotypes was subsequently assessed in field trials using these methods. A high level of genotypic variation was obser
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Modi, Sheetal. "Systems biology approaches to mechanisms of bacterial stress adaptation." Thesis, Boston University, 2013. https://hdl.handle.net/2144/12822.

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Thesis (Ph.D.)--Boston University PLEASE NOTE: Boston University Libraries did not receive an Authorization To Manage form for this thesis or dissertation. It is therefore not openly accessible, though it may be available by request. If you are the author or principal advisor of this work and would like to request open access for it, please contact us at open-help@bu.edu. Thank you.<br>Bacteria exhibit highly adaptive behaviors in the face of stress, which poses significant challenges for the eradication of infectious disease as well as for the success of biotechnology efforts to harness micr
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Fredén, Linnéa. "The Impact of Abiotic Stress on Alternative Splicing in Lipid Transfer Protein in Marchantia polymorpha." Thesis, Linköpings universitet, Biologi, 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-148738.

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All plants have a protection against the surrounding environment called a cuticle coating. When this cuticle coating is constructed it is believed that the family of protein called lipid transfer proteins (LTPs) is involved. The LTPs are small and cysteine rich. In Marchantia polymorpha the groups of LTPs called LTPd and LTPg can be found. 8 and 4 in each group respectively. In the genes of LTPd there is an intron placed downstream of the start codon. Firstly, a sequence database search was performed and LTPd2 and LTPd3 were chosen for further experiments in this study. Secondly, a control tha
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Maaß, Victoria [Verfasser], Edgar [Gutachter] Peiter, and Yiyong [Gutachter] Zhu. "Establishment of a plant-based system for identifying phytoeffectors and analysis of phytoeffector targets under abiotic stress in Arabidopsis / Victoria Maaß ; Gutachter: Edgar Peiter, Yiyong Zhu." Halle (Saale) : Universitäts- und Landesbibliothek Sachsen-Anhalt, 2020. http://d-nb.info/1217251162/34.

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Książki na temat "Abiotic stress systems biology"

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Kanayama, Yoshinori, and Alexey Kochetov, eds. Abiotic Stress Biology in Horticultural Plants. Springer Japan, 2015. http://dx.doi.org/10.1007/978-4-431-55251-2.

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Muthu Arjuna Samy, Prakash, Anandan Ramasamy, Viswanathan Chinnusamy, and B. Sunil Kumar, eds. Legumes: Physiology and Molecular Biology of Abiotic Stress Tolerance. Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-5817-5.

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Hirt, Heribert. Plant stress biology: From genomics to systems biology. Wiley-VCH, 2009.

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Liu, Zonglin Lewis. Microbial stress tolerance for biofuels: Systems biology. Springer, 2012.

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Pareek, Ashwani. Abiotic stress adaptation in plants: Physiological, molecular, and genomic foundation. Springer, 2010.

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Khan, M. Iqbal R., and Nafees A. Khan, eds. Reactive Oxygen Species and Antioxidant Systems in Plants: Role and Regulation under Abiotic Stress. Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-5254-5.

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International Symposium on Catecholamines and Other Neurotransmitters in Stress (9th 2007 Smolenice Castle, Slovakia). Stress, neurotransmitters, and hormones: Neuroendocrine and genetic mechanisms. Edited by Kvetňanský Richard, Ústav experimentálnej endokrinólogie (Slovenská akadémia vied), and National Institutes of Health (U.S.). Wiley-Blackwell, 2008.

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Thiriet, Marc. Tissue Functioning and Remodeling in the Circulatory and Ventilatory Systems. Springer New York, 2013.

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Kanayama, Yoshinori, and Alexey Kochetov. Abiotic Stress Biology in Horticultural Plants. Springer, 2016.

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Kanayama, Yoshinori, and Alexey Kochetov. Abiotic Stress Biology in Horticultural Plants. Springer, 2015.

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Części książek na temat "Abiotic stress systems biology"

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Fedoroff, Nina V. "Systems Biology of Abiotic Stress: The Elephant and the Blind Men." In Abiotic Stress Adaptation in Plants. Springer Netherlands, 2009. http://dx.doi.org/10.1007/978-90-481-3112-9_22.

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Moore, John P., and Jill M. Farrant. "A Systems-Based Molecular Biology Analysis of Resurrection Plants for Crop and Forage Improvement in Arid Environments." In Improving Crop Resistance to Abiotic Stress. Wiley-VCH Verlag GmbH & Co. KGaA, 2012. http://dx.doi.org/10.1002/9783527632930.ch17.

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Shaar-Moshe, Lidor, and Zvi Peleg. "Systems Biology Approach Unfolds Unique Life-History Strategies in Response to Abiotic Stress Combinations." In Multiple Abiotic Stress Tolerances in Higher Plants. CRC Press, 2023. http://dx.doi.org/10.1201/9781003300564-2.

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Chaturvedi, Ambika, Pooja Saraswat, Anamika Gupta, Mrinalini Prasad, and Rajiv Ranjan. "System Biology Approaches Used for Climate Change Resilient Crops." In Omics Analysis of Plants Under Abiotic Stress. Apple Academic Press, 2022. http://dx.doi.org/10.1201/9781003282761-8.

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Malandrakis, E. E., T. Danis, A. Iona, and A. Exadactylos. "Abiotic Stress of Seagrasses: Recent Advances in Transcriptomics, Genomics, and Systems Biology." In Systems Biology of Marine Ecosystems. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-62094-7_6.

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Gautam, Tinku. "Epigenomics for Abiotic Stress Tolerance in Cereals." In Omics and System Biology Approaches for Delivering Better Cereals. CRC Press, 2024. http://dx.doi.org/10.1201/9781032693385-11.

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Rohloff, Jens, Pankaj Barah, and Atle M. Bones. "Improving Crop Productivity and Abiotic Stress Tolerance in CultivatedFragariaUsing Omics and Systems Biology Approach." In Improving Crop Productivity in Sustainable Agriculture. Wiley-VCH Verlag GmbH & Co. KGaA, 2012. http://dx.doi.org/10.1002/9783527665334.ch18.

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Martín, Guiomar, and Paula Duque. "Etiolated Hypocotyls: A New System to Study the Impact of Abiotic Stress on Cell Expansion." In Methods in Molecular Biology. Springer US, 2022. http://dx.doi.org/10.1007/978-1-0716-2297-1_13.

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Martín, Guiomar, and Paula Duque. "Etiolated Hypocotyls: A New System to Study the Impact of Abiotic Stress on Cell Expansion." In Methods in Molecular Biology. Springer US, 2022. http://dx.doi.org/10.1007/978-1-0716-2297-1_13.

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Kumari, Pooja, Pabitra Joshi, Mohammed Kyum, David Ngure, and Lucas Alexandre Batista. "Advancements in Functional Genomics in Exploring Abiotic Stress Tolerance Mechanisms in Cereals." In Omics and System Biology Approaches for Delivering Better Cereals. CRC Press, 2024. http://dx.doi.org/10.1201/9781032693385-6.

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Streszczenia konferencji na temat "Abiotic stress systems biology"

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"From genes to vineyards: system biology and new breeding technologies for water stress tolerance in grapevines." In Flash - Abiotic interactions. International Viticulture and Enology Society, 2024. http://dx.doi.org/10.58233/bib9yop3.

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Mishra, Dwijesh Chandra, Shikha Mittal, Indra Singh, Sanjeev Kumar, and Anil Rai. "Identification of co-regulated genes of chick pea under abiotic stress." In 2016 International Conference on Bioinformatics and Systems Biology (BSB). IEEE, 2016. http://dx.doi.org/10.1109/bsb.2016.7552156.

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"652 BGRS/SB-2022 Salicylic acid and abiotic stress: nature of interaction." In Bioinformatics of Genome Regulation and Structure/Systems Biology (BGRS/SB-2022) :. Institute of Cytology and Genetics, the Siberian Branch of the Russian Academy of Sciences, 2022. http://dx.doi.org/10.18699/sbb-2022-372.

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Kondratyev, M. N., and Yu S. Larikova. "THE ROLE OF OMICS AND SYSTEM BIOLOGY IN UNDERSTANDING THE RESPONSE OF ABIOTIC STRESS REACTIONS IN PLANTS." In The All-Russian Scientific Conference with International Participation and Schools of Young Scientists "Mechanisms of resistance of plants and microorganisms to unfavorable environmental". SIPPB SB RAS, 2018. http://dx.doi.org/10.31255/978-5-94797-319-8-430-434.

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Sahu, Sarika, A. R. Rao, K. C. Bansal, S. K. Muthusamy, and V. Chinnusamy. "Genome-wide analysis and identification of abiotic stress responsive transcription factor family genes and miRNAs in bread wheat (Triticumaestivum L.): Genomic study of bread wheat." In 2016 International Conference on Bioinformatics and Systems Biology (BSB). IEEE, 2016. http://dx.doi.org/10.1109/bsb.2016.7552159.

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Izquierdo Zandalinas, Sara. "Systemic signaling during abiotic stress combination in plants." In ASPB PLANT BIOLOGY 2020. ASPB, 2020. http://dx.doi.org/10.46678/pb.20.1048268.

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Subedi, Udaya. "RNAi mediated down-regulation of various genes enhances abiotic stress tolerance in alfalfa." In ASPB PLANT BIOLOGY 2020. ASPB, 2020. http://dx.doi.org/10.46678/pb.20.1052945.

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Lin, Meng-Chun. "Rice Intrinsically disordered proteins integrate both abiotic and biotic stress responses in roots." In ASPB PLANT BIOLOGY 2020. ASPB, 2020. http://dx.doi.org/10.46678/pb.20.1369170.

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ogden, aaron. "Phloem Exudate Protein Profiles during Drought and Recovery Reveal Abiotic Stress Responses in Tomato Vasculature." In ASPB PLANT BIOLOGY 2020. ASPB, 2020. http://dx.doi.org/10.46678/pb.20.1382420.

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Sriram, Gonthina Sai, S. V. S Aditya, Gannoju Akshar Teja, Venkanna Uduthalapally, and Debanjan Das. "Drone Vision Based Abiotic Stress Monitoring for Smart Agriculture." In 2023 IEEE International Symposium on Smart Electronic Systems (iSES). IEEE, 2023. http://dx.doi.org/10.1109/ises58672.2023.00053.

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Raporty organizacyjne na temat "Abiotic stress systems biology"

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Gottlieb, Yuval, Bradley Mullens, and Richard Stouthamer. investigation of the role of bacterial symbionts in regulating the biology and vector competence of Culicoides vectors of animal viruses. United States Department of Agriculture, 2015. http://dx.doi.org/10.32747/2015.7699865.bard.

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Symbiotic bacteria have been shown to influence host reproduction and defense against biotic and abiotic stressors, and this relates to possible development of a symbiont-based control strategy. This project was based on the hypothesis that symbionts have a significant impact on Culicoides fitness and vector competence for animal viruses. The original objectives in our proposal were: 1. Molecular identification and localization of the newly-discovered symbiotic bacteria within C. imicola and C. schultzei in Israel and C. sonorensis in California. 2. Determination of the prevalence of symbiotic
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Freeman, Stanley, Russell Rodriguez, Adel Al-Abed, Roni Cohen, David Ezra, and Regina Redman. Use of fungal endophytes to increase cucurbit plant performance by conferring abiotic and biotic stress tolerance. United States Department of Agriculture, 2014. http://dx.doi.org/10.32747/2014.7613893.bard.

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Major threats to agricultural sustainability in the 21st century are drought, increasing temperatures, soil salinity and soilborne pathogens, all of which are being exacerbated by climate change and pesticide abolition and are burning issues related to agriculture in the Middle East. We have found that Class 2 fungal endophytes adapt native plants to environmental stresses (drought, heat and salt) in a habitat-specific manner, and that these endophytes can confer stress tolerance to genetically distant monocot and eudicot hosts. In the past, we generated a uv non-pathogenic endophytic mutant o
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Handa, Avtar K., Yuval Eshdat, Avichai Perl, Bruce A. Watkins, Doron Holland, and David Levy. Enhancing Quality Attributes of Potato and Tomato by Modifying and Controlling their Oxidative Stress Outcome. United States Department of Agriculture, 2004. http://dx.doi.org/10.32747/2004.7586532.bard.

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General The final goal and overall objective of the current research has been to modify lipid hydroperoxidation in order to create desirable phenotypes in two important crops, potato and tomato, which normally are exposed to abiotic stress associated with such oxidation. The specific original objectives were: (i) the roles of lipoxygenase (LOX) and phospholipids hydroperoxide glutathione peroxidase (PHGPx) in regulating endogenous levels of lipid peroxidation in plant tissues; (ii) the effect of modified lipid peroxidation on fruit ripening, tuber quality, crop productivity and abiotic stress
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Cohen, Roni, Kevin Crosby, Menahem Edelstein, et al. Grafting as a strategy for disease and stress management in muskmelon production. United States Department of Agriculture, 2004. http://dx.doi.org/10.32747/2004.7613874.bard.

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The overall objective of this research was to elucidate the horticultural, pathological, physiological and molecular factors impacting melon varieties (scion) grafted onto M. cannonballus resistant melon and squash rootstocks. Specific objectives were- to compare the performance of resistant melon germplasm (grafted and non-grafted) when exposed to M. cannoballus in the Lower Rio Grande valley and the Wintergarden, Texas, and in the Arava valley, Israel; to address inter-species relationships between a Monosporascus resistant melon rootstock and susceptible melon scions in terms of fruit-set,
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Chamovitz, Daniel, and Albrecht Von Arnim. Translational regulation and light signal transduction in plants: the link between eIF3 and the COP9 signalosome. United States Department of Agriculture, 2006. http://dx.doi.org/10.32747/2006.7696515.bard.

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The COP9 signalosome (CSN) is an eight-subunit protein complex that is highly conserved among eukaryotes. Genetic analysis of the signalosome in the plant model species Arabidopsis thaliana has shown that the signalosome is a repressor of light dependent seedling development as mutant Arabidopsis seedlings that lack this complex develop in complete darkness as if exposed to light. These mutant plants die following the seedling stage, even when exposed to light, indicating that the COP9 signalosome also has a central role in the regulation of normal photomorphogenic development. The biochemical
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