Tolerance to drought and salt stress in plants: Unraveling the signaling networks

Golldack, Dortje; Li, Chao; Mohan, Harikrishnan; Probst, Nina

Tolerance to drought and salt stress in plants: Unraveling the signaling networks

Golldack D, Li C, Mohan H, Probst N (2014)
Frontiers in Plant Science 5: 151.

Zeitschriftenaufsatz | Veröffentlicht | Englisch

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fpls-05-00151.golldack.pdf

DOI

https://doi.org/10.3389/fpls.2014.00151

URN

urn:nbn:de:0070-pub-26750798

Autor*in

Golldack, Dortje^UniBi; Li, Chao^UniBi; Mohan, Harikrishnan^UniBi; Probst, Nina^UniBi

Einrichtung

Fakultät für Biologie > Biochemie und Physiologie der Pflanzen

Abstract / Bemerkung

Tolerance of plants to abiotic stressors such as drought and salinity is triggered by complex multicomponent signaling pathways to restore cellular homeostasis and promote survival. Major plant transcription factor families such as bZIP, NAC, AP2/ERF, and MYB orchestrate regulatory networks underlying abiotic stress tolerance. Sucrose non-fermenting 1-related protein kinase 2 and mitogen-activated protein kinase pathways contribute to initiation of stress adaptive downstream responses and promote plant growth and development. As a convergent point of multiple abiotic cues, cellular effects of environmental stresses are not only imbalances of ionic and osmotic homeostasis but also impaired photosynthesis, cellular energy depletion, and redox imbalances. Recent evidence of regulatory systems that link sensing and signaling of environmental conditions and the intracellular redox status have shed light on interfaces of stress and energy signaling. ROS (reactive oxygen species) cause severe cellular damage by peroxidation and de-esterification of membrane-lipids, however, current models also define a pivotal signaling function of ROS in triggering tolerance against stress. Recent research advances suggest and support a regulatory role of ROS in the cross talks of stress triggered hormonal signaling such as the abscisic acid pathway and endogenously induced redox and metabolite signals. Here, we discuss and review the versatile molecular convergence in the abiotic stress responsive signaling networks in the context of ROS and lipid-derived signals and the specific role of stomatal signaling.

Stichworte

lipid signaling; MAP kinase; drought; ROS; Arabidopsis; transcription factor

Erscheinungsjahr

2014

Zeitschriftentitel

Frontiers in Plant Science

Band

Seite(n)

151

ISSN

1664-462X

eISSN

1664-462X

Page URI

https://pub.uni-bielefeld.de/record/2675079

Zitieren

Golldack D, Li C, Mohan H, Probst N. Tolerance to drought and salt stress in plants: Unraveling the signaling networks. Frontiers in Plant Science. 2014;5:151.

Golldack, D., Li, C., Mohan, H., & Probst, N. (2014). Tolerance to drought and salt stress in plants: Unraveling the signaling networks. Frontiers in Plant Science, 5, 151. doi:10.3389/fpls.2014.00151

Golldack, Dortje, Li, Chao, Mohan, Harikrishnan, and Probst, Nina. 2014. “Tolerance to drought and salt stress in plants: Unraveling the signaling networks”. Frontiers in Plant Science 5: 151.

Golldack, D., Li, C., Mohan, H., and Probst, N. (2014). Tolerance to drought and salt stress in plants: Unraveling the signaling networks. Frontiers in Plant Science 5, 151.

Golldack, D., et al., 2014. Tolerance to drought and salt stress in plants: Unraveling the signaling networks. Frontiers in Plant Science, 5, p 151.

D. Golldack, et al., “Tolerance to drought and salt stress in plants: Unraveling the signaling networks”, Frontiers in Plant Science, vol. 5, 2014, pp. 151.

Golldack, D., Li, C., Mohan, H., Probst, N.: Tolerance to drought and salt stress in plants: Unraveling the signaling networks. Frontiers in Plant Science. 5, 151 (2014).

Golldack, Dortje, Li, Chao, Mohan, Harikrishnan, and Probst, Nina. “Tolerance to drought and salt stress in plants: Unraveling the signaling networks”. Frontiers in Plant Science 5 (2014): 151.

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2019-09-06T09:18:23Z

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Brassinosteroids: A Promising Option in Deciphering Remedial Strategies for Abiotic Stress Tolerance in Rice.
Sharma I, Kaur N, Pati PK., Front Plant Sci 8(), 2017
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Arabidopsis EDT1/HDG11 improves drought and salt tolerance in cotton and poplar and increases cotton yield in the field.
Yu LH, Wu SJ, Peng YS, Liu RN, Chen X, Zhao P, Xu P, Zhu JB, Jiao GL, Pei Y, Xiang CB., Plant Biotechnol J 14(1), 2016
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Investigation of the ASR family in foxtail millet and the role of ASR1 in drought/oxidative stress tolerance.
Feng ZJ, Xu ZS, Sun J, Li LC, Chen M, Yang GX, He GY, Ma YZ., Plant Cell Rep 35(1), 2016
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Arbuscular mycorrhizal symbiosis induces strigolactone biosynthesis under drought and improves drought tolerance in lettuce and tomato.
Ruiz-Lozano JM, Aroca R, Zamarreño ÁM, Molina S, Andreo-Jiménez B, Porcel R, García-Mina JM, Ruyter-Spira C, López-Ráez JA., Plant Cell Environ 39(2), 2016
PMID: 26305264

On a quest for stress tolerance genes: membrane transporters in sensing and adapting to hostile soils.
Shabala S, Bose J, Fuglsang AT, Pottosin I., J Exp Bot 67(4), 2016
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How drought and salinity affect arbuscular mycorrhizal symbiosis and strigolactone biosynthesis?
López-Ráez JA., Planta 243(6), 2016
PMID: 26627211

Emerging tools, concepts and ideas to track the modulator genes underlying plant drought adaptive traits: An overview.
Ms P, Nataraja KN., Plant Signal Behav 11(1), 2016
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Methods for genetic transformation in Dendrobium.
da Silva JA, Dobránszki J, Cardoso JC, Chandler SF, Zeng S., Plant Cell Rep 35(3), 2016
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Glycosylation of a Fasciclin-Like Arabinogalactan-Protein (SOS5) Mediates Root Growth and Seed Mucilage Adherence via a Cell Wall Receptor-Like Kinase (FEI1/FEI2) Pathway in Arabidopsis.
Basu D, Tian L, Debrosse T, Poirier E, Emch K, Herock H, Travers A, Showalter AM., PLoS One 11(1), 2016
PMID: 26731606

Developmental Peculiarities and Seed-Borne Endophytes in Quinoa: Omnipresent, Robust Bacilli Contribute to Plant Fitness.
Pitzschke A., Front Microbiol 7(), 2016
PMID: 26834724

Overexpression of a Stress-Responsive NAC Transcription Factor Gene ONAC022 Improves Drought and Salt Tolerance in Rice.
Hong Y, Zhang H, Huang L, Li D, Song F., Front Plant Sci 7(), 2016
PMID: 26834774

Identification of a 467 bp Promoter of Maize Phosphatidylinositol Synthase Gene (ZmPIS) Which Confers High-Level Gene Expression and Salinity or Osmotic Stress Inducibility in Transgenic Tobacco.
Zhang H, Hou J, Jiang P, Qi S, Xu C, He Q, Ding Z, Wang Z, Zhang K, Li K., Front Plant Sci 7(), 2016
PMID: 26870063

Genetic regulation of salt stress tolerance revealed by RNA-Seq in cotton diploid wild species, Gossypium davidsonii.
Zhang F, Zhu G, Du L, Shang X, Cheng C, Yang B, Hu Y, Cai C, Guo W., Sci Rep 6(), 2016
PMID: 26838812

Small RNA and degradome deep sequencing reveals drought-and tissue-specific micrornas and their important roles in drought-sensitive and drought-tolerant tomato genotypes.
Candar-Cakir B, Arican E, Zhang B., Plant Biotechnol J 14(8), 2016
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Citrus Plants: A Model System for Unlocking the Secrets of NO and ROS-Inspired Priming Against Salinity and Drought.
Molassiotis A, Job D, Ziogas V, Tanou G., Front Plant Sci 7(), 2016
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Genome-Wide Identification of R2R3-MYB Genes and Expression Analyses During Abiotic Stress in Gossypium raimondii.
He Q, Jones DC, Li W, Xie F, Ma J, Sun R, Wang Q, Zhu S, Zhang B., Sci Rep 6(), 2016
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The role of mitochondria in plant development and stress tolerance.
Liberatore KL, Dukowic-Schulze S, Miller ME, Chen C, Kianian SF., Free Radic Biol Med 100(), 2016
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Transcriptome analysis in different rice cultivars provides novel insights into desiccation and salinity stress responses.
Shankar R, Bhattacharjee A, Jain M., Sci Rep 6(), 2016
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Plant Organellar Proteomics in Response to Dehydration: Turning Protein Repertoire into Insights.
Gupta DB, Rai Y, Gayali S, Chakraborty S, Chakraborty N., Front Plant Sci 7(), 2016
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Isolation and Functional Validation of Salinity and Osmotic Stress Inducible Promoter from the Maize Type-II H+-Pyrophosphatase Gene by Deletion Analysis in Transgenic Tobacco Plants.
Hou J, Jiang P, Qi S, Zhang K, He Q, Xu C, Ding Z, Zhang K, Li K., PLoS One 11(4), 2016
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Expression of OsMYB55 in maize activates stress-responsive genes and enhances heat and drought tolerance.
Casaretto JA, El-Kereamy A, Zeng B, Stiegelmeyer SM, Chen X, Bi YM, Rothstein SJ., BMC Genomics 17(), 2016
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A putative pyruvate transporter TaBASS2 positively regulates salinity tolerance in wheat via modulation of ABI4 expression.
Zhao Y, Ai X, Wang M, Xiao L, Xia G., BMC Plant Biol 16(1), 2016
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Suppression Substractive Hybridization and NGS Reveal Differential Transcriptome Expression Profiles in Wayfaring Tree (Viburnum lantana L.) Treated with Ozone.
Gottardini E, Cristofori A, Pellegrini E, La Porta N, Nali C, Baldi P, Sablok G., Front Plant Sci 7(), 2016
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Arabidopsis HOOKLESS1 Regulates Responses to Pathogens and Abscisic Acid through Interaction with MED18 and Acetylation of WRKY33 and ABI5 Chromatin.
Liao CJ, Lai Z, Lee S, Yun DJ, Mengiste T., Plant Cell 28(7), 2016
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SUMO proteases ULP1c and ULP1d are required for development and osmotic stress responses in Arabidopsis thaliana.
Castro PH, Couto D, Freitas S, Verde N, Macho AP, Huguet S, Botella MA, Ruiz-Albert J, Tavares RM, Bejarano ER, Azevedo H., Plant Mol Biol 92(1-2), 2016
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Small RNA and degradome profiling reveals important roles for microRNAs and their targets in tea plant response to drought stress.
Liu SC, Xu YX, Ma JQ, Wang WW, Chen W, Huang DJ, Fang J, Li XJ, Chen L., Physiol Plant 158(4), 2016
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Functional and regulatory conservation of the soybean ER stress-induced DCD/NRP-mediated cell death signaling in plants.
Reis PA, Carpinetti PA, Freitas PP, Santos EG, Camargos LF, Oliveira IH, Silva JC, Carvalho HH, Dal-Bianco M, Soares-Ramos JR, Fontes EP., BMC Plant Biol 16(1), 2016
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Involvement of dehydrins in 24-epibrassinolide-induced protection of wheat plants against drought stress.
Shakirova F, Allagulova C, Maslennikova D, Fedorova K, Yuldashev R, Lubyanova A, Bezrukova M, Avalbaev A., Plant Physiol Biochem 108(), 2016
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Identification and functional expression of the pepper RING type E3 ligase, CaDTR1, involved in drought stress tolerance via ABA-mediated signalling.
Joo H, Lim CW, Lee SC., Sci Rep 6(), 2016
PMID: 27439598

Role of Cyclic Nucleotide Gated Channels in Stress Management in Plants.
Jha SK, Sharma M, Pandey GK., Curr Genomics 17(4), 2016
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The Pepper RING-Type E3 Ligase, CaAIP1, Functions as a Positive Regulator of Drought and High Salinity Stress Responses.
Park C, Lim CW, Lee SC., Plant Cell Physiol 57(10), 2016
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A novel transcription factor-like gene SbSDR1 acts as a molecular switch and confers salt and osmotic endurance to transgenic tobacco.
Singh VK, Mishra A, Haque I, Jha B., Sci Rep 6(), 2016
PMID: 27550641

Genome-wide identification of salinity responsive HSP70s in common bean.
Büyük İ, Inal B, Ilhan E, Tanriseven M, Aras S, Erayman M., Mol Biol Rep 43(11), 2016
PMID: 27558093

Genome-Wide Analysis of APETALA2/Ethylene-Responsive Factor (AP2/ERF) Gene Family in Barley (Hordeum vulgare L.).
Guo B, Wei Y, Xu R, Lin S, Luan H, Lv C, Zhang X, Song X, Xu R., PLoS One 11(9), 2016
PMID: 27598245

Transcriptome landscape of perennial wild Cicer microphyllum uncovers functionally relevant molecular tags regulating agronomic traits in chickpea.
Srivastava R, Bajaj D, Malik A, Singh M, Parida SK., Sci Rep 6(), 2016
PMID: 27680662

Comparative Transcriptomic Analysis of Two Brassica napus Near-Isogenic Lines Reveals a Network of Genes That Influences Seed Oil Accumulation.
Wang J, Singh SK, Du C, Li C, Fan J, Pattanaik S, Yuan L., Front Plant Sci 7(), 2016
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Genome interrogation for novel salinity tolerant Arabidopsis mutants.
van Tol N, Pinas J, Schat H, Hooykaas PJ, van der Zaal BJ., Plant Cell Environ 39(12), 2016
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Overexpression of Grain Amaranth (Amaranthus hypochondriacus) AhERF or AhDOF Transcription Factors in Arabidopsis thaliana Increases Water Deficit- and Salt-Stress Tolerance, Respectively, via Contrasting Stress-Amelioration Mechanisms.
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Identification of Reference Genes for Quantitative Real-Time PCR in Date Palm (Phoenix dactylifera L.) Subjected to Drought and Salinity.
V Patankar H, M Assaha DV, Al-Yahyai R, Sunkar R, Yaish MW., PLoS One 11(11), 2016
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A Non-specific Setaria italica Lipid Transfer Protein Gene Plays a Critical Role under Abiotic Stress.
Pan Y, Li J, Jiao L, Li C, Zhu D, Yu J., Front Plant Sci 7(), 2016
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New Insights on Plant Salt Tolerance Mechanisms and Their Potential Use for Breeding.
Hanin M, Ebel C, Ngom M, Laplaze L, Masmoudi K., Front Plant Sci 7(), 2016
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Analysis of different strategies adapted by two cassava cultivars in response to drought stress: ensuring survival or continuing growth.
Zhao P, Liu P, Shao J, Li C, Wang B, Guo X, Yan B, Xia Y, Peng M., J Exp Bot 66(5), 2015
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Alteration of Arabidopsis SLAC1 promoter and its association with natural variation in drought tolerance.
Imai H, Noda Y, Tamaoki M., Plant Signal Behav 10(3), 2015
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RNA-Seq and Gene Network Analysis Uncover Activation of an ABA-Dependent Signalosome During the Cork Oak Root Response to Drought.
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Genotypic Variation in Growth and Physiological Response to Drought Stress and Re-Watering Reveals the Critical Role of Recovery in Drought Adaptation in Maize Seedlings.
Chen D, Wang S, Cao B, Cao D, Leng G, Li H, Yin L, Shan L, Deng X., Front Plant Sci 6(), 2015
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STRESSing the role of the plant circadian clock.
Seo PJ, Mas P., Trends Plant Sci 20(4), 2015
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Long-chain bases, phosphatidic acid, MAPKs, and reactive oxygen species as nodal signal transducers in stress responses in Arabidopsis.
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Cell Wall Metabolism in Response to Abiotic Stress.
Le Gall H, Philippe F, Domon JM, Gillet F, Pelloux J, Rayon C., Plants (Basel) 4(1), 2015
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Comprehensive analysis suggests overlapping expression of rice ONAC transcription factors in abiotic and biotic stress responses.
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Recent advances in the dissection of drought-stress regulatory networks and strategies for development of drought-tolerant transgenic rice plants.
Todaka D, Shinozaki K, Yamaguchi-Shinozaki K., Front Plant Sci 6(), 2015
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MicroRNA: a new target for improving plant tolerance to abiotic stress.
Zhang B., J Exp Bot 66(7), 2015
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RNA-seq analysis of the response of the halophyte, Mesembryanthemum crystallinum (ice plant) to high salinity.
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Foliar application of microbial and plant based biostimulants increases growth and potassium uptake in almond (Prunus dulcis [Mill.] D. A. Webb).
Saa S, Olivos-Del Rio A, Castro S, Brown PH., Front Plant Sci 6(), 2015
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Diverse roles of jasmonates and ethylene in abiotic stress tolerance.
Kazan K., Trends Plant Sci 20(4), 2015
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Changes in cell size and number and in rhizodermal development contribute to root tip swelling of Hyoscyamus albus roots subjected to iron deficiency.
Kawahara Y, Kitamura Y., Plant Physiol Biochem 89(), 2015
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Localized and non-localized effects of arbuscular mycorrhizal symbiosis on accumulation of osmolytes and aquaporins and on antioxidant systems in maize plants subjected to total or partial root drying.
Bárzana G, Aroca R, Ruiz-Lozano JM., Plant Cell Environ 38(8), 2015
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Quantitative expression analysis of drought responsive genes in clones of Hevea with varying levels of drought tolerance.
Luke LP, Mohamed Sathik MB, Thomas M, Kuruvilla L, Sumesh KV, Annamalainathan K., Physiol Mol Biol Plants 21(2), 2015
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Comparison of proteome response to saline and zinc stress in lettuce.
Lucini L, Bernardo L., Front Plant Sci 6(), 2015
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The low oxygen, oxidative and osmotic stress responses synergistically act through the ethylene response factor VII genes RAP2.12, RAP2.2 and RAP2.3.
Papdi C, Pérez-Salamó I, Joseph MP, Giuntoli B, Bögre L, Koncz C, Szabados L., Plant J 82(5), 2015
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Cadmium stress antioxidant responses and root-to-shoot communication in grafted tomato plants.
Gratão PL, Monteiro CC, Tezotto T, Carvalho RF, Alves LR, Peters LP, Azevedo RA., Biometals 28(5), 2015
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Temporal transcriptome profiling reveals expression partitioning of homeologous genes contributing to heat and drought acclimation in wheat (Triticum aestivum L.).
Liu Z, Xin M, Qin J, Peng H, Ni Z, Yao Y, Sun Q., BMC Plant Biol 15(), 2015
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Burkholderia phytofirmans PsJN induces long-term metabolic and transcriptional changes involved in Arabidopsis thaliana salt tolerance.
Pinedo I, Ledger T, Greve M, Poupin MJ., Front Plant Sci 6(), 2015
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Global Reprogramming of Transcription in Chinese Fir (Cunninghamia lanceolata) during Progressive Drought Stress and after Rewatering.
Hu R, Wu B, Zheng H, Hu D, Wang X, Duan H, Sun Y, Wang J, Zhang Y, Li Y., Int J Mol Sci 16(7), 2015
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Senescence, Stress, and Reactive Oxygen Species.
Jajic I, Sarna T, Strzalka K., Plants (Basel) 4(3), 2015
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RING Type E3 Ligase CaAIR1 in Pepper Acts in the Regulation of ABA Signaling and Drought Stress Response.
Park C, Lim CW, Baek W, Lee SC., Plant Cell Physiol 56(9), 2015
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Plant MYB Transcription Factors: Their Role in Drought Response Mechanisms.
Baldoni E, Genga A, Cominelli E., Int J Mol Sci 16(7), 2015
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Identification of heat-responsive genes in carnation (Dianthus caryophyllus L.) by RNA-seq.
Wan XL, Zhou Q, Wang YY, Wang WE, Bao MZ, Zhang JW., Front Plant Sci 6(), 2015
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Network Candidate Genes in Breeding for Drought Tolerant Crops.
Krannich CT, Maletzki L, Kurowsky C, Horn R., Int J Mol Sci 16(7), 2015
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Coping with drought: stress and adaptive responses in potato and perspectives for improvement.
Obidiegwu JE, Bryan GJ, Jones HG, Prashar A., Front Plant Sci 6(), 2015
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Proteomics, metabolomics, and ionomics perspectives of salinity tolerance in halophytes.
Kumari A, Das P, Parida AK, Agarwal PK., Front Plant Sci 6(), 2015
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bZIP17 and bZIP60 Regulate the Expression of BiP3 and Other Salt Stress Responsive Genes in an UPR-Independent Manner in Arabidopsis thaliana.
Henriquez-Valencia C, Moreno AA, Sandoval-Ibañez O, Mitina I, Blanco-Herrera F, Cifuentes-Esquivel N, Orellana A., J Cell Biochem 116(8), 2015
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Transcriptomic analysis reveals importance of ROS and phytohormones in response to short-term salinity stress in Populus tomentosa.
Zheng L, Meng Y, Ma J, Zhao X, Cheng T, Ji J, Chang E, Meng C, Deng N, Chen L, Shi S, Jiang Z., Front Plant Sci 6(), 2015
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Alternative Strategies in Response to Saline Stress in Two Varieties of Portulaca oleracea (Purslane).
Mulry KR, Hanson BA, Dudle DA., PLoS One 10(9), 2015
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Roles of sodium hydrosulfide and sodium nitroprusside as priming molecules during drought acclimation in citrus plants.
Ziogas V, Tanou G, Belghazi M, Filippou P, Fotopoulos V, Grigorios D, Molassiotis A., Plant Mol Biol 89(4-5), 2015
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Composition of the SAGA complex in plants and its role in controlling gene expression in response to abiotic stresses.
Moraga F, Aquea F., Front Plant Sci 6(), 2015
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The wheat TaGBF1 gene is involved in the blue-light response and salt tolerance.
Sun Y, Xu W, Jia Y, Wang M, Xia G., Plant J 84(6), 2015
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Nuclear-localized AtHSPR links abscisic acid-dependent salt tolerance and antioxidant defense in Arabidopsis.
Yang T, Zhang L, Hao H, Zhang P, Zhu H, Cheng W, Wang Y, Wang X, Wang C., Plant J 84(6), 2015
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Proteome Dynamics and Physiological Responses to Short-Term Salt Stress in Brassica napus Leaves.
Jia H, Shao M, He Y, Guan R, Chu P, Jiang H., PLoS One 10(12), 2015
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Involvement of Phosphatidylinositol 3-kinase in the regulation of proline catabolism in Arabidopsis thaliana.
Leprince AS, Magalhaes N, De Vos D, Bordenave M, Crilat E, Clément G, Meyer C, Munnik T, Savouré A., Front Plant Sci 5(), 2014
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Dynamic changes of flavonoids contents in the different parts of rhizome of Belamcanda chinensis during the thermal drying process.
Zhu Y, Pu BQ, Xie GY, Tian M, Xu FY, Qin MJ., Molecules 19(7), 2014
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Molecular genetics and genomics of abiotic stress responses.
Garg R, Varshney RK, Jain M., Front Plant Sci 5(), 2014
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Allergenicity assessment of genetically-modified tobacco expressing salt tolerance cbl gene.
Verma AK, Kumar S, Chaudhari BP, Tuteja N, Das M, Dwivedi PD., Plant Foods Hum Nutr 69(3), 2014
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Arabidopsis reduces growth under osmotic stress by decreasing SPEECHLESS protein.
Kumari A, Jewaria PK, Bergmann DC, Kakimoto T., Plant Cell Physiol 55(12), 2014
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De novo assembly of the desert tree Haloxylon ammodendron (C. A. Mey.) based on RNA-Seq data provides insight into drought response, gene discovery and marker identification.
Long Y, Zhang J, Tian X, Wu S, Zhang Q, Zhang J, Dang Z, Pei XW., BMC Genomics 15(), 2014
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