Role of Proteomics in Crop Stress Tolerance

Role of Proteomics in Crop Stress Tolerance

Plants often experience various biotic and abiotic stresses during their life cycle. The abiotic stresses include mainly drought, salt, temperature (low/high), flooding and nutritional deficiency/excess which hamper crop growth and yield to a great extent. In view of a projection 50% of the crop los...

Full description

Bibliographic Details
Main Authors:	Parvaiz Ahmad, ِArafat Abdel Hamed Abdel Latef, Saiema Rasool, Nudrat Aisha Akram, Muhammad Ashraf, Salih Gucel
Format:	Article
Language:	English
Published:	Frontiers Media S.A. 2016-09-01
Series:	Frontiers in Plant Science
Subjects:	Plants Proteomics Salts drought temperature nutrition
Online Access:	http://journal.frontiersin.org/Journal/10.3389/fpls.2016.01336/full

Similar Items

Trehalose-Induced Regulations in Nutrient Status and Secondary Metabolites of Drought-Stressed Sunflower (<i>Helianthus annuus</i> L.) Plants
by: Firdos Kosar, et al.
Published: (2022-10-01)

Potentiality of Soybean Proteomics in Untying the Mechanism of Flood and Drought Stress Tolerance
by: Zahed Hossain, et al.
Published: (2014-03-01)

Cell wall proteomics of crops
by: Setsuko eKomatsu, et al.
Published: (2013-02-01)

Nitric oxide mitigates salt stress by regulating levels of osmolytes and antioxidant enzymes in chickpea
by: Parvaiz eAhmad, et al.
Published: (2016-03-01)

Comparative proteomic analysis for revealing the advantage mechanisms of salt-tolerant tomato (Solanum lycoperscium)
by: Qiang Wang, et al.
Published: (2022-02-01)

Comparative Proteomics Analysis between Maize and Sorghum Uncovers Important Proteins and Metabolic Pathways Mediating Drought Tolerance
by: Ali Elnaeim Elbasheir Ali, et al.
Published: (2023-01-01)

Foliar Application of Auxin or Cytokinin Can Confer Salinity Stress Tolerance in <i>Vicia faba</i> L.
by: Arafat Abdel Hamed Abdel Latef, et al.
Published: (2021-04-01)

Comparative proteomic analysis reveals molecular mechanism of seedling roots of different salt tolerant soybean genotypes in responses to salinity stress
by: Hongyu Ma, et al.
Published: (2014-09-01)

Organ-specific proteome analysis for identification of abiotic stress response mechanism in crop
by: Setsuko eKomatsu, et al.
Published: (2013-04-01)

Root proteomic and metabolic analyses reveal specific responses to drought stress in differently tolerant grapevine rootstocks
by: Bhakti Prinsi, et al.
Published: (2018-06-01)

Proteomic and metabolomic analyses uncover integrative mechanisms in Sesuvium portulacastrum tolerance to salt stress
by: Dingding Cao, et al.
Published: (2023-11-01)

Crop and medicinal plants proteomics in response to salt stress
by: Keyvan eAghaei, et al.
Published: (2013-01-01)

Genomic and proteomic responses to drought stress and biotechnological interventions for enhanced drought tolerance in plants
by: Pradyumna Kumar Singh, et al.
Published: (2022-01-01)

Comparative transcriptomic and proteomic analyses of two salt-tolerant alfalfa (Medicago sativa L.) genotypes: investigation of the mechanisms underlying tolerance to salt
by: Jiahui Hang, et al.
Published: (2024-11-01)

Current advances in the molecular regulation of abiotic stress tolerance in sorghum via transcriptomic, proteomic, and metabolomic approaches
by: Min Tu, et al.
Published: (2023-05-01)

iTRAQ-Based Comparative Proteomic Analysis of Seedling Leaves of Two Upland Cotton Genotypes Differing in Salt Tolerance
by: Wenfang Gong, et al.
Published: (2017-12-01)

Physiological and Proteomic Analysis of the Rice Mutant cpm2 Suggests a Negative Regulatory Role of Jasmonic Acid in Drought Tolerance
by: Rohit Dhakarey, et al.
Published: (2017-11-01)

Transcriptomic and proteomic profile approaches toward drought and salinity stresses
by: K. JAMSHIDI GOHARRIZI, et al.
Published: (2022-11-01)

Corrigendum: Physiological and Proteomic Analysis of the Rice Mutant cpm2 Suggests a Negative Regulatory Role of Jasmonic Acid in Drought Tolerance
by: Rohit Dhakarey, et al.
Published: (2018-04-01)

Nutrigenomics and proteomics in health and disease : food factors and gene interactions /
by: Mine, Yoshinori, et al.
Published: (2009)

Evaluation of spring canola cultivars in terms of some morphological and physiological traits under drought stress and proteome analysis of the most tolerant and susceptible ones
by: Maroof Khalili, et al.
Published: (2017-09-01)

Deciphering the response of medicinal plants to abiotic stressors: A focus on drought and salinity
by: Mansoureh Nazari, et al.
Published: (2023-12-01)

Integration of proteomic and transcriptomic profiles reveals multiple levels of genetic regulation of salt tolerance in cotton
by: Zhen Peng, et al.
Published: (2018-06-01)

Proteome analyses of drought signaling in rice root
by: Neda Soltani, et al.
Published: (2013-08-01)

CRISPR/Cas-based genome editing to improve abiotic stress tolerance in plants
by: Tae Kyung Hyun
Published: (2020-10-01)

Integrated transcriptomic, proteomic and metabolomic analyses revealing the roles of amino acid and sucrose metabolism in augmenting drought tolerance in Agropyron mongolicum
by: Xiaoran Ma, et al.
Published: (2024-12-01)

Integrated transcriptomic and proteomic analysis of Tritipyrum provides insights into the molecular basis of salt tolerance
by: Rui Yang, et al.
Published: (2021-12-01)

Comparative transcriptomic and proteomic analysis reveals common molecular factors responsive to heat and drought stresses in sweetpotaoto (Ipomoea batatas)
by: Wei Tang, et al.
Published: (2023-01-01)

The quantitative proteomic analysis provides insight into the effects of drought stress in maize
by: H.-J. LI, et al.
Published: (2021-03-01)

Combined Transcriptome and Proteome Analysis to Elucidate Salt Tolerance Strategies of the Halophyte Panicum antidotale Retz
by: Tabassum Hussain, et al.
Published: (2021-11-01)

Screening the banana biodiversity for drought tolerance: can an in vitro growth model and proteomics be used as a tool to discover tolerant varieties and understand homeostasis
by: Anne-Catherine eVanhove, et al.
Published: (2012-08-01)

Grafting enhances drought tolerance by regulating and mobilizing proteome, transcriptome and molecular physiology in okra genotypes
by: Kaukab Razi, et al.
Published: (2023-05-01)

Influence of Glycine Betaine (Natural and Synthetic) on Growth, Metabolism and Yield Production of Drought-Stressed Maize (<i>Zea mays</i> L.) Plants
by: Sidra Shafiq, et al.
Published: (2021-11-01)

Colonization of root endophytic fungus Serendipita indica improves drought tolerance of Pinus taeda seedlings by regulating metabolome and proteome
by: Chu Wu, et al.
Published: (2024-03-01)

Integrative transcriptomic and proteomic analyses reveal a positive role of BES1 in salt tolerance in Arabidopsis
by: Lei Feng, et al.
Published: (2023-03-01)

Proteomic Analysis to Understand the Promotive Effect of Ethanol on Soybean Growth Under Salt Stress
by: Setsuko Komatsu, et al.
Published: (2024-10-01)

Editorial: A large-scale biology view of crop-environment interaction: the influence of water and temperature stresses on the development of cereal and horticultural crops
by: Sowbiya Muneer, et al.
Published: (2023-06-01)

Exogenous α-Tocopherol Regulates the Growth and Metabolism of Eggplant (<i>Solanum melongena</i> L.) under Drought Stress
by: Nudrat Aisha Akram, et al.
Published: (2023-01-01)

TMT-based proteomic analysis of Apocynum venetum under salt stress
by: ZHEN Xi, et al.
Published: (2024-02-01)

Integrated transcriptome and proteome analysis reveals complex regulatory mechanism of cotton in response to salt stress
by: Lin CHEN, et al.
Published: (2021-04-01)