"Insights into Late Embryogenesis Abundant (LEA) Proteins in Plants: From Structure to the Functions"
written by Imen Amara, Ikram Zaidi, Khaled Masmoudi, M. Dolors Ludevid, Montserrat Pagès, Adela Goday, Faiçal Brini,
published by American Journal of Plant Sciences, Vol.5 No.22, 2014
has been cited by the following article(s):
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[2] Unfolding plant desiccation tolerance: evolution, structure, and function of LEA proteins
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[3] Seed Quality and LEA-protein Expression in Relation to Fruit Maturation and Post-harvest Storage of Two Chilies Types
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[4] Drought and heat stress-related proteins: an update about their functional relevance in imparting stress tolerance in agricultural crops
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[5] Sequence Composition versus Sequence Order in the Cryoprotective Function of an Intrinsically Disordered Stress‐Response Protein
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[6] Genome-level responses to the environment: plant desiccation tolerance
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[7] Knockdown of Cytochrome P450 Genes Gh_D07G1197 and Gh_A13G2057 on Chromosomes D07 and A13 Reveals Their Putative Role in Enhancing Drought and …
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[8] Structural, Functional, and Evolutionary Analysis of Late Embryogenesis Abundant Proteins (LEA) in Triticum aestivum: A Detailed Molecular Level Biochemistry Using …
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[9] Inverse Correlation Between MPSR1 E3 Ubiquitin Ligase and HSP90. 1 Balances Cytoplasmic Protein Quality Control
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[10] Variación en las respuestas fisiológicas y moleculares de cultivares de arándano (Vaccinium corymbosum L.) sometidos a estrés por déficit hídrico
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[11] How Quercus ilex L. saplings face combined salt and ozone stress: a transcriptome analysis
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[12] POLYMORPHISM OF SOME TRANSCRIPTION FACTOR GENES RELATED TO DROUGHT TOLERANCE IN WHEAT
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[13] Gene Expression Analysis of Somatic Embryogenesis in Oil Palm
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[14] Synteny-based phylogenomic networks for comparative genomics
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[15] Dissecting the genomic diversification of LATE EMBRYOGENESIS ABUNDANT (LEA) protein gene families in plants
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[16] Characterization of the late embryogenesis abundant (LEA) proteins family and their role in drought stress tolerance in upland cotton
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[17] Insights from proteomic studies into plant somatic embryogenesis
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[18] QTLs and eQTLs mapping related to citrandarins' resistance to citrus gummosis disease
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[19] The functional analysis of XhLEA3-2-a LEA_4 from the resurrection plant, Xerophyta humilis
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[20] Implications of co-curricular activities on quality education in public secondary schools in Kenya
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[21] The role of arginine metabolic pathway during embryogenesis and germination in maritime pine (Pinus pinaster Ait.)
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[22] Transcriptomic analysis of soil grown T. aestivum cv. root to reveal the changes in expression of genes in response to multiple nutrients deficiency
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[23] The roles of residue position and charge in the cryoprotective behaviour of the Vitis riparia K2 and YSK2 dehydrins
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[24] Desiccation tolerance
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[25] Redox changes during the cell cycle in the embryonic root meristem of Arabidopsis thaliana
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[26] Molecular analysis of microRNA-target gene interactions in the pine seed
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[27] High level of nonsynonymous changes in common bean suggests that selection under domestication increased functional diversity at target traits
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[28] Ectopic Expression of an Atypical Hydrophobic Group 5 LEA Protein from Wild Peanut, Arachis diogoi Confers Abiotic Stress Tolerance in Tobacco
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[29] Transcriptome Analysis of Oryza sativa (Rice) Seed Germination at High Temperature Shows Dynamics of Genome Expression Associated with Hormones Signalling and Abiotic Stress Pathways
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[30] Osmotic adjustment and activity of stress-related genes in wheats of different origin exposed to water stress
Russian Journal of Plant Physiology, 2016
[31] Overexpression of OsEm1 encoding a group I LEA protein confers enhanced drought tolerance in rice
Biochemical and Biophysical Research Communications, 2016
[32] Effect of drought stress on chlorophyll fluorescence, antioxidant enzyme activities and gene expression patterns in faba bean (Vicia faba L.)
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[33] Evaluation of the Water Stress-Inducible Promoter Wsi18 in the Model Monocot Brachypodium distachyon
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[34] A comparative study of the structural and physicochemical properties of the major proteins from Camelina sativa (L.) Crantz and Brassica napus L.
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[35] Mapeamento de QTLs e eQTLs relacionados à resistência à Phytophthora parasitica (agente causador da gomose dos citros) em citrandarins
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[36] Evidence for nuclear interaction of a cytoskeleton protein (OsIFL) with metallothionein and its role in salinity stress tolerance
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[37] Characterisation of two desiccation-linked dehydrins from Xerophyta humilis
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[38] Expression of Artemia LEA Proteins in Drosophila melanogaster Cells Using Multicistronic Vector Constructs
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[39] Transcriptome Analysis of Oryza sativa (Rice) Seed Germination at High Temperature Shows Dynamics of Genome Expression Associated with Hormones Signalling …
Tropical Plant Biology, 2016
[40] Heterologous expression of MeLEA3: a 10 kDa late embryogenesis abundant protein of cassava, confers tolerance to abiotic stress in Escherichia coli with …
Protein and Peptide Letters, 2015
[41] De Novo Assembly and Characterization of the Transcriptome of the Chinese Medicinal Herb, Gentiana rigescens
International journal of molecular sciences, 2015
[42] Putrescine induces somatic embryo development and proteomic changes in embryogenic callus of sugarcane
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[43] Group II late embryogenesis abundant (LEA) proteins: structural and functional aspects in plant abiotic stress
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[44] OBJECTIVES AND OUTLINE OF THE THESIS
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[45] Heterologous Expression of MeLEA3: A 10 kDa Late Embryogenesis Abundant Protein of Cassava, Confers Tolerance to Abiotic Stress in Escherichia coli with Recombinant Protein Showing In Vitro Chaperone Activity
Protein and peptide letters, 2015