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American Journal of Plant Sciences

American Journal of Plant Sciences

American Journal of Plant Sciences

ISSN Print: 2158-2742
ISSN Online: 2158-2750
www.scirp.org/journal/ajps
E-mail: ajps@scirp.org
"MicroRNAs: The Potential Biomarkers in Plant Stress Response"
written by Sonali Bej, Jolly Basak,
published by American Journal of Plant Sciences, Vol.5 No.5, 2014
has been cited by the following article(s):
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[4] Pooja Sihag1, Vijeta Sagwal1, Anuj Kumar2, Priyanka Balyan3, Reyazul Rouf Mir4, Om Parkash Dhankher5 and Upendra Kumar1
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[5] Allergen coding genes and miRNA-based DNA fingerprints in revealing differences among Vaccinium corymbosum L. and Vaccinium myrtillus L.
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[6] miRNA-Regulated Transcription Factor Networks in Response to Osmotic Stress
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[7] Regulation of morphogenesis and development in food crops: role of small RNA
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[10] Peeking into plant-microbe interactions during plant defense
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[11] Fingerprint characteristics and expression variability of miRNA based markers in wheat varieties with different susceptibility to drought
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[12] Abiotic stress tolerance in plants: a fascinating action of defense mechanisms
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[13] Functional role of microRNA in the regulation of biotic and abiotic stress in agronomic plants
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[14] Comprehensive investigation of cucumber heat shock proteins under abiotic stress conditions: A multi-omics survey
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[15] Recent research advances of small regulatory RNA in fruit crops
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[16] INFLUENCE OF GLYCYRIZIC ACID COMPLEXES ON WHEAT RESISTANCE TO FUNGAL DISEASES
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[17] Plant low-temperature stress: signaling and response
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[18] MicroRNA biogenesis and activity in plant cell dedifferentiation stimulated by cell wall removal
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[19] Role of miRNA for agricultural crop improvement
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[20] Fingerprinting of Aegilops species using genes-targeted drived and conserved regiens CoRAP markers
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[21] Trends and Hotspots of microRNAs in Epilepsy: A 10-Year Cross-Sectional Study
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[23] 水稻 AGL17-like 亚家族研究进展
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[24] MicroRNA Transformed Genetically Modified Crops and their Effect on Human Health.
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[25] Identification and Expression Analysis of DUF4228 Domain Containing (DDP) Genes in Potato Under Abiotic and Phytohormone Stress
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[26] microRNA Utilization as a Potential Tool for Stress Tolerance in Plants
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[27] MicroRNA-Based and Proteomic Fingerprinting of Avena sativa L
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[28] Flowers Characteristics of Selected Species of Lime-Tree (Tilia spp.) in Terms of miRNA-Based Markers Activity, Mannose Expression and Biological Compounds …
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[30] MicroRNA-Based and Proteomics Fingerprinting of Avena sativa L. Genotypes
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[36] Development and validation of heat-responsive candidate gene and miRNA gene based SSR markers to analysis genetic diversity in wheat for heat tolerance …
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[37] Smart fertilizer management: the progress of imaging technologies and possible implementation of plant biomarkers in agriculture
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[38] Mutant Çeltiklerde (Oryza Sativa) Tuzluluğa Tolerans ile İlgili miRNA'ların Belirlenmesi
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[39] Flowers Characteristics of Selected Species of Lime-Tree (Tilia spp.) in Terms of miRNA-Based Markers Activity, Mannose Expression and Biological …
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[40] Abiotic stress-related miRNAs in Triticeae.
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[41] Ectopic expression of miRNA172 in tomato (Solanum lycopersicum) reveals novel function in fruit development through regulation of an AP2 transcription factor
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[42] Structural and Functional Characteristics of miRNAs in Five Strategic Millet Species and Their Utility in Drought Tolerance
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[43] Underpinning miRNA-miRNA co-functional interaction patterns in the metabolism of Oryza sativa by genome-scale network analysis
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[44] Role of miRNAs in Abiotic and Biotic Stress Management in Crop Plants
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[45] Aux/IAA14 Regulates microRNA-Mediated Cold Stress Response in Arabidopsis Roots
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[46] Identification of microRNAs and Their Expression in Leaf Tissues of Guava (Psidium guajava L.) under Salinity Stress
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[47] MicroRNAs as a Potential Tool to Improve Abiotic Stress Tolerance in Plants
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[48] Expression Alteration of Candidate Rice MiRNAs in Response to Sheath Blight Disease
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[49] Molecular characterization of the effect of plant-based elicitor using microRNAs markers in wheat genome
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[50] Agronomic Crop Responses and Tolerance to Drought Stress
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[51] An Immense Detail of miRNA Role in Gene Regulation and Their Expression on Functional Bases in Various Crops
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[52] Deciphering miRNAs involved in crosstalk between auxin and cold stress in Arabidopsis roots
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[53] Ectopic expression of miRNA172 in tomato (Solanum lycopersicum) reveals novel function in fruit development through regulation of an AP2 transcription …
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[54] Triticeae'da abiyotik stresle ilişkili miRNA'lar
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[55] MicroRNA-based markers as a tool to monitor the barley (Hordeum vulgare L.) response to soil compaction
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[56] Arsenic Tolerance and Signaling Mechanisms in Plants
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[57] The maize shoot ionome: its interaction partners, predictive power, and genetic determinants
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[58] MicroRNA-Based Markers in Plant Genome Response to Abiotic Stress and Their Application in Plant Genotyping
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[59] RNAi-mediated Resistance against Plant Parasitic Nematodes of Wheat Plants Obtained In Vitro Using Bioregulators of Microbiological Origin
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[60] Gold nanoparticles-based biosensor can detect drought stress in tomato by ultrasensitive and specific determination of miRNAs
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[61] The role of MicroRNAs in defense against viral phytopathogens
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[62] Plant microRNAs: biogenesis, gene silencing, web-based analysis tools and their use as molecular markers
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[63] Integrating agronomic and genomic approaches for wheat adaptation to to Southern Spain Mediterranean agro-environments
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[64] Crosstalk Between Plant miRNA and Heavy Metal Toxicity
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[65] Ecologically conditioned imprinting of miRNA-based profiles of Ginkgo biloba L. growing in Slovakia
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[66] Sequence variation in genes encoding miRNAs/targets and other related approaches for possible use in crop improvement
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[67] An emerging technique for reducing the response time in plant miRNA identification
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[68] Ecologically conditioned imprinting of miRNA-based profiles of L. growing in Slovakia
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[73] Antioxidant properties of cumin (Bunium persicum Boiss.) extract and its protective role against abiotic stress tested by microRNA markers
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[74] Antioxidant properties of cumin (Bunium persicum Boiss.) extract and its protective role against ultrasound-induced oxidative stress tested by microRNA based …
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[76] Hydropenia induces expression of drought responsive genes (DRGs) erd1, hat, plD-δ, and zfa in Linum usitatissimum L.
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[77] Identification and characterization of drought responsive microRNAs and their target genes in cardamom (Elettaria cardamomum Maton)
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[78] Plant microRNAs in molecular breeding
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[79] Function of microRNAs in plant innate immunity
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[80] miRNAs: Major modulators for crop growth and development under abiotic stresses
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[81] miRNA-based heavy metal homeostasis and plant growth
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[82] miRNAs target databases: developmental methods and target identification techniques with functional annotations
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[83] Functional Roles of microRNAs in Agronomically Important Plants—Potential as Targets for Crop Improvement and Protection
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[84] Bacillus subtilis affects miRNAs and flavanoids production in Agrobacterium-Tobacco interaction
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[85] Abiotic Stress Induced Epigenetic Modifications in Plants: How Much Do We Know?
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[86] Differences and commonalities of plant responses to single and combined stresses
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[87] Identification of γ-radiation-responsive microRNAs and their target genes in Tradescantia (BNL clone 4430)
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[88] Abiotic stress responsive miRNA-target network and related markers (SNP, SSR) in Brassica juncea
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[89] MicroRNAs associated with drought response in the pulse crop common bean (Phaseolus vulgaris L.)
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[90] Discovery of MicroRNAs in Cardamom (Elettaria cardamomum Maton) under Drought Stress
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[91] MicroRNA (miRNA) in food resources and medicinal plant
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[92] Alternative oxidase gene family in Hypericum perforatum L.: characterization and expression at the post-germinative phase
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[93] Drought Stress in Plants: Causes, Consequences, and Tolerance
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[95] The Small-RNA Profiles of Almond (Prunus dulcis Mill.) Reproductive Tissues in Response to Cold Stress
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[97] Improving of rice blast resistances in japonica by pyramiding major R genes
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[98] Analysis of miRNA polymorphism during the selected developmental processes of flax/Analyza polymorfizmu miRNA vo vybranych vyvojovych stadiach l'anu siateho
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[99] Kuraklık stresinde miRNA cevaplarının domateste araştırılması
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[100] MicroRNA (miRNA) in food resources and medicinal plant.
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[102] Comprehensive analyses of DNA methylation profile, regulation on flowering, and seed mineral accumulation in Arabidopsis thaliana in response to zinc …
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[104] Application of the RAPD and miRNA markers in the genotyping of Silybum marianum (L.) Gaertn.
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[106] Genotyping of Flax Genetic Resources by Mirna-Based Molecular Markers and Morphology
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[107] IDENTIFICATION AND FUNCTIONAL CHARACTERIZATION OF NOVEL MmiRNAs FROM FRENCH BEAN UNDER ABIOTIC STRESS CONDITIONS
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[108] Role of microRNAs in plant innate immunity
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[109] A rare cultivar of horse chestnut (Aesculus hippocastanum L. ˈBaumaniiˈ) in Slovakia: morphological, molecular and antioxidant analysis
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