| scholarly article | Q13442814 |
| P2093 | author name string | Craita E Bita | |
| Tom Gerats | |||
| P2860 | cites work | Calcium channels and acquired thermotolerance: here comes the sun and it's all right | Q84824506 |
| The heat shock response in moss plants is regulated by specific calcium-permeable channels in the plasma membrane | Q46170835 | ||
| Isoprene decreases the concentration of nitric oxide in leaves exposed to elevated ozone | Q46429191 | ||
| Heat stress phenotypes of Arabidopsis mutants implicate multiple signaling pathways in the acquisition of thermotolerance | Q46516457 | ||
| Core genome responses involved in acclimation to high temperature | Q46869094 | ||
| Natural selection favors a newly derived timeless allele in Drosophila melanogaster | Q47070309 | ||
| Different stresses, similar morphogenic responses: integrating a plethora of pathways. | Q47225898 | ||
| Arabidopsis hot mutants define multiple functions required for acclimation to high temperatures | Q47834277 | ||
| Molecular chaperones: the plant connection | Q47894346 | ||
| Effects of season-long high temperature growth conditions on sugar-to-starch metabolism in developing microspores of grain sorghum (Sorghum bicolor L. Moench). | Q51979101 | ||
| Premature progression of anther early developmental programs accompanied by comprehensive alterations in transcription during high-temperature injury in barley plants. | Q51989175 | ||
| Heat shock protein 101 plays a crucial role in thermotolerance in Arabidopsis. | Q52169308 | ||
| The evolution of population stability as a by-product of life-history evolution. | Q52610752 | ||
| Over-expression of mitochondrial heat shock protein 70 suppresses programmed cell death in rice. | Q54398785 | ||
| High temperature stress of Brassica napus during flowering reduces micro- and megagametophyte fertility, induces fruit abortion, and disrupts seed production. | Q54732864 | ||
| Heterologous expression of a plastid EF-Tu reduces protein thermal aggregation and enhances CO2 fixation in wheat (Triticum aestivum) following heat stress | Q59007403 | ||
| Stress-induced morphogenic responses: growing out of trouble? | Q60508118 | ||
| Resistance to cold and heat stress: accumulation of phenolic compounds in tomato and watermelon plants | Q73409620 | ||
| Physiological implications of metabolite biosynthesis for net assimilation and heat-stress tolerance of sugarcane (Saccharum officinarum) sprouts | Q79197247 | ||
| Sustainable well-being | Q79782565 | ||
| Physiological changes in barley plants under combined toxicity of aluminum, copper and cadmium | Q79895671 | ||
| Heat stress-induced H(2)O (2) is required for effective expression of heat shock genes in Arabidopsis | Q80081976 | ||
| FtsH11 protease plays a critical role in Arabidopsis thermotolerance | Q80262156 | ||
| The SWI/SNF chromatin-remodeling gene AtCHR12 mediates temporary growth arrest in Arabidopsis thaliana upon perceiving environmental stress | Q80555835 | ||
| Quantitative trait loci and crop performance under abiotic stress: where do we stand? | Q81398839 | ||
| The heat-inducible transcription factor HsfA2 enhances anoxia tolerance in Arabidopsis | Q82588243 | ||
| Genetic analysis of abiotic stress tolerance in crops | Q83816616 | ||
| The role of Arabidopsis AtFes1A in cytosolic Hsp70 stability and abiotic stress tolerance | Q84382579 | ||
| Rubisco activase and wheat productivity under heat-stress conditions | Q84387403 | ||
| The protective mechanisms of CaHSP26 in transgenic tobacco to alleviate photoinhibition of PSII during chilling stress | Q84568476 | ||
| Production and scavenging of reactive oxygen species in chloroplasts and their functions | Q24547928 | ||
| AFLP: a new technique for DNA fingerprinting | Q24620887 | ||
| Food security: the challenge of feeding 9 billion people | Q28271670 | ||
| Historical warnings of future food insecurity with unprecedented seasonal heat | Q28306218 | ||
| Crop responses to climatic variation | Q28767605 | ||
| Small heat shock proteins and stress tolerance in plants. | Q30331340 | ||
| Possible changes to arable crop yields by 2050. | Q30396721 | ||
| Chromatin proteins: key responders to stress | Q31078221 | ||
| Genetic approaches to crop improvement: responding to environmental and population changes | Q31155254 | ||
| Identification of stress-responsive genes in an indica rice (Oryza sativa L.) using ESTs generated from drought-stressed seedlings | Q33264886 | ||
| FASCIATA genes for chromatin assembly factor-1 in arabidopsis maintain the cellular organization of apical meristems | Q33335316 | ||
| Early events in signalling high-temperature stress in tobacco BY2 cells involve alterations in membrane fluidity and enhanced hydrogen peroxide production | Q33365418 | ||
| Identification of heat stress-responsive genes in heat-adapted thermal Agrostis scabra by suppression subtractive hybridization | Q33379334 | ||
| Variation in heat-shock proteins and photosynthetic thermotolerance among natural populations of Chenopodium album L. from contrasting thermal environments: implications for plant responses to global warming | Q33385316 | ||
| Identifying target traits and molecular mechanisms for wheat breeding under a changing climate | Q33457901 | ||
| Auxins reverse plant male sterility caused by high temperatures | Q33565232 | ||
| Moderate increase of mean daily temperature adversely affects fruit set of Lycopersicon esculentum by disrupting specific physiological processes in male reproductive development | Q33578470 | ||
| Could heat shock transcription factors function as hydrogen peroxide sensors in plants? | Q33578610 | ||
| Plant molecular stress responses face climate change. | Q33694129 | ||
| How do we improve crop production in a warming world? | Q33710410 | ||
| Agricultural biotechnology for crop improvement in a variable climate: hope or hype? | Q33874836 | ||
| Transgenerational inheritance and resetting of stress-induced loss of epigenetic gene silencing in Arabidopsis | Q33880919 | ||
| HSP101: a key component for the acquisition of thermotolerance in plants | Q33888989 | ||
| Reversible association of ribulose-1, 5-bisphosphate carboxylase/oxygenase activase with the thylakoid membrane depends upon the ATP level and pH in rice without heat stress | Q33941095 | ||
| Temperature stress differentially modulates transcription in meiotic anthers of heat-tolerant and heat-sensitive tomato plants | Q33975710 | ||
| Genetic engineering of glycinebetaine synthesis in plants: current status and implications for enhancement of stress tolerance | Q34000100 | ||
| Molecular responses of plants to cold shock and cold acclimation. | Q34004269 | ||
| H2A.Z-containing nucleosomes mediate the thermosensory response in Arabidopsis. | Q34020881 | ||
| Temperature stress and plant sexual reproduction: uncovering the weakest links | Q34048239 | ||
| Breeding technologies to increase crop production in a changing world. | Q34098317 | ||
| PIFs: pivotal components in a cellular signaling hub. | Q34137345 | ||
| Heat shock response in photosynthetic organisms: membrane and lipid connections | Q34224594 | ||
| Arabidopsis and the heat stress transcription factor world: how many heat stress transcription factors do we need? | Q34400602 | ||
| A gene encoding an abscisic acid biosynthetic enzyme (LsNCED4) collocates with the high temperature germination locus Htg6.1 in lettuce (Lactuca sp.). | Q34462996 | ||
| The role of glycine betaine in the protection of plants from stress: clues from transgenic plants | Q34527868 | ||
| Molecular genetics of heat tolerance and heat shock proteins in cereals. | Q34630917 | ||
| Acclimative response to temperature stress in higher plants: approaches of gene engineering for temperature tolerance | Q34833644 | ||
| Acquired tolerance to temperature extremes | Q35113436 | ||
| From plant genomics to breeding practice | Q35121976 | ||
| Role of miRNAs and siRNAs in biotic and abiotic stress responses of plants | Q35218107 | ||
| Inhibition of photosynthesis by heat stress: the activation state of Rubisco as a limiting factor in photosynthesis | Q35699701 | ||
| Reactive oxygen gene network of plants. | Q35909671 | ||
| Function and regulation of plant invertases: sweet sensations | Q35963335 | ||
| Heat stress response in plants: a complex game with chaperones and more than twenty heat stress transcription factors | Q35996438 | ||
| Acquired thermotolerance independent of heat shock factor A1 (HsfA1), the master regulator of the heat stress response | Q36164057 | ||
| Diagnosis of abiotic and biotic stress factors using the visible symptoms in foliage | Q36187990 | ||
| Enhanced seed production under prolonged heat stress conditions in Arabidopsis thaliana plants deficient in cytosolic ascorbate peroxidase 2. | Q36482081 | ||
| Reactive oxygen species as signals that modulate plant stress responses and programmed cell death | Q36623806 | ||
| Complexity of the heat stress response in plants | Q36812360 | ||
| The effect of drought and heat stress on reproductive processes in cereals | Q36986136 | ||
| Genomic selection using low-density marker panels | Q37173399 | ||
| Heat stress: an overview of molecular responses in photosynthesis. | Q37224585 | ||
| Effects of brassinosteroids on the plant responses to environmental stresses. | Q37326061 | ||
| Identification and characterization of proteins associated with plant tolerance to heat stress | Q37328522 | ||
| Transcriptional profiling of maturing tomato (Solanum lycopersicum L.) microspores reveals the involvement of heat shock proteins, ROS scavengers, hormones, and sugars in the heat stress response | Q37330921 | ||
| Global warming and sexual plant reproduction | Q37343262 | ||
| Redox regulation in photosynthetic organisms: signaling, acclimation, and practical implications | Q37400114 | ||
| Physiological and proteomic approaches to address heat tolerance during anthesis in rice (Oryza sativa L.). | Q37468066 | ||
| Next-generation sequencing technologies and their implications for crop genetics and breeding | Q37579399 | ||
| From freezing to scorching, transcriptional responses to temperature variations in plants | Q37588963 | ||
| Research on plant abiotic stress responses in the post-genome era: past, present and future | Q37735378 | ||
| High temperature effects on electron and proton circuits of photosynthesis. | Q37776301 | ||
| Sugar input, metabolism, and signaling mediated by invertase: roles in development, yield potential, and response to drought and heat. | Q37781644 | ||
| Heat perception and signalling in plants: a tortuous path to thermotolerance | Q37817480 | ||
| ROS signaling: the new wave? | Q37863874 | ||
| The plant heat stress transcription factor (Hsf) family: structure, function and evolution | Q37950161 | ||
| The role of class A1 heat shock factors (HSFA1s) in response to heat and other stresses in Arabidopsis. | Q38338007 | ||
| Comparison of hormonal responses to heat, drought and combined stress in tobacco plants with elevated proline content | Q38974767 | ||
| Brassinosteroid confers tolerance in Arabidopsis thaliana and Brassica napus to a range of abiotic stresses. | Q39115187 | ||
| Differential regulation of aquaporins, small GTPases and V-ATPases proteins in rice leaves subjected to drought stress and recovery | Q39253898 | ||
| Functional analysis of a NAC-type transcription factor OsNAC6 involved in abiotic and biotic stress-responsive gene expression in rice | Q39292410 | ||
| QTL mapping of terminal heat tolerance in hexaploid wheat (T. aestivum L.). | Q39334624 | ||
| Heat and drought adaptive QTL in a wheat population designed to minimize confounding agronomic effects | Q39357535 | ||
| Engineering of enhanced glycine betaine synthesis improves drought tolerance in maize | Q39374322 | ||
| A cascade of transcription factor DREB2A and heat stress transcription factor HsfA3 regulates the heat stress response of Arabidopsis | Q39439045 | ||
| Differential responses of five cherry tomato varieties to water stress: changes on phenolic metabolites and related enzymes. | Q39503685 | ||
| Plants and high temperature stress | Q39583044 | ||
| Maize acetylcholinesterase is a positive regulator of heat tolerance in plants. | Q39611203 | ||
| Arabidopsis HsfA1 transcription factors function as the main positive regulators in heat shock-responsive gene expression. | Q39617310 | ||
| Modulated fatty acid desaturation via overexpression of two distinct omega-3 desaturases differentially alters tolerance to various abiotic stresses in transgenic tobacco cells and plants | Q39626500 | ||
| Future tools for association mapping in crop plants | Q39817331 | ||
| Next generation of elevated [CO2] experiments with crops: a critical investment for feeding the future world | Q40085179 | ||
| Physiological and molecular changes in Oryza meridionalis Ng., a heat-tolerant species of wild rice | Q41859959 | ||
| Cytosol-localized heat shock factor-binding protein, AtHSBP, functions as a negative regulator of heat shock response by translocation to the nucleus and is required for seed development in Arabidopsis | Q42470206 | ||
| Heat stress- and heat shock transcription factor-dependent expression and activity of ascorbate peroxidase in Arabidopsis | Q42522452 | ||
| Applications of next-generation sequencing in plant biology | Q42635262 | ||
| Isolation and molecular characterization of a new CRT binding factor gene from Capsella bursa-pastoris | Q42638013 | ||
| Epigenetic regulation of repetitive elements is attenuated by prolonged heat stress in Arabidopsis. | Q42874657 | ||
| The effect of heat stress on tomato pollen characteristics is associated with changes in carbohydrate concentration in the developing anthers | Q43022134 | ||
| Grain-filling problem in 'super' rice | Q43230333 | ||
| Involvement of Arabidopsis ROF2 (FKBP65) in thermotolerance | Q43252040 | ||
| High temperatures cause male sterility in rice plants with transcriptional alterations during pollen development | Q43266191 | ||
| Salicylic acid dependent signaling promotes basal thermotolerance but is not essential for acquired thermotolerance in Arabidopsis thaliana | Q44846234 | ||
| Thermotolerance and antioxidant systems in Agrostis stolonifera: involvement of salicylic acid, abscisic acid, calcium, hydrogen peroxide, and ethylene | Q44884419 | ||
| Pyramiding transgenes for multiple resistance in rice against bacterial blight, yellow stem borer and sheath blight | Q45079658 | ||
| Mutations in an Arabidopsis mitochondrial transcription termination factor-related protein enhance thermotolerance in the absence of the major molecular chaperone HSP101. | Q45922915 | ||
| The cytosolic protein response as a subcomponent of the wider heat shock response in Arabidopsis. | Q46108772 | ||
| Genetic variation for lettuce seed thermoinhibition is associated with temperature-sensitive expression of abscisic Acid, gibberellin, and ethylene biosynthesis, metabolism, and response genes | Q46138636 | ||
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 273 | |
| P577 | publication date | 2013-07-31 | |
| P1433 | published in | Frontiers in Plant Science | Q27723840 |
| P1476 | title | Plant tolerance to high temperature in a changing environment: scientific fundamentals and production of heat stress-tolerant crops | |
| P478 | volume | 4 |
| Q52641612 | A Canonical DREB2-Type Transcription Factor in Lily Is Post-translationally Regulated and Mediates Heat Stress Response. |
| Q57177005 | A comprehensive analysis of the Korean fir (Abies koreana) genes expressed under heat stress using transcriptome analysis |
| Q89966860 | A potential seedling-stage evaluation method for heat tolerance in Indian mustard (Brassica juncea L. Czern and Coss) |
| Q52727738 | A reversible light- and genotype-dependent acquired thermotolerance response protects the potato plant from damage due to excessive temperature. |
| Q39190138 | A walk on the wild side: Oryza species as source for rice abiotic stress tolerance |
| Q30883138 | ATR-FTIR spectroscopy reveals involvement of lipids and proteins of intact pea pollen grains to heat stress tolerance |
| Q55294220 | Abiotic Stress Signaling in Wheat - An Inclusive Overview of Hormonal Interactions During Abiotic Stress Responses in Wheat. |
| Q31132918 | Abiotic stress miRNomes in the Triticeae. |
| Q49949639 | Acetylsalicylic acid enhance tolerance of Phaseolus vulgaris L. to chilling stress, improving photosynthesis, antioxidants and expression of cold stress responsive genes. |
| Q57193401 | Aerobic oxidation of alcohols in visible light on Pd-grafted Ti cluster |
| Q53695275 | African Orphan Crops under Abiotic Stresses: Challenges and Opportunities. |
| Q33989428 | Alfalfa Cellulose synthase gene expression under abiotic stress: a Hitchhiker's guide to RT-qPCR normalization |
| Q92521973 | Amylopectin Chain Length Dynamics and Activity Signatures of Key Carbon Metabolic Enzymes Highlight Early Maturation as Culprit for Yield Reduction of Barley Endosperm Starch after Heat Stress |
| Q90297857 | An Overview of Biomembrane Functions in Plant Responses to High-Temperature Stress |
| Q48159982 | Arabidopsis QTLs Associated with Reduction of Fertility in Response to Heat Stress |
| Q58077305 | Augmentation of crop productivity through interventions of omics technologies in India: challenges and opportunities |
| Q36304230 | Bacillus aryabhattai SRB02 tolerates oxidative and nitrosative stress and promotes the growth of soybean by modulating the production of phytohormones. |
| Q46819785 | Bioorthogonal Noncanonical Amino Acid Tagging (BONCAT) Enables Time-Resolved Analysis of Protein Synthesis in Native Plant Tissue. |
| Q26776105 | Breeding and Domesticating Crops Adapted to Drought and Salinity: A New Paradigm for Increasing Food Production |
| Q26766197 | Breeding for plant heat tolerance at vegetative and reproductive stages |
| Q46265239 | Capparis spinosa L. in A Systematic Review: A Xerophilous Species of Multi Values and Promising Potentialities for Agrosystems under the Threat of Global Warming. |
| Q49337966 | Characterization of some bread wheat genotypes using molecular markers for drought tolerance. |
| Q112593915 | Climate Smart Agriculture? Assessing the Adaptation Implications in Zambia |
| Q58486836 | Climate change adaptation and water saving by innovative irrigation management applied on open field globe artichoke |
| Q89977141 | Comparative Analysis of miRNA Expression Profiles Between Heat-Tolerant and Heat-Sensitive Genotypes of Flowering Chinese Cabbage Under Heat Stress Using High-Throughput Sequencing |
| Q89782373 | Comparative Analysis of the Effect of Inorganic and Organic Chemicals with Silver Nanoparticles on Soybean under Flooding Stress |
| Q58614774 | Comparative transcriptome analysis to elucidate the enhanced thermotolerance of tea plants (Camellia sinensis) treated with exogenous calcium |
| Q99589389 | Comparative transcriptome analysis uncovers different heat stress responses in heat-resistant and heat-sensitive jujube cultivars |
| Q36289258 | Comparative transcriptomic analysis reveals the roles of overlapping heat-/drought-responsive genes in poplars exposed to high temperature and drought |
| Q64082707 | Contribution of time of day and the circadian clock to the heat stress responsive transcriptome in Arabidopsis |
| Q38657915 | Crop Production under Drought and Heat Stress: Plant Responses and Management Options. |
| Q26776529 | Crop epigenetics and the molecular hardware of genotype × environment interactions |
| Q60911985 | Daytime temperature is sensed by phytochrome B in Arabidopsis through a transcriptional activator HEMERA |
| Q92539229 | De Novo Transcriptome Analysis of Durum Wheat Flag Leaves Provides New Insights Into the Regulatory Response to Elevated CO2 and High Temperature |
| Q38299097 | De novo transcriptome sequencing and gene expression profiling of spinach (Spinacia oleracea L.) leaves under heat stress |
| Q91155515 | Different ways to die in a changing world: Consequences of climate change for tree species performance and survival through an ecophysiological perspective |
| Q37708179 | Differential Proteomic Analysis by iTRAQ Reveals the Mechanism of Pyropia haitanensis Responding to High Temperature Stress |
| Q52647938 | Differential Regulation of Genes Involved in Root Morphogenesis and Cell Wall Modification is Associated with Salinity Tolerance in Chickpea. |
| Q89842450 | Differential physiological, transcriptomic and metabolomic responses of Arabidopsis leaves under prolonged warming and heat shock |
| Q59384495 | Disrupted Genome Methylation in Response to High Temperature Has Distinct Affects on Microspore Abortion and Anther Indehiscence |
| Q48336192 | Durum wheat diversity for heat stress tolerance during inflorescence emergence is correlated to TdHSP101C expression in early developmental stages. |
| Q91715331 | Early Response of Radish to Heat Stress by Strand-Specific Transcriptome and miRNA Analysis |
| Q64939063 | Effect of Heat Stress on Yield, Monoterpene Content and Antibacterial Activity of Essential Oils of Mentha x piperita var. Mitcham and Mentha arvensis var. piperascens. |
| Q50050766 | Effects of Caatinga Plant Extracts in Planktonic Growth and Biofilm Formation in Ralstonia solanacearum. |
| Q88779790 | Effects of heat stress in the leaf mitotic cell cycle and chromosomes of four wine-producing grapevine varieties |
| Q41702440 | Effects of salinity and drought on growth, ionic relations, compatible solutes and activation of antioxidant systems in oleander (Nerium oleander L.). |
| Q98735642 | Elevated Temperatures Impose Transcriptional Constraints and Elicit Intraspecific Differences Between Coffee Genotypes |
| Q64091839 | Elevated temperatures cause loss of seed set in common bean (Phaseolus vulgaris L.) potentially through the disruption of source-sink relationships |
| Q91668627 | Evaluation of late blight foliar resistance of potato cultivars in northern Baltic conditions |
| Q37345554 | Exogenous glutathione improves high root-zone temperature tolerance by modulating photosynthesis, antioxidant and osmolytes systems in cucumber seedlings. |
| Q38749515 | Exploring the heat-responsive chaperones and microsatellite markers associated with terminal heat stress tolerance in developing wheat |
| Q36003716 | Expression of OsMYB55 in maize activates stress-responsive genes and enhances heat and drought tolerance |
| Q94468769 | Extending thermotolerance to tomato seedlings by inoculation with SA1 isolate of Bacillus cereus and comparison with exogenous humic acid application |
| Q38626306 | Extreme weather-year sequences have non-additive effects on environmental nitrogen losses. |
| Q43231033 | Food Legumes and Rising Temperatures: Effects, Adaptive Functional Mechanisms Specific to Reproductive Growth Stage and Strategies to Improve Heat Tolerance |
| Q63342579 | Galactose-depleted xyloglucan is dysfunctional and leads to dwarfism in Arabidopsis |
| Q94545432 | Genetic Control of Reproductive Traits in Tomatoes Under High Temperature |
| Q38370711 | Genetic mechanisms of abiotic stress tolerance that translate to crop yield stability |
| Q30730498 | Genome scale transcriptional response diversity among ten ecotypes of Arabidopsis thaliana during heat stress |
| Q90045480 | Genome wide transcriptome analysis reveals vital role of heat responsive genes in regulatory mechanisms of lentil (Lens culinaris Medikus) |
| Q48160007 | Genome-Wide Association Mapping of Fertility Reduction upon Heat Stress Reveals Developmental Stage-Specific QTLs in Arabidopsis thaliana. |
| Q55638458 | Genome-Wide Identification and Characterization of Warming-Related Genes in Brassica rapa ssp. pekinensis. |
| Q38803246 | Genome-Wide Investigation of Hsf Genes in Sesame Reveals Their Segmental Duplication Expansion and Their Active Role in Drought Stress Response |
| Q58570403 | Genome-wide RNA structurome reprogramming by acute heat shock globally regulates mRNA abundance |
| Q35368559 | Genome-wide evolutionary characterization and analysis of bZIP transcription factors and their expression profiles in response to multiple abiotic stresses in Brachypodium distachyon |
| Q28079854 | Genomic Tools in Pearl Millet Breeding for Drought Tolerance: Status and Prospects |
| Q35671919 | Global Gene-Expression Analysis to Identify Differentially Expressed Genes Critical for the Heat Stress Response in Brassica rapa. |
| Q52687682 | HMG-CoA reductase from Camphor Tulsi (Ocimum kilimandscharicum) regulated MVA dependent biosynthesis of diverse terpenoids in homologous and heterologous plant systems. |
| Q57073110 | Harnessing the Potential of Forage Legumes, Alfalfa, Soybean, and Cowpea for Sustainable Agriculture and Global Food Security |
| Q38437761 | Heat Stress Regulates the Expression of Genes at Transcriptional and Post-Transcriptional Levels, Revealed by RNA-seq in Brachypodium distachyon |
| Q59137739 | Heat Stress Tolerance in Rice ( L.): Identification of Quantitative Trait Loci and Candidate Genes for Seedling Growth Under Heat Stress |
| Q52362235 | Heat and Drought Stresses in Crops and Approaches for Their Mitigation. |
| Q57073100 | Heat in Wheat: Exploit Reverse Genetic Techniques to Discover New Alleles Within the sHsp26 Family |
| Q42323519 | Heat stress induces ferroptosis-like cell death in plants. |
| Q38789456 | Heat stress regimes for the investigation of pollen thermotolerance in crop plants |
| Q90190824 | Heat stress responses in a large set of winter wheat cultivars (Triticum aestivum L.) depend on the timing and duration of stress |
| Q55502697 | Heat stress transcripts, differential expression, and profiling of heat stress tolerant gene TaHsp90 in Indian wheat (Triticum aestivum L.) cv C306. |
| Q36341126 | Heat stress-induced effects of photosystem I: an overview of structural and functional responses |
| Q47099111 | Heat-Responsive Photosynthetic and Signaling Pathways in Plants: Insight from Proteomics |
| Q51028115 | Heterologous expression of three Camellia sinensis small heat shock protein genes confers temperature stress tolerance in yeast and Arabidopsis thaliana. |
| Q53158038 | High Temperature Affects Photosynthetic and Molecular Processes in Field-Cultivated Vitis vinifera L. × Vitis labrusca L. |
| Q31151044 | Hormonal regulation of reproductive growth under normal and heat-stress conditions in legume and other model crop species |
| Q64911632 | Hydroxyproline-Rich Glycoproteins as Markers of Temperature Stress in the Leaves of Brachypodium distachyon. |
| Q97529385 | Identification of Heat-Responsive Genes in Guar [Cyamopsis tetragonoloba (L.) Taub] |
| Q33707469 | Identification of High-Temperature Tolerant Lentil (Lens culinaris Medik.) Genotypes through Leaf and Pollen Traits |
| Q37083939 | Identification of Putative RuBisCo Activase (TaRca1)-The Catalytic Chaperone Regulating Carbon Assimilatory Pathway in Wheat (Triticum aestivum) under the Heat Stress. |
| Q36529949 | Identification of an attenuated barley stripe mosaic virus for the virus-induced gene silencing of pathogenesis-related wheat genes |
| Q90781792 | Identification of conserved and novel miRNAs responsive to heat stress in flowering Chinese cabbage using high-throughput sequencing |
| Q46206804 | Identifying potential molecular factors involved in Bacillus amyloliquefaciens 5113 mediated abiotic stress tolerance in wheat. |
| Q37273264 | Impact of Phenylpropanoid Compounds on Heat Stress Tolerance in Carrot Cell Cultures |
| Q58596421 | Impacts of Strain PsJN on Tomato ( L.) Under High Temperature |
| Q38743827 | Impacts of leaf age and heat stress duration on photosynthetic gas exchange and foliar nonstructural carbohydrates in Coffea arabica |
| Q64269501 | Improving Potato Stress Tolerance and Tuber Yield Under a Climate Change Scenario - A Current Overview |
| Q46392736 | In Brachypodium a complex signaling is actuated to protect cells from proteotoxic stress and facilitate seed filling |
| Q28817001 | Increase of Chamazulene and α-Bisabolol Contents of the Essential Oil of German Chamomile (Matricaria chamomilla L.) Using Salicylic Acid Treatments under Normal and Heat Stress Conditions |
| Q99615020 | Increasing Air Temperatures and Its Effects on Growth and Productivity of Tomato in South Florida |
| Q39042150 | Integrating Omics and Alternative Splicing Reveals Insights into Grape Response to High Temperature. |
| Q89552113 | Interaction between the Circadian Clock and Regulators of Heat Stress Responses in Plants |
| Q58697862 | Interactive Responses of Potato (Solanum tuberosum L.) Plants to Heat Stress and Infection With Potato Virus Y |
| Q58090559 | Intracanopy adjustment of leaf-level thermal tolerance is associated with microclimatic variation across the canopy of a desert tree (Acacia papyrocarpa) |
| Q38906368 | Involvement of DNA methylation in the control of cell growth during heat stress in tobacco BY-2 cells |
| Q91869005 | Last-Generation Genome-Environment Associations Reveal the Genetic Basis of Heat Tolerance in Common Bean (Phaseolus vulgaris L.). |
| Q92634879 | Leaf Gas Exchange Performance of Ten Quinoa Genotypes under a Simulated Heat Wave |
| Q49828172 | Lignins: Biosynthesis and Biological Functions in Plants. |
| Q92504048 | Long short-term memory for a model-free estimation of macronutrient ion concentrations of root-zone in closed-loop soilless cultures |
| Q38212134 | MAPK cascades and major abiotic stresses. |
| Q90480052 | Marginal Lands to Grow Novel Bio-Based Crops: A Plant Breeding Perspective |
| Q50034050 | Melatonin Alleviates High Temperature-Induced Pollen Abortion in Solanum lycopersicum. |
| Q39309574 | Molecular Mechanisms behind the Physiological Resistance to Intense Transient Warming in an Iconic Marine Plant. |
| Q92864262 | Molecular and genetic bases of heat stress responses in crop plants and breeding for increased resilience and productivity |
| Q30314689 | Molecular and genetic control of plant thermomorphogenesis |
| Q42534914 | Morphological and physiological characterization of different genotypes of faba bean under heat stress. |
| Q36391115 | Mutualistic fungal endophytes produce phytohormones and organic acids that promote japonica rice plant growth under prolonged heat stress |
| Q59133573 | Neural Net Classification Combined With Movement Analysis to Evaluate as a Model System for Time of Day of Anther Appearance |
| Q35915370 | Nucleolar DEAD-Box RNA Helicase TOGR1 Regulates Thermotolerant Growth as a Pre-rRNA Chaperone in Rice |
| Q41526905 | Optimum Temperatures for Net Primary Productivity of Three Tropical Seagrass Species. |
| Q41413190 | Overexpression of Arabidopsis P3B increases heat and low temperature stress tolerance in transgenic sweetpotato |
| Q50021383 | Overexpression of a constitutively active truncated form of OsCDPK1 confers disease resistance by affecting OsPR10a expression in rice. |
| Q36511256 | Phenylpropanoids Accumulation in Eggplant Fruit: Characterization of Biosynthetic Genes and Regulation by a MYB Transcription Factor |
| Q33838659 | Photoreceptor PhyB Involved in Arabidopsis Temperature Perception and Heat-Tolerance Formation |
| Q92636770 | Photosynthetic Metabolism under Stressful Growth Conditions as a Bases for Crop Breeding and Yield Improvement |
| Q60916962 | Physiological Analysis and Proteome Quantification of Alligator Weed Stems in Response to Potassium Deficiency Stress |
| Q92188988 | Physiological Traits for Shortening Crop Duration and Improving Productivity of Greengram (Vigna radiata L. Wilczek) Under High Temperature |
| Q39106088 | Physiological and transcriptional regulation in poplar roots and leaves during acclimation to high temperature and drought |
| Q26748563 | Plant Heat Adaptation: priming in response to heat stress |
| Q58831236 | Plant Responses and Tolerance to High Temperature Stress: Role of Exogenous Phytoprotectants |
| Q26741578 | Plant developmental responses to climate change |
| Q41782708 | Plant responses to environmental stresses-from gene to biotechnology |
| Q33957463 | Plastid casein kinase 2 knockout reduces abscisic acid (ABA) sensitivity, thermotolerance, and expression of ABA- and heat-stress-responsive nuclear genes |
| Q123351276 | Population divergence in heat and drought responses of a coastal plant: from metabolic phenotypes to plant morphology and growth |
| Q38226330 | Prospects of engineering thermotolerance in crops through modulation of heat stress transcription factor and heat shock protein networks |
| Q28597148 | Protective Response Mechanisms to Heat Stress in Interaction with High [CO2] Conditions in Coffea spp |
| Q37625373 | Proteomic Analysis Reveals the Positive Effect of Exogenous Spermidine in Tomato Seedlings' Response to High-Temperature Stress |
| Q59335794 | Proteomics of Heat-Stress and Ethylene-Mediated Thermotolerance Mechanisms in Tomato Pollen Grains |
| Q38974332 | Quantifying pearl millet response to high temperature stress: thresholds, sensitive stages, genetic variability and relative sensitivity of pollen and pistil. |
| Q40063441 | Quantitative Disease Resistance under Elevated Temperature: Genetic Basis of New Resistance Mechanisms to Ralstonia solanacearum |
| Q34530966 | Quantitative proteomics reveals the effect of protein glycosylation in soybean root under flooding stress |
| Q31145540 | Quantitative trait loci mapping of heat tolerance in broccoli (Brassica oleracea var. italica) using genotyping-by-sequencing |
| Q59443000 | Quinoa Abiotic Stress Responses: A Review |
| Q50052111 | Rapid responses of plants to temperature changes. |
| Q28074193 | Regulation of Non-coding RNAs in Heat Stress Responses of Plants |
| Q26749513 | Regulatory Networks in Pollen Development under Cold Stress |
| Q57928451 | Relationship between High Temperature and Formation of Chalkiness and Their Effects on Quality of Rice |
| Q64932550 | Response mechanisms induced by exposure to high temperature in anthers from thermo-tolerant and thermo-sensitive tomato plants: A proteomic perspective. |
| Q47157436 | Responsive Proteins in Wheat Cultivars with Contrasting Nitrogen Efficiencies under the Combined Stress of High Temperature and Low Nitrogen. |
| Q52879077 | Ribosomal P3 protein AtP3B of Arabidopsis acts as both protein and RNA chaperone to increase tolerance of heat and cold stresses. |
| Q28075740 | Role of Proteomics in Crop Stress Tolerance |
| Q28082506 | Role of redox homeostasis in thermo-tolerance under a climate change scenario |
| Q95841064 | Root Growth Adaptation to Climate Change in Crops |
| Q26742138 | Salinity and High Temperature Tolerance in Mungbean [Vigna radiata (L.) Wilczek] from a Physiological Perspective |
| Q41632989 | Selection of reference genes suitable for normalization of qPCR data under abiotic stresses in bioenergy crop Arundo donax L. |
| Q89542194 | Selection of tomato landraces with high fruit yield and nutritional quality under elevated temperatures |
| Q92001108 | Sensitivity and Responses of Chloroplasts to Heat Stress in Plants |
| Q92187884 | Sensitivity of plant species to warming and altered precipitation dominates the community productivity in a semiarid grassland on the Loess Plateau |
| Q31108050 | Sex, Scavengers, and Chaperones: Transcriptome Secrets of Divergent Symbiodinium Thermal Tolerances |
| Q89965840 | Silicon Confers Soybean Resistance to Salinity Stress Through Regulation of Reactive Oxygen and Reactive Nitrogen Species |
| Q31148130 | Simulating US agriculture in a modern Dust Bowl drought |
| Q46403435 | Sterol glycosyltransferases required for adaptation of Withania somnifera at high temperature. |
| Q36083151 | Temperature desynchronizes sugar and organic acid metabolism in ripening grapevine fruits and remodels their transcriptome |
| Q38707119 | Temperature drives the assembly of endophytic communities' seasonal succession |
| Q57897967 | Temperature stress and redox homeostasis in agricultural crops |
| Q46268090 | Temperatures during flower bud development affect pollen germination, self-incompatibility reaction and early fruit development of clementine (Citrus clementina Hort. ex Tan.). |
| Q38855926 | The "STAY-GREEN" trait and phytohormone signaling networks in plants under heat stress |
| Q36372425 | The Greater Phenotypic Homeostasis of the Allopolyploid Coffea arabica Improved the Transcriptional Homeostasis Over that of Both Diploid Parents |
| Q26767478 | The Plant Heat Stress Transcription Factors (HSFs): Structure, Regulation, and Function in Response to Abiotic Stresses |
| Q54118467 | The cyclin-dependent kinase G group defines a thermo-sensitive alternative splicing circuit modulating the expression of Arabidopsis ATU2AF65A. |
| Q50535038 | Thermopriming Triggers Splicing Memory in Arabidopsis. |
| Q60907686 | Thermopriming reprograms metabolic homeostasis to confer heat tolerance |
| Q39215061 | Thermotolerance and heat stress responses of Douglas-fir and ponderosa pine seedling populations from contrasting climates. |
| Q48233063 | Tissue-Specific Transcriptomics Reveals an Important Role of the Unfolded Protein Response in Maintaining Fertility upon Heat Stress in Arabidopsis. |
| Q92879211 | Towards Exploitation of Adaptive Traits for Climate-Resilient Smart Pulses |
| Q64937925 | Transcriptional profiling and genes involved in acquired thermotolerance in Banana: a non-model crop. |
| Q42951915 | Transcriptionally and post-transcriptionally regulated microRNAs in heat stress response in barley |
| Q64260131 | Transcriptome Analyses Provide Novel Insights into Heat Stress Responses in Chieh-Qua ( Cogn. var. Chieh-Qua How) |
| Q58617482 | Transcriptome Analysis of Gene Expression Patterns Potentially Associated with Premature Senescence in L |
| Q92003124 | Transcriptome analysis and codominant markers development in caper, a drought tolerant orphan crop with medicinal value |
| Q55293172 | Transcriptome analysis of microRNA156 overexpression alfalfa roots under drought stress. |
| Q92833409 | Transgenic tomatoes for abiotic stress tolerance: status and way ahead |
| Q48050281 | Two rice receptor-like kinases maintain male fertility under changing temperatures. |
| Q102328146 | UK's fruit and vegetable supply increasingly dependent on imports from climate vulnerable producing countries |
| Q39093005 | Wheat Phenological Development and Growth Studies As Affected by Drought and Late Season High Temperature Stress under Arid Environment |
| Q50283997 | Wheat cultivars differing in heat tolerance show a differential response to oxidative stress during monocarpic senescence under high temperature stress. |
| Q26752493 | When Bad Guys Become Good Ones: The Key Role of Reactive Oxygen Species and Nitric Oxide in the Plant Responses to Abiotic Stress |
| Q47613495 | ZEITLUPE Contributes to a Thermoresponsive Protein Quality Control System in Arabidopsis |
| Q38716101 | microRNAs involved in auxin signalling modulate male sterility under high-temperature stress in cotton (Gossypium hirsutum). |
Search more.