| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1050152128 |
| P356 | DOI | 10.1186/1471-2164-8-125 |
| P932 | PMC publication ID | 1887538 |
| P698 | PubMed publication ID | 17519032 |
| P5875 | ResearchGate publication ID | 6313743 |
| P50 | author | Andreas P.M. Weber | Q55837467 |
| Marianne Huebner | Q90742049 | ||
| P2093 | author name string | William R Swindell | |
| P2860 | cites work | Linear models and empirical bayes methods for assessing differential expression in microarray experiments | Q27860758 |
| Cytosolic heat-stress proteins Hsp17.7 class I and Hsp17.3 class II of tomato act as molecular chaperones in vivo | Q28141034 | ||
| The Hsp90 family of proteins in Arabidopsis thaliana | Q28361507 | ||
| Identifying differentially expressed genes using false discovery rate controlling procedures | Q29615200 | ||
| A gene expression map of Arabidopsis thaliana development | Q29617330 | ||
| Small heat shock proteins and stress tolerance in plants. | Q30331340 | ||
| The expanding family of Arabidopsis thaliana small heat stress proteins and a new family of proteins containing alpha-crystallin domains (Acd proteins) | Q30662404 | ||
| Expression of the chloroplast-localized small heat shock protein by oxidative stress in rice | Q30846943 | ||
| Wound signalling in plants. | Q31960771 | ||
| Expression of small heat-shock proteins at low temperatures. A possible role in protecting against chilling injuries | Q32061206 | ||
| Heat-shock proteins, molecular chaperones, and the stress response: evolutionary and ecological physiology | Q33547229 | ||
| Could heat shock transcription factors function as hydrogen peroxide sensors in plants? | Q33578610 | ||
| Muscle-specific expression of Drosophila hsp70 in response to aging and oxidative stress | Q33841276 | ||
| A small heat shock protein stably binds heat-denatured model substrates and can maintain a substrate in a folding-competent state | Q33886098 | ||
| Arabidopsis transcript profiling on Affymetrix GeneChip arrays | Q57831542 | ||
| Global changes in gene expression in response to high light in Arabidopsis | Q58057291 | ||
| Ultraviolet-B exposure leads to up-regulation of senescence-associated genes in Arabidopsis thaliana | Q74120778 | ||
| Regulation of the Arabidopsis transcriptome by oxidative stress | Q74504465 | ||
| UV-B-Induced PR-1 Accumulation Is Mediated by Active Oxygen Species | Q74813086 | ||
| Regulation of the heat-shock response | Q77079440 | ||
| Heat stress-induced H(2)O (2) is required for effective expression of heat shock genes in Arabidopsis | Q80081976 | ||
| Gene expression profiling of potato responses to cold, heat, and salt stress | Q81692117 | ||
| The zinc-finger protein Zat12 plays a central role in reactive oxygen and abiotic stress signaling in Arabidopsis | Q94460114 | ||
| The role of calcium and activated oxygens as signals for controlling cross-tolerance | Q33934289 | ||
| Cellular response to oxidative stress: signaling for suicide and survival | Q34138566 | ||
| Small heat-shock proteins regulate membrane lipid polymorphism | Q34159787 | ||
| Arabidopsis and the heat stress transcription factor world: how many heat stress transcription factors do we need? | Q34400602 | ||
| Heat shock proteins: modifying factors in physiological stress responses and acquired thermotolerance | Q34605740 | ||
| Common components, networks, and pathways of cross-tolerance to stress. The central role of "redox" and abscisic acid-mediated controls | Q34688914 | ||
| Acquired tolerance to temperature extremes | Q35113436 | ||
| Genomic analysis of the Hsp70 superfamily in Arabidopsis thaliana | Q35129835 | ||
| Arabidopsis thaliana Hsp100 proteins: kith and kin. | Q35129844 | ||
| Role of oxidative stress in Drosophila aging | Q35341166 | ||
| Reactive oxygen signalling: the latest news | Q35768826 | ||
| Abiotic stress, the field environment and stress combination | Q36344493 | ||
| A small heat shock protein cooperates with heat shock protein 70 systems to reactivate a heat-denatured protein | Q38316600 | ||
| Transcriptome changes for Arabidopsis in response to salt, osmotic, and cold stress | Q39148226 | ||
| A mutation affecting ASCORBATE PEROXIDASE 2 gene expression reveals a link between responses to high light and drought tolerance | Q39410174 | ||
| At-HSP17.6A, encoding a small heat-shock protein in Arabidopsis, can enhance osmotolerance upon overexpression. | Q39498613 | ||
| Methods and concepts in quantifying resistance to drought, salt and freezing, abiotic stresses that affect plant water status | Q39558773 | ||
| Plastic and adaptive gene expression patterns associated with temperature stress in Arabidopsis thaliana. | Q40217191 | ||
| Transcriptomic footprints disclose specificity of reactive oxygen species signaling in Arabidopsis. | Q40335441 | ||
| The chloroplast small heat shock protein undergoes oxidation-dependent conformational changes and may protect plants from oxidative stress | Q40425081 | ||
| Formation of cytoplasmic heat shock granules in tomato cell cultures and leaves | Q40680336 | ||
| Proteasome inhibition in oxidative stress neurotoxicity: implications for heat shock proteins. | Q40804834 | ||
| Mammalian small stress proteins protect against oxidative stress through their ability to increase glucose-6-phosphate dehydrogenase activity and by maintaining optimal cellular detoxifying machinery | Q40970810 | ||
| Analysis of the resistance to heat and hydrogen peroxide stresses in COS cells transiently expressing wild type or deletion mutants of the Drosophila 27-kDa heat-shock protein | Q41541767 | ||
| Heat stress- and heat shock transcription factor-dependent expression and activity of ascorbate peroxidase in Arabidopsis | Q42522452 | ||
| rHsp90 gene expression in response to several environmental stresses in rice (Oryza sativa L.). | Q42594568 | ||
| Transcriptional profiling reveals novel interactions between wounding, pathogen, abiotic stress, and hormonal responses in Arabidopsis | Q44030503 | ||
| Growth suppression, altered stomatal responses, and augmented induction of heat shock proteins in cytosolic ascorbate peroxidase (Apx1)‐deficient Arabidopsis plants | Q44402988 | ||
| Rapid induction of distinct stress responses after the release of singlet oxygen in Arabidopsis | Q44595383 | ||
| Development and evaluation of an Arabidopsis whole genome Affymetrix probe array | Q44846241 | ||
| Characterization of the genomic structures and selective expression profiles of nine class I small heat shock protein genes clustered on two chromosomes in rice (Oryza sativa L.). | Q46415749 | ||
| Heat stress phenotypes of Arabidopsis mutants implicate multiple signaling pathways in the acquisition of thermotolerance | Q46516457 | ||
| Ultraviolet-B-induced oxidative stress and responses of the ascorbate-glutathione cycle in a marine macroalga Ulva fasciata | Q46699131 | ||
| Dissecting salt stress pathways | Q46970830 | ||
| Accumulation of small heat shock proteins, including mitochondrial HSP22, induced by oxidative stress and adaptive response in tomato cells. | Q47779941 | ||
| Acquisition of Thermotolerance in Soybean Seedlings : Synthesis and Accumulation of Heat Shock Proteins and their Cellular Localization | Q47933364 | ||
| Differential regulation of small heat-shock genes in plants: analysis of a water-stress-inducible and developmentally activated sunflower promoter | Q48062512 | ||
| Arabidopsis Hsa32, a novel heat shock protein, is essential for acquired thermotolerance during long recovery after acclimation. | Q48098390 | ||
| Dual role for tomato heat shock protein 21: protecting photosystem II from oxidative stress and promoting color changes during fruit maturation | Q48138608 | ||
| Alfalfa heat shock genes are differentially expressed during somatic embryogenesis | Q48223592 | ||
| A discussion of statistical methods for design and analysis of microarray experiments for plant scientists. | Q51933579 | ||
| The expression of small heat shock proteins in seeds responds to discrete developmental signals and suggests a general protective role in desiccation tolerance. | Q52169319 | ||
| DNA microarray analysis of cyanobacterial gene expression during acclimation to high light. | Q53894778 | ||
| P4510 | describes a project that uses | limma | Q112236343 |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 125 | |
| P577 | publication date | 2007-05-22 | |
| P1433 | published in | BMC Genomics | Q15765854 |
| P1476 | title | Transcriptional profiling of Arabidopsis heat shock proteins and transcription factors reveals extensive overlap between heat and non-heat stress response pathways | |
| P478 | volume | 8 |
| Q26770650 | A Bird's-Eye View of Molecular Changes in Plant Gravitropism Using Omics Techniques |
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| Q35050506 | A seed preferential heat shock transcription factor from wheat provides abiotic stress tolerance and yield enhancement in transgenic Arabidopsis under heat stress environment. |
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| Q55048638 | Arabidopsis HEAT SHOCK TRANSCRIPTION FACTORA1b regulates multiple developmental genes under benign and stress conditions. |
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| Q53260507 | AtHsp70-15-deficient Arabidopsis plants are characterized by reduced growth, a constitutive cytosolic protein response and enhanced resistance to TuMV. |
| Q91708223 | Automated Imaging, Tracking, and Analytics Pipeline for Differentiating Environmental Effects on Root Meristematic Cell Division |
| Q33347365 | BOBBER1 is a noncanonical Arabidopsis small heat shock protein required for both development and thermotolerance. |
| Q38333750 | Binding affinities and interactions among different heat shock element types and heat shock factors in rice (Oryza sativa L.). |
| Q33353249 | Cell type-specific transcriptional profiling: implications for metabolite profiling |
| Q38524702 | Cellular Mechanisms of Oxidative Stress and Action in Melanoma. |
| Q33674213 | Cellular stress responses: cell survival and cell death |
| Q38304970 | Chaperone network composition in Solanum lycopersicum explored by transcriptome profiling and microarray meta-analysis |
| Q35633339 | Cloning and expression analysis of HSP70 gene from mangrove plant Kandelia obovata under cold stress |
| Q55381829 | Combining niche shift and population genetic analyses predicts rapid phenotypic evolution during invasion. |
| Q58106975 | Comparative physiology and transcriptional networks underlying the heat shock response in Populus trichocarpa, Arabidopsis thaliana and Glycine max |
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| Q38784155 | Computational gene expression profiling under salt stress reveals patterns of co-expression |
| Q38477563 | Conservation and divergence of gene expression plasticity following c. 140 million years of evolution in lodgepole pine (Pinus contorta) and interior spruce (Picea glauca×Picea engelmannii). |
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| Q39350993 | Early transcriptional responses to mercury: a role for ethylene in mercury-induced stress. |
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| Q57255318 | Enhancing Abiotic Stress Tolerance in Cereals Through Breeding and Transgenic Interventions |
| Q34979169 | Gene expression changes in response to drought stress in Citrullus colocynthis |
| Q38471754 | Gene expression plasticity resulting from parental leaf damage in Mimulus guttatus |
| Q36885589 | Genetic Screening for Arabidopsis Mutants Defective in STA1 Regulation under Thermal Stress Implicates the Existence of Regulators of Its Specific Expression, and the Genetic Interactions in the Stress Signaling Pathways |
| Q42476885 | Genome Structures and Halophyte-Specific Gene Expression of the Extremophile Thellungiella parvula in Comparison with Thellungiella salsuginea (Thellungiella halophila) and Arabidopsis |
| Q28655486 | Genome duplication and gene loss affect the evolution of heat shock transcription factor genes in legumes |
| 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) |
| Q42211861 | Genome-Wide Analysis of the PvHsp20 Family in Switchgrass: Motif, Genomic Organization, and Identification of Stress or Developmental-Related Hsp20s |
| Q49416541 | Genome-Wide Characterization of bHLH Genes in Grape and Analysis of their Potential Relevance to Abiotic Stress Tolerance and Secondary Metabolite Biosynthesis |
| Q37625448 | Genome-Wide Dissection of the Heat Shock Transcription Factor Family Genes in Arachis |
| Q36811616 | Genome-Wide Identification and Function Analyses of Heat Shock Transcription Factors in Potato |
| Q38803246 | Genome-Wide Investigation of Hsf Genes in Sesame Reveals Their Segmental Duplication Expansion and Their Active Role in Drought Stress Response |
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| Q36097987 | Genome-wide analysis and expression profiling under heat and drought treatments of HSP70 gene family in soybean (Glycine max L.). |
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| Q37227673 | Genome-wide analysis of heat shock proteins in C4 model, foxtail millet identifies potential candidates for crop improvement under abiotic stress. |
| Q34975765 | Genome-wide analysis of the Hsp20 gene family in soybean: comprehensive sequence, genomic organization and expression profile analysis under abiotic and biotic stresses. |
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| Q34208105 | Leaf temperatures in glasshouses and open-top chambers. |
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| Q26774634 | Multi-Level Interactions Between Heat Shock Factors, Heat Shock Proteins, and the Redox System Regulate Acclimation to Heat |
| Q45922915 | Mutations in an Arabidopsis mitochondrial transcription termination factor-related protein enhance thermotolerance in the absence of the major molecular chaperone HSP101. |
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| Q90640045 | Over-Expression of the Heat-Responsive Wheat Gene TaHSP23.9 in Transgenic Arabidopsis Conferred Tolerance to Heat and Salt Stress |
| Q34339398 | Overall picture of expressed Heat Shock Factors in Glycine max, Lotus japonicus and Medicago truncatula |
| Q42314269 | Overexpression of CaAPX Induces Orchestrated Reactive Oxygen Scavenging and Enhances Cold and Heat Tolerances in Tobacco |
| Q53077833 | Patterns of alternative splicing vary between species during heat stress. |
| Q35147395 | Phosphoproteins regulated by heat stress in rice leaves |
| Q93067787 | Photosynthetic response to increased irradiance correlates to variation in transcriptional response of lipid-remodeling and heat-shock genes |
| Q36743471 | Physiological Investigation and Transcriptome Analysis of Polyethylene Glycol (PEG)-Induced Dehydration Stress in Cassava |
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| Q36913632 | Physiological, biochemical, and molecular mechanisms of heat stress tolerance in plants |
| Q43160589 | Potato (Solanum tuberosum L.) tuber ageing induces changes in the proteome and antioxidants associated with the sprouting pattern. |
| Q91816878 | Pre-harvest climate and post-harvest acclimation to cold prevent from superficial scald development in Granny Smith apples |
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| Q35031438 | Recovery from heat, salt and osmotic stress in Physcomitrella patens requires a functional small heat shock protein PpHsp16.4. |
| Q34337304 | Redox regulation of the stability of the SUMO protease SENP3 via interactions with CHIP and Hsp90. |
| Q33588106 | Regulation of Arabidopsis defense responses against Spodoptera littoralis by CPK-mediated calcium signaling |
| Q24336468 | SIRT4 represses peroxisome proliferator-activated receptor α activity to suppress hepatic fat oxidation |
| Q56993991 | Selenite transiently represses transcription of photosynthesis-related genes in potato leaves |
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| Q39084839 | The heat-stress factor HSFA6b connects ABA signaling and ABA-mediated heat responses. |
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| Q48233063 | Tissue-Specific Transcriptomics Reveals an Important Role of the Unfolded Protein Response in Maintaining Fertility upon Heat Stress in Arabidopsis. |
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| Q28554379 | Transcriptome Analysis of the Response to NaCl in Suaeda maritima Provides an Insight into Salt Tolerance Mechanisms in Halophytes |
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| Q35576377 | Transcriptome assembly, profiling and differential gene expression analysis of the halophyte Suaeda fruticosa provides insights into salt tolerance |
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| Q35863282 | Transcriptome profiling and validation of gene based single nucleotide polymorphisms (SNPs) in sorghum genotypes with contrasting responses to cold stress |
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| Q37513018 | Transcriptomic Profiling of Soybean in Response to High-Intensity UV-B Irradiation Reveals Stress Defense Signaling |
| Q91616842 | Transcriptomic reprogramming of barley seminal roots by combined water deficit and salt stress |
| Q34074634 | Transcriptomic resilience to global warming in the seagrass Zostera marina, a marine foundation species |
| Q58766271 | UBXN2A enhances CHIP-mediated proteasomal degradation of oncoprotein mortalin-2 in cancer cells |
| Q51477274 | Universal sample preparation method integrating trichloroacetic acid/acetone precipitation with phenol extraction for crop proteomic analysis. |
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| Q42008100 | Uptake of non-pathogenic E. coli by Arabidopsis induces down-regulation of heat shock proteins |
| Q35968841 | Using a Candidate Gene-Based Genetic Linkage Map to Identify QTL for Winter Survival in Perennial Ryegrass |
| Q28833186 | WikiPathways for plants: a community pathway curation portal and a case study in rice and arabidopsis seed development networks |
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