| Abs # |
Presenter |
Title |
139
| Ristic, Zoran
| Heat-induced expression of EF-Tu gene(s) in two lines of maize with contrasting tolerance to heat stress | |
140
| Kaplan, Fatma
| Beta-Amylase RNAi Lines Exhibit Increased Sensitivity Of Photosynthetic Electron Transport Chain To Freezing Stress | |
141
| Xin, Zhanguo
| ESK1 encodes a novel regulator of freezing tolerance | |
142
| Yu, Chih-Wen
| Double hydrogen peroxide treatment induced a chilling tolerance response in mung bean seedlings comparable to cold acclimation. | |
143
| Lin, Tsai-Yun
| Exploring cold stress-responded gene expression in Vigna radiata | |
144
| Hong, Joon Ki
| Identification of permissive high temperature-regulated genes in Chinese Cabbage by arrayed ESTs | |
145
| Rensink, Willem A.
| Analysis of Temperature Stress Responses in Potato, Solanum tuberosum, by Comparative and Functional Genomics Approaches | |
146
| Brodl, Mark R.
| Heat shock-induced destabilization of α-amylase mRNA in barley aleurone layers requires elements in the signal sequence and 3' untranslated regions | |
147
| Simonovic, Ana D.
| Effect of Chilling and Acclimation on the Activity of Glutamine Synthetase Isoforms in Maize Seedlings | |
148
| Qureshi, Samina N
| Isolation and characterization of Cp-sHSP genes involved in thermotolerance of plants | |
149
| Cantrill, Laurence C.
| Chilling and tubular vacuoles in cereal anthers | |
150
| Ullah, Hemayet
| Dimerization of Scaffold Proteins: Potential Role in RACK1/AtArcA-mediated Heat Signal Transduction Pathways in Arabidopsis | |
151
| Lokuge, Meepa A.
| A proteomic approach to investigate the cold tolerance mechanism in needle palm ( Rhapidophyllum hystrix ) | |
152
| Zhang, Cankui
| Identification and characterization of cold acclimated genes in leaves of Citrus unshiu and Poncirus trifoliata | |
153
| Louzada, Eliezer S
| Isolation, Characterization and Expression Analysis of Cold Responsive Genes from Poncirus trifoliate | |
154
| Ancona, Veronica
| Isolation and Expression Analysis of Cold Responsive Genes from Poncirus trifoliata | |
155
| Saibo, Nelson JM
| Transcription factors regulating abiotic stress tolerance in rice (Oryza sativa L.) | |
156
| Champ, Karen I
| The role of CBF transcriptional activators in two Rutaceae species with contrasting levels of freezing tolerance | |
157
| Kim, Keun P
| Heat-Induced Change in Subcellular Localization and Thermal Protection Role of Small Heat Shock Protein | |
158
| Lin, Chu-Yung
| A Novel cis-Element That is Responsive to Amino Acid Analogues Regulates Class I Small Heat Shock Protein Genes in Rice | |
159
| Do, Jung H
| The role of ethylene during reproductive development in wheat (Triticum aestivum) under high temperature stress | |
160
| Mason, Esten
| eQTL mapping heat tolerance during reproductive development in wheat (Triticum aestivum) | |
161
| lu, li
| The identification of CBF/DREB homologs in cold-hardy and cold-sensitive palms | |
162
| Jain, Mukesh
| Gene expression analyses of sucrose-to-starch metabolism during microsporogenesis in sorghum grown under high temperature conditions | |
163
| Koehler, Gage
| Subcellular localization and function of Arabidopsis dehydrins | |
164
| Matsuura, Hideyuki
| The properties of the 5' untranslated region of Arabidopsis Hsp81-3 mRNA that is efficiently translated under heat stress condition. | |
165
| Uemura, Matsuo
| Induction of Freezing Tolerance of Arabidopsis Suspension Cultured Cells after Cold or ABA Treatment | |
166
| Arakawa, Keita
| Effect of acid condition in a process of freeze-thaw on wintering plant | |
167
| Huang, Bin
| Proteome Analysis of Mungbean Epicotyl Proteins Regulated by Brassinosteroid under Chilling Stress | |
168
| Mikhalkova, Deana
| Respiration and Thermal Properties of Arabidopsis SSI2 and FAB1 Mutants | |
169
| Yekkirala, Ajay
| Comparison of cold adaptation and cold acclimation responses using cDNA microarrays | |
170
| Singa, Rama Priya N
| Analysis of the RootCAR1 Promoter in Alfalfa (Medicago sativa L.) Mesophyll and Root Tissue Protoplasts | |
171
| Haggag, A
| The Arabidopsis AtHSBP is a potential negative regulator of heat stress response | |
172
| Milton, Angenee C
| Determining If Dual TATA Elements in RootCAR1 Promoter Have Functional Alternative Transcription Start Sites in Alfalfa (Medicago sativa L.) Abiotic-Stressed Plants | |
173
| Quaye, Laura K
| Expression of RootCAR1 in Seedlings of Alfalfa (Medicago sativa L.) exposed to Exogenous ABA, Cold, Dehydration, and Salinity | |
174
| Hsu, Fu-Chiun
| Identification and characterization of a novel heat-shock protein that is required for thermotolerance in Arabidopsis thaliana | |
175
| Wherry, Kevin G
| Cryopreservation of the haplophase of the classic unicellular model, Acetabularia acetabulum | |
176
| Morales, Paul C.
| Seasonal changes in relative abundance and phosphorylation status of light harvesting and reaction center proteins in Pinus strobus and Abies balsamea. | |
177
| Cong, Peisheng
| Profiling The Genes Expression Of Cotton (Gossypium hirsutum) During Drought And Heat Stress | |
178
| Chang, Pi-Fang Linda
| The class II small heat shock gene of rice (Oryza sativa L.), Oshsp18.0-CII, is induced by heat stress, mechanical injury, and also confers tolerance to heat and UV stresses when overexpressing it in Escherichia coli | |
