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For Environmental Physiology

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IDTitleSection/TopicAuthorsKeywords
1438Allelochemical stress and abscisic acid in Lycopersicon esculentum Mill
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Environmental PhysiologyLara-Núńez, Aurora; Anaya, Ana Luisa; Cruz-Ortega, Rocio.ABA, allelochemical stress, Sicyos deppei, Lycopersicon esculentum, mycropilar endosperm, cell cycle
328Applied water deficits accelerate ripening and induce changes in gene expression regulating flavonoid biosynthesis in grapevine
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Environmental PhysiologyCastellarin, S.D.; Gambetta, G.A.; Matthews, M.A..Water stress
anthocyanin
flavonol
494Arabidopsis Calcium Sensors Regulate Transition to Flowering and Nitric Oxide Accumulation
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Environmental PhysiologyTsai, Yu-Chang; Delk, Nikki; Chowdhury, Naweed; Braam, Janet.Calmodulin-like
nitric oxide
flowering
397Arabidopsis Receptor for Activated C Kinase 1 (RACK1) scaffold proteins regulate diverse environmental stress signaling pathways
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Environmental PhysiologyUllah, Hemayet; Uvetta, Dozier; McLauchlin, April; Kundu, Nabanita; Fennel, Herman.Drought
oxidative stress
Photosynthesis
protein-protein interaction
RACK1
split-ubiquitin
2008A Simplified Method for the Measurement of Proline in Stressed Tissues
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Environmental PhysiologyPatitucci, Teresa; Feirer, Russ.drought stress
proline
Ceratopteris richardii
Fern
Arabidopsis thaliana
241A strong Arabidopsis guard cell promoter
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Environmental PhysiologyYang, Yingzhen; Costa, Alex; Schroeder, Julian.guard cell
promoter
calcium imaging
2099Attenuated Stomatal Response to ABA under Supraoptimal CO2
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Environmental PhysiologyLevine, Lanfang H.; Richards, Jeffrey; Wheeler, Raymond M..Elevated CO2
Abscisic Acid
stomatal conductance
Soybean
1711A two-plane response to temperature and photoperiod in Arabidopsis thaliana: the result of two different processes in the control of flowering time?
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Environmental PhysiologyVillegas, Daniel; Alcalde, Jose Antonio.Environment adaptability
Linear Photothermal Model
Flowering prediction
1486A Versatile Calmodulin is Temperature-dependent Sensor
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Environmental PhysiologyWu, Hui-Chen; Jinn, Tsung-Luo.Heat Shock
Calmodulin
Ca2+ Oscilllation
492Comparative Thermotolerance in the Genus Boechera
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Environmental PhysiologyOrtmann, Leann.Boechera
Thermotolerance
heat stress
HSPs
sHSPs
1549Differential transcript regulation in the growth zone of the maize primary root during early stages of adaptation to water deficit
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Environmental PhysiologyChen, Kegui; Valliyodan, Babu; Joshi, Trupti; Hejlek, Lindsey; LeNoble, Mary; Xu, Dong; Bohnert, Hans; Sharp, Robert; Nguyen, Henry.Zea mays
primary root
water deficit
early response
gene expression
microarray
1562Does Arabidopsis have translesion syntheses?
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Environmental PhysiologyNakagawa, mayu; Sakamoto, Ayako; Takahashi, shinya; Tanaka, Atsushi; Narumi, Issay.translesion syntheses
mutation
UV
1867Does water deficit cause a switch from sink to potential source of soluble carbohydrate by xylem parenchyma cells in cotton?
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Environmental PhysiologyRoper, Becky.starch synthase
1362Drought induced gene expression in Citrullus colocynthis
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Environmental PhysiologySi, Ying; Dane, Fenny.drought stress
cDNA-AFLP
gene expression
Citrullus colocynthis
real-time RT-PCR
2576Enhanced tolerance to high temperature stress in transgenic tomato expressing bacterial panD gene
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Environmental PhysiologyRathinasabapathi, Bala; Wu, Shan; Sundaram, Sabarinath.stress resistance
1853Environmental and ecological controls on gene expression of root processes in prairie plants
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Environmental PhysiologySurabhi, Giridara-Kumar; Sanjay, Kumar; Dan, DeLaughter; Katie, Clowers; Alam, Nausheen; Loretta, Johnson; Shah, Jyoti.Big bluestem
gene expression
microarray
Nitrogen
Grass
1864Evaluating dehydrin expression in Arabidopsis thaliana
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Environmental PhysiologyKoehler, Gage; Randall, Stephen.
1004Functional analysis of the membrane associated protein, APM1
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Environmental PhysiologyHosein, Fazeeda; Anindita, Bandyopadhyay; Peer, Wendy; Murphy, Angus.aminopeptidase
212Gene Expression and Metabolite Profiling of Arabidopsis at Elevated and Super-elevated CO2 Reveal a Diminished Ability of Plants to Adjust to Super-elevated CO2 Levels
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Environmental PhysiologyKaplan, Fatma; Zhao, Wei; Popp, Michael; Richards, Jeffrey; Wheeler, Raymond M.; Guy, Charles L.; Levine, Lanfang H..Arabidopsis
Elevated CO2
Super-elevated CO2
gene expression
Metabolite profile
Transpiration
Water Use Efficiency
2152Growth and development under elevated CO2 for Arabidopsis thaliana having altered expression of mitochondrial pyruvate dehydrogenase kinase
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Environmental PhysiologyWeraduwage, Sarathi; Micallef, Malgre C.; Grodzinski, Bernard; Micallef, Barry J..Effect of elevated CO2 on plant metabolism
C metabolism and circadian sink activity
Mitochondrial pyruvate dehydrogenase complex
Pyruvate dehydrogenase kinase
Antisense respression of mtPDHK
Arabidopsis thaliana with altered respiratory capacities
2537How plants cope with organic xenobiotics: Metabolism and transport of xenobiotic conjugates in the rhizosphere
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Environmental PhysiologySchroeder, Peter; Scheer, Christian; Diekmann, Frauke; Stampfl, Andreas.organic xenobiotic
glutathione S-transferases
Hordeum vulgare
peptide transport
285Influence of various Phosphorus sources on P accumulation and enzyme activities in Duo grass (Duo festulolium)
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Environmental Physiologypadmanabhan, priya; starnes, daniel; Sahi, Shivendra.phosphorus
Duo grass
hyperaccumulator
P accumulation
P sources
1754Measurement of stem respiration of sycamore trees involves internal and external fluxes of CO2 and transport of CO2 from roots
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Environmental PhysiologyTeskey, Robert; McGuire, Mary Anne.dark respiration
sap flux
2378Mechanisms of UV-B Perception in Arabidopsis thaliana
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Environmental PhysiologyKim, Yu Kwang.Arabidopsis thaliana
UVB perception
572Methylmethionine (“vitamin U”) enhances stress tolerance of green algae grown in polluted water
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Environmental PhysiologyFodorpataki, Laszlo; Bartha, Laszlo; Marton, Attila L..stress tolerance
vitamin U
heavy metal
green alga
2539Nitrogen stress responses of red rice and Wells rice grown in hydroponics
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Environmental PhysiologySales, Marites; Burgos, Nilda; Shivrain, Vinod.Oryza sativa
Nitrogen
Stress response
hydroponics
1597Novel aspects of nuclear foci formation in plant DNA damage response
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Environmental PhysiologySánchez-Calderón, L.; Lang, J.; Smetana, A; Montané, M.-H.; Houlné, G.; Chabouté, M.E..DNA damage
DNA double strand break
DNA repair
Foci formation
2727OsGSK1, an orthologue of Arabidopsis BIN2, enhances tolerance to various abiotic stresses in transgenic rice
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Environmental PhysiologyLee, Sang-Choon; Koh, Serry; Kim, Min-Kyung; Choe, Sunghwa; An, Gynheung; Kim, Seong-Ryong.
815Overexpression of Arabidopsis ZAT10 Gene Enhances Salt Tolerance in Transgenic Tomato Plants
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Environmental PhysiologySanjaya, Sanjaya; You, Su-Juan; Chan, Ming-Tsair.ZAT10
tomato
genetic engineering
salt stress
crop
274Overexpression of DnaK from a halotolerant cyanobacterium Aphanothece halophytica enhances abiotic stress tolerance of young poplar tree plants
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Environmental PhysiologyTakabe, Tomoko; Shinagawa, Fumi; Terada, Yasutaka; Uchida, Akio; Hibino, Takashi; Takabe, Teruhiro; Kawai, Takayoshi; Takabe, Tetsuko.salinity
Drought
low temperature
poplar
tree
1672Overexpression of the acidic C-terminus region of the HvRAF from barley confers enhanced cadmium tolerance to yeast
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Environmental PhysiologyLi, Kunfeng; Jung, Jinwook; Park, Sang Ryoung; Jung, Younsoo; Kim, Minkyun.
1561Oxidative Stress Response in Two Populations of Thalassia testudinum in the Lower Laguna Madre Texas USA
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Environmental PhysiologyBruce, Jacqueline D; Summy, K. Rod; Whelan III, Thomas; Cavazos, Eloy; Lahner, Brett; Li, Nanbing; Legas, Sheenalay; Adame, John; Peer, Wendy; Murphy, Angus; Persans, Michael W.seagrasses
oxidative stress
Lipid peroxidation
heavy metal
bioindicator
remote sensing
556Polyamine metabolism in response to drought and salt stress including comparative metabolome analysis of the salt response in rice
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Environmental PhysiologyDo, Phuc Thi; Zuther, Ellen; Erban, Alexander; Heyer, Arnd Göran; Köhl, Karin; Kopka, Joachim.polyamine
rice
salt stress
drought stress
Metabolite profile
1697Potential regulatory mechanisms that control photosynthetic responses to developmental processes in Xanthium strumarium
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Environmental PhysiologyGordon, Elizabeth; Lewis, James; Tissue, David.Xanthium strumarium
source:sink relationships
nutrient supply
SPS
rubisco
Invertase
766Proteomic analysis of drought stress-responsive proteins in tomato
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Environmental PhysiologyKalampanayil, Bose; Wimmers, Larry; Bradley, Brian.proteomics
drought stress
355Proteomics of water-deficit stress in US peanut mini core accessions
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Environmental PhysiologyKottapalli, Kameswara Rao; Rakwal, Randeep; Burow, Gloria; Burke, John J; Puppala, Naveen; Payton, Paxton; Burow, Mark.protein markers
peanut mini core
Water stress
404Putative link between cytokinins and proline degradation and its potential involvement in plant response to drought stress
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Environmental PhysiologyDobra, Jana; Storchova, Helena; Havlova, Marie; Haisel, Daniel; Libus, Jiri; Vankova, Radomira.Cytokinin
proline dehydrogenase
abiotic stress
trans-zeatin O-glucosyltransferase
Drought
proline
tobacco
278Regulation of mitogen activated protein kinases (MAPKs) and MAPK kinase (MAPKKs) in rice in response to various abiotic stresses
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Environmental PhysiologySinha, A.K.; Rao, K.P.; Kumar, K.; Sharma, P.; Adhikari, H..MAPK
MAPKK
rice
MAPK cascade
991Root-secreted allelochemical in the noxious weed Phragmites australis deploys a reactive oxygen species response and microtubule assembly disruption to execute rhizotoxicity
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Environmental PhysiologyRudrappa, Thimmaraju; Justin, Bonsall; Gallagher, John L.; Seliskar, Denise M.; Harsh, Bais.Phragmites australis
root exudation
allelopathy
gallic acid
reactive oxygen species
microtubule
137Root structure and ADH expression plasticity of aerial-aquatic plants in response to different water environment
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Environmental PhysiologyKordyum, E.; Kozeko, L.; Ovcharenko, Yu..Water relations
phenotypic plasticity
root development
alcohol dehydrogenase
90Specific leaf area, leaf thickness and density of two range plant species influenced by long-term cattle grazing
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Environmental PhysiologyDong, Xuejun; Nyren, Paul; Patton, Bob; Kreft, Brian; Nyren, Anne.North Dakota
Prairie plants
Water relations
integrated physiology
Rangeland Management
1480Stomatal sensitivities to changes in leaf water potential, CO2 concentration and light intensity, and drought tolerance of temperate deciduous tree species
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Environmental PhysiologyAasamaa, Krőőt; Sőber, Anu.stomatal conductance
stomatal sensitivity
deciduous trees
383Studies on the Effect of Priming Treatment on the Germination of Sesame (Sesamum indicum L.)
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Environmental PhysiologyCho, Sang-Kyun; Shim, Kang-Bo; Oh, Young-Jin; Lee, Sheong-Chun; Kim, Jung Gon.sesame
Priming
seed germination
1833The analysis of vegetative dehydrin-like proteins in soybean
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Environmental PhysiologyYamasaki, Yuji; Randall, Stephen.dehydrin
829The anthocyanin-impaired-response-1 (air1) mutant of Arabidopsis thaliana alters accumulation of anthocyanins and flavonoids specifically in response to salt stress
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Environmental PhysiologyVan Oosten, Michael; Sharkhuu, Altanbadralt; Peer, Wendy Ann; Murphy, Angus S.; Hasegawa, Paul M.; Bressan, Ray A..anthocyanin
flavonoid
salt stress
1657The barley ERF-type transcription factor HvRAF confers enhanced pathogen resistance and salt tolerance in Arabidopsis
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Environmental PhysiologyJung, Jinwook; Won, So-Yoon; Suh, Seok Cheol; Kim, HyeRan; Wing, Rod; Jeong, Yeonhwa; Hwang, Ingyu; Kim, Minkyun.ERF-type transcription factor
Hordeum vulgare root abundant factor
salt-stress tolerance
310The role of oxidative stress during natural priming and germination in Dodonea viscosa (L.) Jacq.-Sapindaceae seeds
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Environmental PhysiologyReyna-Llorens, Ivan; Cruz-Ortega, Rocio; Orozco-Segovia, Alma.Natural Priming
oxidative stress
seed germination
2079Timing of Photoperiod Sensitivity for Time to Flowering in Arabidopsis thaliana Landsberg erecta as Revealed by Reciprocal Transfer Experiments - what genetic control models should be able to explain
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Environmental PhysiologyVillegas, Daniel; Alcalde, Jose A..photoperiod
sensitivity
Arabidopsis
reciprocal transfers
1250
Canceled
Turgor pressure may mediate two negative growth responses of the sporangiophores of Phycomyces blakesleeanus
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Environmental PhysiologyOrtega, Joseph K.E.; Ortega, Elena L.; Scott, Morgan A..sensory responses
Phycomyces blakesleeanus
wind growth response
cell growth regulation
189
Canceled
Understanding the 'gears of signaling cascade' operative under salinity stress in Brassica contrasting genotypes
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Environmental PhysiologyPurty, Ram; Kumar, Gautam; Singla-Pareek, Sneh; Pareek, Ashwani.salinity
Brassica
transcriptional regulation
contrasting genotypes
1692Using tunable diode laser spectroscopy to determine carbon isotope discrimination and internal CO2 conductance in field-grown juniper
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Environmental PhysiologyBickford, Christopher P.; McDowell, Nate; Powers, Heath; Brown, Karen; Hanson, David T..stable isotope
carbon isotope discrimination
internal conductance
mesophyll conductance
Juniperus
2300virus induced gene silencing on tobacco and phytoremediation
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Environmental PhysiologyChen, Chien-teh; Jan, Fuh-Jyh.VIGS
proline
Phytoremediation
tobacco
286Water-use efficiency in endophyte infected Lolium arundinaceum grasses
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Environmental PhysiologySwarthout, Debbie, J; Harper, Emily; Judd, Stephanie.stomata
water-use efficiency

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