Access the full text.
Sign up today, get DeepDyve free for 14 days.
D. Russell, M. Sachs (1991)
The maize cytosolic glyceraldehyde-3-phosphate dehydrogenase gene family: organ-specific expression and genetic analysisMolecular and General Genetics MGG, 229
I. Saab, M. Sachs (1996)
A Flooding-Induced Xyloglucan Endo-Transglycosylase Homolog in Maize Is Responsive to Ethylene and Associated with Aerenchyma, 112
A. Laszlo, P. Lawrence (1983)
Parallel induction and synthesis of PDC and ADH in anoxic maize rootsMolecular and General Genetics MGG, 192
Thomas Henzi, R. Brändle (1993)
Long Term Survival of Rhizomatous Species Under Oxygen Deprivation
R. Kennedy, S. Barrett, D. Zee, M. Rumpho (1980)
Germination and seedling growth under anaerobic conditions in Echinochloa crus-galli (barnyard grass).Plant Cell and Environment, 3
D. Hole, B. Cobb, P. Hole, M. Drew (1992)
Enhancement of Anaerobic Respiration in Root Tips of Zea mays following Low-Oxygen (Hypoxic) Acclimation.Plant physiology, 99 1
E. Loreti, J. Yamaguchi, A. Alpi, P. Perata (2003)
Sugar Modulation of α-Amylase Genes under AnoxiaAnn. Bot., 91
T.L. Setter, E.V. Laureles (1996)
The Beneficial Effect of Reduced Elongation Growth on Submergence Tolerance of RiceJ. Exp. Bot., 47
A. Page, R. Miller, D. Keeney (1982)
Chemical and microbiological properties
E. Boamfa, P. Ram, Michael Jackson, J. Reuss, Frans Harren (2003)
Dynamic aspects of alcoholic fermentation of rice seedlings in response to anaerobiosis and to complete submergence: relationship to submergence tolerance.Annals of botany, 91 Spec No
B.F. Ivanov, V.Yu. Andreev (1992)
Molecular, Biochemical and Physiological Aspects of Plant Respiration
M. Jackson, B. Herman, A. Goodenough (1982)
An examination of the importance of ethanol in causing injury to flooded plantsPlant Cell and Environment, 5
Justin Roberts, Judy CALLISt, D. Wemmer, Virgínia, WALBOTt, O. Jardetzky
Mechanism of cytoplasmic pH regulation in hypoxic maize root tips and its role in survival under hypoxia ( in vivo NMR / Zea mays L . / flooding tolerance / pH-stat / ethanol fermentation )
L. Kelso, B. Vartapetyan (1973)
Molecular Oxygen and Water in Cell Metabolism, 44
V. Andreev, I. Generozova, B. Vartapetian (1991)
Energy status and mitochondrial ultrastructure of excised pea root at anoxia and postanoxiaPlant Physiology and Biochemistry, 29
S. Lal, Chwenfang Lee, Martin Sachs (1998)
Differential regulation of enolase during anaerobiosis in maize.Plant physiology, 118 4
R.W. Brailsford, L.A.C.J. Voesenek, C.W.P.M. Blo, A.R. Smith, M.A. Hall, M.B. Jackson (1993)
Enhanced Ethylene Production by Primary Roots of Zea mays L. in Response to Sub-Ambient Partial Pressures of OxygenPlant, Cell Environ., 16
(1969)
Oxygen Regime and Ultrastructure in Rice Roots
P. Moore (1982)
Survival mechanisms in wetland plantsNature, 299
(1978)
Root Aeration in the Wetland Condition, Plant Life in Anaerobic
B. Vartapetian, I. Andreeva (1986)
Mitochondrial Ultrastructure of Three Hygrophyte Species at Anoxia and in Anoxic Glucose-Supplemented MediumJournal of Experimental Botany, 37
R. Reggiani, A. Bertani (2003)
Anaerobic Amino Acid MetabolismRussian Journal of Plant Physiology, 50
I. Waters, S. Morrell, H. Greenway, T. Colmer (1991)
Effects of Anoxia on Wheat Seedlings II. INFLUENCE OF O2 SUPPLY PRIOR TO ANOXIA ON TOLERANCE TO ANOXIA, ALCOHOLIC FERMENTATION, AND SUGAR LEVELSJournal of Experimental Botany, 42
N. Smirnoff, R. Crawford (1983)
Variation in the Structure and Response to Flooding of Root Aerenchyma in some Wetland PlantsAnnals of Botany, 51
D. Marshall, P. Broué, A. Pryor (1973)
Adaptive significance of alcohol dehydrogenase isozymes in maize.Nature: New biology, 244 131
(2004)
The International Society for Plant Anaerobiosis: Twenty-Five Years of the Activities of Society MembersRussian Journal of Plant Physiology, 50
(1984)
Effects of Ethanol and Anoxia on Mitochondria Ultrastructure in Plants
(1982)
Anaerobiosis and the Theory of Physiological Adaptation of Plants to Flooding, Fiziol
J. Bouny, P. Saglio (1996)
Glycolytic Flux and Hexokinase Activities in Anoxic Maize Root Tips Acclimated by Hypoxic Pretreatment, 111
C. Blom (1999)
Adaptations to Flooding Stress: From Plant Community to MoleculePlant Biology, 1
D. Peshev, R. Vergauwen, É. Hideg, W. Ende (1996)
Journal of Experimental Botany
B. Ricard, Tara Toai, P. Chourey, P. Saglio (1998)
Evidence for the critical role of sucrose synthase for anoxic tolerance of maize roots using a double mutantPlant physiology, 116 4
T. Fan, A. Lane, R. Higashi (2003)
In Vivo and In Vitro Metabolomic Analysis of Anaerobic Rice Coleoptiles Revealed Unexpected PathwaysRussian Journal of Plant Physiology, 50
Samira Aschi‐Smiti, W. Chaibi, R. Brouquisse, B. Ricard, P. Saglio (2003)
Assessment of enzyme induction and aerenchyma formation as mechanisms for flooding tolerance in Trifolium subterraneum 'Park'.Annals of botany, 91 Spec No
M. Jackson, M. Drew (1984)
CHAPTER 3 – Effects of Flooding on Growth and Metabolism of Herbaceous Plants
(1993)
From Nature to Crop Production, International Crop Science
(1978)
Ethanol Metabolism in Plants, Plant Life in Anaerobic
R. Karapetian, A. Evstafieva, I. Abaeva, N. Chichkova, G. Filonov, Y. Rubtsov, E. Sukhacheva, S. Melnikov, U. Schneider, E. Wanker, A. Vartapetian (2005)
Nuclear Oncoprotein Prothymosin α Is a Partner of Keap1: Implications for Expression of Oxidative Stress-Protecting GenesMolecular and Cellular Biology, 25
S. Justin, W. Armstrong (1991)
Evidence for the involvement of ethene in aerenchyma formation in adventitious roots of rice (Oryza sativa L.)New Phytologist, 118
P. Kelley, M. Freeling (1984)
Anaerobic expression of maize glucose phosphate isomerase I.The Journal of biological chemistry, 259 1
A.L. Kursanov, B.B. Vartapetian (1968)
Plants and OxygenMediterranean, 27
T. Fox, R. Kennedy, M. Rumpho (1994)
Energetics of Plant Growth Under Anoxia: Metabolic Adaptations of Oryza sativa and Echinochloa phyllopogonAnnals of Botany, 74
C. Subbaiah, M. Sachs (2003)
Molecular and cellular adaptations of maize to flooding stress.Annals of botany, 91 Spec No
(2004)
Waterlogging Induced Anaerobiosis: A Hidden Constraint to Wheat Productivity in Sodic Soils of India, Abst
W. Armstrong, P. Beckett (1987)
INTERNAL AERATION AND DEVELOPMENT OF STELA ANOXIA IN SUBMERGED ROOTSNew Phytologist, 105
Alison Smith, T. Rees (2004)
Pathways of carbohydrate fermentation in the roots of marsh plantsPlanta, 146
B. Mohanty, S. Krishnan, S. Swarup, Vladimir Bajic (2005)
Detection and preliminary analysis of motifs in promoters of anaerobically induced genes of different plant species.Annals of botany, 96 4
C. Andrews (1997)
A Comparison of Glycolytic Activity in Winter Wheat and two Forage Grasses in Relation to their Tolerance to Ice EncasementAnnals of Botany, 79
J. Bailey-Serres, Ruth Chang (2005)
Sensing and signalling in response to oxygen deprivation in plants and other organisms.Annals of botany, 96 4
M. Mattana, A. Bertani, N. Aurisano, R. Reggiani (1993)
Preliminary Evidence of Nitrate Assimilation during the Anaerobic Germination of Rice
N.V. Chichkova, S.H. Kim, E.S. Titova, M. Kalkum, V.S. Morozov, Y.P. Rubtsov, N.O. Kalinina, M.E. Taliansky, A.B. Vartapetian (2004)
A Plant Caspase-Like Protease Activated during the Hypersensitive ResponsePlant Cell, 16
(1981)
Synthesis of Heat Shock Proteins in Soybean Seedlings
M.B. Jackson, M.C. Drew (1984)
Flooding and Plant Growth
M. Jackson, C. Black (1993)
Interacting Stresses on Plants in a Changing Climate
K. Ismond, R. Dolferus, M. Pauw, E. Dennis, A. Good (2003)
Enhanced Low Oxygen Survival in Arabidopsis through Increased Metabolic Flux in the Fermentative Pathway1Plant Physiology, 132
M. Tadege, R. Brändle, C. Kuhlemeier (1998)
Anoxia tolerance in tobacco roots: effect of overexpression of pyruvate decarboxylasePlant Journal, 14
P. Saglio, M. Drew, A. Pradet (1988)
Metabolic Acclimation to Anoxia Induced by Low (2-4 kPa Partial Pressure) Oxygen Pretreatment (Hypoxia) in Root Tips of Zea mays.Plant physiology, 86 1
I.P. Maslova, I.F. Chernyad’eva, B.B. Vartapetian (1975)
Abst. XII Int. Bot. Congr.
C. Andrews, M. Pomeroy (1981)
THE EFFECT OF FLOODING PRETREATMENT ON COLD HARDINESS AND SURVIVAL OF WINTER CEREALS IN ICE ENCASEMENTCanadian Journal of Plant Science, 61
H. Selye (1950)
The Physiology and Pathology of Exposure to Stress
T. Bragina, N. Rodionova, G. Grinieva (2003)
Ethylene Production and Activation of Hydrolytic Enzymes during Acclimation of Maize Seedlings to Partial FloodingRussian Journal of Plant Physiology, 50
A. Musgrave, M. Jackson, Elaine Ling (1972)
Callitriche Stem Elongation is controlled by Ethylene and GibberellinNature, 238
W. Armstrong (1969)
Rhizosphere Oxidation in Rice: An Analysis of Intervarietal Differences in Oxygen Flux from the RootsPhysiologia Plantarum, 22
R. Reggiani, I. Brambilla, A. Bertani (1985)
Effect of Exogenous Nitrate on Anaerobic Metabolism in Excised Rice Roots I. NITRATE REDUCTION AND PYRIDINE NUCLEOTIDE POOLSJournal of Experimental Botany, 36
J. Johnson, B. Cobb, M. Drew (1994)
Hypoxic Induction of Anoxia Tolerance in Roots of Adh1 Null Zea mays L, 105
M. Mattana, A. Bertani, N. Aurisano, R. Reggiani (1993)
Interacting Stresses on Plants in a Changing Climate NATO, ASI Ser., Ser. I
W. Armstrong, P.M. Beckett (1987)
Internal Aeration and the Development of Stelar Anoxia in Submerged Roots: Multishelled Mathematical Model Combining Axial Diffusion of Oxygen in the Cortex with Radial Loses to the Stele, the Wall Layers, and RhizosphereNew Phytol., 105
C. Thomson, H. Greenway (1991)
Metabolic evidence for stelar anoxia in maize roots exposed to low o(2) concentrations.Plant physiology, 96 4
William Chang, Lan Huang, Min Shen, C. Webster, Alma Burlingame, Justin Roberts (2000)
Patterns of protein synthesis and tolerance of anoxia in root tips of maize seedlings acclimated to a low-oxygen environment, and identification of proteins by mass spectrometry.Plant physiology, 122 2
R. Reggiani, I. Brambilla, A. Bertani (1985)
Effect of Exogenous Nitrate on
C. Andrews, M. Pomeroy (1983)
The influence of flooding pretreatment on metabolic changes in winter cereal seedlings during ice encasementBotany, 61
B. Vartapetian, N. Zakhmylova, I. Generozova (1985)
Ultrastructure of wheat coleoptile mitochondria at short‐term anoxia and post‐anoxiaPlant Cell and Environment, 8
W. Armstrong, R. Brändle, M. Jackson (1994)
Mechanisms of flood tolerance in plantsPlant Biology, 43
S. Arpagaus, R. Braendle (2000)
The significance of alpha-amylase under anoxia stress in tolerant rhizomes (Acorus calamus L.) and non-tolerant tubers (Solanum tuberosum l., var. Désirée).Journal of experimental botany, 51 349
P. Saglio (1993)
Metabolic Acclimation to Anoxic Conditions and Biochemical Basis of Death
B. Vartapetian, P. Mazliak, C. Lance (1978)
Lipid biosynthesis in rice coleoptiles grown in the presence or in the absence of oxygenPlant Science Letters, 13
A. Hanhijärvi, K. Fagerstedt (1995)
COMPARISON OF CARBOHYDRATE UTILIZATION AND ENERGY-CHARGE IN THE YELLOW FLAG IRIS (IRIS-PSEUDACORUS) AND GARDEN IRIS (IRIS-GERMANICA) UNDER ANOXIAPhysiologia Plantarum, 93
R. Reggiani, I. Brambilla, A. Bertani (1985)
Effect of Exogenous Nitrate on Anaerobic Metabolism in Excised Rice Roots: 2. Fermentative Activity and Adenylate Energy ChargeJ. Exp. Bot., 36
M. Sachs, M. Freeling (2004)
Selective synthesis of alcohol dehydrogenase during anaerobic treatment of maizeMolecular and General Genetics MGG, 161
B.B. Vartapetian (1978)
Plant Mitochondria
M. Jackson, D. Campbell (1975)
MOVEMENT OF ETHYLENE FROM ROOTS TO SHOOTS, A FACTOR IN THE RESPONSES OF TOMATO PLANTS TO WATERLOGGED SOIL CONDITIONSNew Phytologist, 74
T. Rees, P. Wilson (1984)
Effects of Reduced Supply of Oxygen on the Metabolism of Roots of Glyceria maxima and Pisum sativumZeitschrift für Pflanzenphysiologie, 114
P. Perata, L. Guglielminetti, A. Alpi (1997)
Mobilization of Endosperm Reserves in Cereal Seeds under AnoxiaAnnals of Botany, 79
J. Xia, P. Saglio (1990)
H Efflux and Hexose Transport under Imposed Energy Status in Maize Root Tips.Plant physiology, 93 2
(1963)
The Role of Leaves in Plant Respiration in the absence Oxygen, Fiziol
R. Crawford (1977)
Tolerance of anoxia and ethanol metabolism in germinating seeds.New Phytologist, 79
M. Sachs (1993)
Molecular Genetic Basis of Metabolic Adaptation to Anoxia in Maize and its Possible Utility for Improving Tolerance of Crops to Soil Waterlogging
B.B. Vartapetian (1964)
Polarographic Method for Study of Oxygen Transport in PlantsFiziol. Rast. (Moscow), 1
J. Roberts, J. Callis, O. Jardetzky, V. Walbot, M. Freeling (1984)
Cytoplasmic acidosis as a determinant of flooding intolerance in plants.Proceedings of the National Academy of Sciences of the United States of America, 81 19
M. Drew (1997)
OXYGEN DEFICIENCY AND ROOT METABOLISM: Injury and Acclimation Under Hypoxia and Anoxia.Annual review of plant physiology and plant molecular biology, 48
K. Ishizawa, S. Murakami, Y. Kawakami, H. Kuramochi (1999)
Growth and energy status of arrowhead tubers, pondweed turions and rice seedlings under anoxic conditionsPlant Cell and Environment, 22
E. Watkin, C. Thomson, H. Greenway (1998)
Root Development and Aerenchyma Formation in Two Wheat Cultivars and One Triticale Cultivar Grown in Stagnant Agar and Aerated Nutrient SolutionAnnals of Botany, 81
I. Generozova, M. Krasavina, L. Polyakova, N. Burmistrova, M. Lyubomilova, B. Vartapetian (1998)
ON SOME MOLECULAR ASPECTS OF ADAPTATION OF ORYZA SATIVA SEEDLINGS TO ANOXIARussian Journal of Plant Physiology, 45
L. Voesenek, J. Benschop, Jordi Bou, M. Cox, H. Groeneveld, F. Millenaar, R. Vreeburg, A. Peeters (2003)
Interactions between plant hormones regulate submergence-induced shoot elongation in the flooding-tolerant dicot Rumex palustris.Annals of botany, 91 Spec No
E. Loreti, J. Yamaguchi, A. Alpi, P. Perata (2003)
Sugar modulation of alpha-amylase genes under anoxia.Annals of botany, 91 Spec No
(1978)
Adaptation and Flood Tolerance of Tree Species, Plant Life in Anaerobic Environments, Hook, D.D
B. Springer, W. Werr, P. Starlinger, D. Bennett, Marija Zokolica, M. Freeling (1986)
The Shrunken gene on chromosome 9 of Zea mays L is expressed in various plant tissues and encodes an anaerobic proteinMolecular and General Genetics MGG, 205
T. Fan, R. Higashi, T. Frenkiel, A. Lane (1997)
Anaerobic nitrate and ammonium metabolism in flood-tolerant rice coleoptilesJournal of Experimental Botany, 48
A. Igamberdiev, K. Baron, Nathalie Manac'h-Little, M. Stoimenova, R. Hill (2005)
The haemoglobin/nitric oxide cycle: involvement in flooding stress and effects on hormone signalling.Annals of botany, 96 4
A. Almeida, W. Vriezen, D. Straeten (2003)
Molecular and Physiological Mechanisms of Flooding Avoidance and Tolerance in RiceRussian Journal of Plant Physiology, 50
Y.-Yannick Ford, R. Ratcllffe, R. Robins (1996)
Phytohormone-induced GABA production in transformed root cultures of Datura stramonium: an in vivo 15N NMR studyJournal of Experimental Botany, 47
B.B. Vartapetian, I.N. Andreeva, N.G. Davtyan, I.P. Maslova (1968)
Root Ultrastructure and Oxygen Transport in Cucurbita pepoFiziol. Rast. (Moscow), 15
A. Gunawardena, D. Pearce, M. Jackson, C. Hawes, D. Evans (2001)
Characterisation of programmed cell death during aerenchyma formation induced by ethylene or hypoxia in roots of maize(Zea mays L.)Planta, 212
(1997)
The Twentieth Anniversary. 20-Year Activity of the International Society for Plant Anaerobiosis (ISPA), Fiziol
S.V. Soldatenkov, T.V. Chirkova (1963)
The Role of Leaves in Plant Respiration in the absence OxygenFiziol. Rast. (Moscow), 10
(2004)
Screening for Waterlogging Tolerance of Crop Plants, Abst
(2004)
How Do Submerged Plants Support Night Time Respiration of Belowground Tissues, Abst
M.B. Jackson (1985)
Ethylene and Responses of Plants to Soil Waterlogging and SubmergencePlant Physiol., 36
M. Sauter (2000)
Rice in deep water: "How to take heed against a sea of troubles"Naturwissenschaften, 87
J. Oberson, D. Pavelic, R. Braendle, A. Rawyler (1999)
Nitrate Increases Membrane Stability of Potato Cells under AnoxiaJournal of Plant Physiology, 155
Vartapetian Bb, Poljakova Li (1994)
Blocking of anaerobic protein synthesis destabilizes dramatically plant mitochondrial membrane ultrastructure.Iubmb Life, 33
K. Ueda, H. Tsuji (1971)
Ultrastructural changes of organelles in coleoptile cells during anaerobic germination of rice seedsProtoplasma, 73
B.B. Vartapetian (1970)
Molekulyarnyi kislorod i voda v metabolizme kletki
D. Hook, R. Crawford (1978)
Plant Life in Anaerobic Environments
B. Vartapetian, I. Generosova, N. Zakhmylova, A. Snkhchyan (2006)
Demonstration of plant adaptation syndrome in plants and possible molecular mechanisms of its realization under conditions of anaerobic stressRussian Journal of Plant Physiology, 53
I. Waters, W. Armstrong, C. Thompson, T. Setter, S. Adkins, J. Gibbs, H. Greenway (1989)
Diurnal changes in radial oxygen loss and ethanol metabolism in roots of submerged and non‐submerged rice seedlingsNew Phytologist, 113
C. Quimio, L. Torrizo, T. Setter, M. Ellis, A. Grover, E. Abrigo, N. Oliva, E. Ella, A. Carpena, O. Ito, W. Peacock, E. Dennis, S. Dattal (2000)
Enhancement of Submergence Tolerance in Transgenic Rice Overproducing Pyruvate DecarboxylaseJournal of Plant Physiology, 156
T. Setter, M. Ellis, E. Laureles, E. Ella, D. Senadhira, S. Mishra, S. Sarkarung, S. Datta (1997)
Physiology and Genetics of Submergence Tolerance in RiceAnnals of Botany, 79
P. Kelley (1989)
Maize pyruvate decarboxylase mRNA is induced anaerobicallyPlant Molecular Biology, 13
W. Armstrong (1964)
Oxygen Diffusion from the Roots of Some British Bog PlantsNature, 204
W. Larcher (1977)
Physiological Plant Ecology
A. Botrel, W. Kaiser (1997)
Nitrate reductase activation state in barley roots in relation to the energy and carbohydrate statusPlanta, 201
G. Kirk, H. Kronzucker (2005)
The potential for nitrification and nitrate uptake in the rhizosphere of wetland plants: a modelling study.Annals of botany, 96 4
A. Paul, R. Ferl (1997)
The Hypoxic Response of Three Alcohol Dehydrogenase Genes: In Vivo and In Vitro Footprinting of DNA/Protein Interactions Describes Multiple Signalling ConnectionsAnnals of Botany, 79
J. Rivoal, A. Hanson (1994)
Metabolic Control of Anaerobic Glycolysis (Overexpression of Lactate Dehydrogenase in Transgenic Tomato Roots Supports the Davies-Roberts Hypothesis and Points to a Critical Role for Lactate Secretion, 106
M. Kawase (1979)
ROLE OF CELLULASE IN AERENCHYMA DEVELOPMENT IN SUNFLOWERAmerican Journal of Botany, 66
(1992)
On the Role of “Nitrate Respiration
M. Mcmanmon, R. Crawford (1971)
A METABOLIC THEORY OF FLOODING TOLERANCE: THE SIGNIFICANCE OF ENZYME DISTRIBUTION AND BEHAVIOURNew Phytologist, 70
E. Müller, B.P. Albers, P. Janiesch (1994)
Influence of NO 3 − and NH 4 + Nutrition on Fermentation, Nitrate Reductase Activity and Adenylate Energy Charge of Roots of Carex pseudocyperus L. and Carex sylvatica Huds. Exposed to Anaerobic Nutrient SolutionsPlant Soil, 166
Shaobai Huang, H. Greenway, T. Colmer, A. Millar (2005)
Protein synthesis by rice coleoptiles during prolonged anoxia: implications for glycolysis, growth and energy utilization.Annals of botany, 96 4
J. Xia, P. Saglio, J. Roberts (1995)
Nucleotide Levels Do Not Critically Determine Survival of Maize Root Tips Acclimated to a Low-Oxygen Environment, 108
W. Armstrong (1980)
Aeration in Higher PlantsAdvances in Botanical Research, 7
K. Szick-Miranda, S. Jayachandran, A. Tam, J. Werner-Fraczek, A. Williams, J. Bailey-Serres (2003)
Evaluation of Translational Control Mechanisms in Response to Oxygen Deprivation in MaizeRussian Journal of Plant Physiology, 50
R. Ratcliffe (1997)
IN VIVO NMR STUDIES OF THE METABOLIC RESPONSE OF PLANT TISSUES TO ANOXIAAnnals of Botany, 79
(1978)
Structural and Cytoenzymological Aspects of the Mitochondria in Excised Roots of Oxygen-Deprived Lycopersicon Cultivated In Vitro
H.U. Neue, P. Becker-Heidmann, H.W. Scharpenseel (1990)
Soils and Greenhouse Effect
(2004)
Growth Morphology and Flooding Tolerance of Transgenic Alfalfa (Medicago sativa) Expressing Varying Levels of a Hypoxia-Inducible Barley (Hordeum vulgare) Haemoglobin, Abst
E. Müller, B. Albers, P. Janiesch (1994)
Influence of NO3- and NH4+ nutrition on fermentation, nitrate reductase activity and adenylate energy charge of roots of Carex pseudocyperus L. and Carex sylvatica Huds. exposed to anaerobic nutrient solutionsPlant and Soil, 166
B. Mocquot, C. Prat, C. Mouchès, A. Pradet (1981)
Effect of anoxia on energy charge and protein synthesis in rice embryo.Plant physiology, 68 3
(1970)
The Oxygen and Ultrastructure of Root Cells
(2006)
The Influ 734 RUSSIAN JOURNAL OF PLANT PHYSIOLOGY
S. Duff, J. Wittenberg, R. Hill (1997)
Expression, Purification, and Properties of Recombinant Barley (Hordeum sp.) HemoglobinThe Journal of Biological Chemistry, 272
(1978)
Introduction: Life without Oxygen, Plant Life in Anaerobic
B. Vartapetian, L. Polyakova (1999)
Protective effect of exogenous nitrate on the mitochondrial ultrastructure ofOryza sativa coleoptiles under strict anoxiaProtoplasma, 206
M. Darwent, W. Armstrong, J. Armstrong, P. Beckett (2003)
Exploring the Radial and Longitudinal Aeration of Primary Maize Roots by Means of Clark-Type Oxygen MicroelectrodesRussian Journal of Plant Physiology, 50
B. Tudzynski (2001)
Plant Responses to Environmental Stresses: From Phytohormones to Genome ReorganizationPhytochemistry, 56
L. Guglielminetti, P. Perata, A. Alpi (1995)
Effect of Anoxia on Carbohydrate Metabolism in Rice Seedlings, 108
C. Dordas, J. Rivoal, R. Hill (2003)
Plant haemoglobins, nitric oxide and hypoxic stress.Annals of botany, 91 Spec No
I. Waters, P. Kuiper, E. Watkin, H. Greenway (1991)
Effects of Anoxia on Wheat Seedlings I. INTERACTION BETWEEN ANOXIA AND OTHER ENVIRONMENTAL FACTORSJournal of Experimental Botany, 42
B. Vartapetian, I. Andreeva, G. Kozlova, L. Agapova (1977)
Mitochondrial ultrastructure in roots of mesophyte and hydrophyte at anoxia and after glucose feedingProtoplasma, 91
Neil Hoffman, Andrew Bent, Andrew Hanson (1986)
Induction of lactate dehydrogenase isozymes by oxygen deficit in barley root tissue.Plant physiology, 82 3
M. Ellis, T. Setter (1999)
Hypoxia Induces Anoxia Tolerance in completely Submerged Rice SeedlingsJournal of Plant Physiology, 154
M. Jackson, K. Gales, D. Campbell (1978)
Effect of Waterlogged Soil Conditions on the Production of Ethylene and on Water Relationships in Tomato PlantsJournal of Experimental Botany, 29
(2004)
SubmergenceInduced Shoot Elongation: Plant Hormones and Microarrays, Abst
M. Sachs, T. Ho (1986)
Alteration of Gene Expression During Environmental Stress in PlantsAnnual Review of Plant Biology, 37
T. Fan, R. Higashi, A. Lane (1988)
An in vivo 1H and 31P NMR investigation of the effect of nitrate on hypoxic metabolism in maize roots.Archives of biochemistry and biophysics, 266 2
K.J. Frey (1993)
Regulation and Commercialization of Transgenic Plants
M. Jackson, W. Armstrong (1999)
Formation of Aerenchyma and the Processes of Plant Ventilation in Relation to Soil Flooding and SubmergencePlant Biology, 1
Y.E. Summers, M.B. Jackson (1994)
Anaerobic Conditions Strongly Promote Extension by Stems of Overwintering Tubers of PotamogetonJ. Exp. Bot., 45
(2004)
Genomic Wide Analysis of Gene Expression in Arabidopsis Seedlings under Anoxia, Abst
J. Key, J. Hanson (1961)
Some effects of 2,4-dichlorophenoxyacetic acid on soluble nucleotides & nucleic acid of soybean seedlings.Plant physiology, 36 2
H. Aldrich, R. Ferl, M. Hils, D. Akin (1985)
Ultrastructural correlates of anaerobic stress in corn roots.Tissue & cell, 17 3
B. Vartapetian, L. Poljaková (1994)
Blocking of anaerobic protein synthesis destabilizes dramatically plant mitochondrial membrane ultrastructure.Biochemistry and molecular biology international, 33 2
R. Brändle (1991)
Flooding Resistance of Rhizomatous Amphibious Plants
C. Thomson, W. Armstrong, I. Waters, H. Greenway (1990)
Aerenchyma formation and associated oxygen movement in seminal and nodal roots of wheat.Plant Cell and Environment, 13
C. Subbaiah, Douglas Bush, Martin Sachs (1994)
Elevation of cytosolic calcium precedes anoxic gene expression in maize suspension-cultured cells.The Plant cell, 6
(1980)
Movement 14C-Sucrose in Cotton Plants during Root Anaerobiosis, Fiziol
T. Harada, S. Satoh, Toshihito Yoshioka, K. Ishizawa (2005)
Expression of sucrose synthase genes involved in enhanced elongation of pondweed (Potamogeton distinctus) turions under anoxia.Annals of botany, 96 4
J. Summers, M. Jackson (1994)
Anaerobic conditions strongly promote extension by stems of overwintering tubers of Potamogeton pectinatus LJournal of Experimental Botany, 45
(1978)
Morphology and Function of Roots and Shoot Growth of Crop Plants under Oxygen Deficiency
S.M.G. Duff, J.B. Wittenberg, R.D. Hill (1997)
Expression, Purification and Properties of Recombinant Barley (Hordeum sp.) Haemoglobin: Optical Spectra and Reactions with Gaseous LigandsJ. Biol. Chem., 272
M. Jackson (1985)
Ethylene and responses of plants to soil waterlogging and submergenceAnnual Review of Plant Biology, 36
(1981)
A Quantitative Assay of O2 Transport in Cotton Plants at Different Temperatures
(1975)
Soluble Proteins and Alcohol Dehydrogenase of Rice Seedlings in Anoxia, Abst
(1978)
Pyruvate Conversions in Higher Plants during Natural Anaerobiosis, Plant Life in Anaerobic
Philip Kelley, D. Tolan (1986)
The complete amino Acid sequence for the anaerobically induced aldolase from maize derived from cDNA clones.Plant physiology, 82 4
B. Vartapetian, L. Agapova, A. Averianov, V. Veselovsky (1974)
New approach to study of oxygen transport in plants using chemiluminescent methodNature, 249
B.B. Vartapetian (1973)
Proc. Uppsala Symp. Plant Response to Climatic Factors (1970)
K. Kemp, J. Small (1993)
Nitrate and nitrate reductase in Erythrina caffra seeds: Enhancement of induction by anoxia and possible role in germinationPlanta, 189
E. Gout, A. Boisson, S. Aubert, R. Douce, R. Bligny (2001)
Origin of the cytoplasmic pH changes during anaerobic stress in higher plant cells. Carbon-13 and phosphorous-31 nuclear magnetic resonance studies.Plant physiology, 125 2
W. Armstrong, R. Brändle, M.B. Jackson (1994)
Mechanisms of Flood Tolerance in PlantsActa Bot. Neerl., 43
C. Appleby, D. Bogusz, E. Dennis, W. Peacock (1988)
A role for haemoglobin in all plant rootsPlant Cell and Environment, 11
J. Roberts, F. Andrade, I. Anderson (1985)
Further Evidence that Cytoplasmic Acidosis Is a Determinant of Flooding Intolerance in Plants.Plant physiology, 77 2
T. Colmer (2003)
Aerenchyma and an inducible barrier to radial oxygen loss facilitate root aeration in upland, paddy and deep-water rice (Oryza sativa L.).Annals of botany, 91 Spec No
D. Santos, J. Rijo, M. Jacobs, E. Dennis, R. Dolferus (2003)
Approaches for the Isolation of Arabidopsisadh1 Regulatory Mutants Using Allyl Alcohol SelectionRussian Journal of Plant Physiology, 50
(1988)
Adaptatsiya rastenii k gipoksii i anoksii (Plant Adaptation to Hypoxia and Anoxia), Leningrad: Leningrad
(1969)
Ultrastructure of Root Cells in Connection with Oxygen Transport in the Plant, Abst
L. Mommer, E. Visser (2005)
Underwater photosynthesis in flooded terrestrial plants: a matter of leaf plasticity.Annals of botany, 96 4
C.M. Francis, A.C. Devitt, P. Steele (1974)
Influence of Flooding on the Alcohol Dehydrogenase Activity of Roots of Trifolium subterraneumAust. J. Plant Physiol., 93
(1984)
Dynamics of Changes in Mitochondria Ultrastructure in Maize Seedlings under Anoxia
(1967)
Molecular Oxygen Transport from Above-Ground Organs to Roots in Cucurbita pepo
D.D. Davies (1980)
The Biochemistry of Plants, vol. 2
D. Davies (1980)
Anaerobic metabolism and the production of organic acids
I.N. Andreeva, N. Nuritdinov, B.B. Vartapetian (1979)
Root Ultrastructure and Oxygen Transport in Cotton PlantsFiziol. Rast. (Moscow), 26
I. Generosova, B. Vartapetian (2005)
On the Physiological Role of Anaerobically Synthesized Lipids in Oryza sativa SeedlingsRussian Journal of Plant Physiology, 52
(1989)
Stress-Induced Proteins: Characterization and the Regulation of Their Synthesis, The Biochemistry of Plants
T. Toojinda, M. Siangliw, S. Tragoonrung, A. Vanavichit (2003)
Molecular genetics of submergence tolerance in rice: QTL analysis of key traits.Annals of botany, 91 Spec No
P.H. Saglio, P. Raymond, A. Pradet (1980)
Metabolic Activity and Energy Charge of Excised Maize Root Tips under AnoxiaPlant Physiol., 66
D. Davies, S. Grego, P. Kenworthy (1974)
The control of the production of lactate and ethanol by higher plantsPlanta, 118
R. Brändle (1991)
Plant Life under Oxygen Deprivation. Ecology, Physiology and Biochemistry
(2006)
Physiology of the Barrier to Radial O2 Loss in Adventi RUSSIAN JOURNAL OF PLANT PHYSIOLOGY
C. Subbaiah, M. Sachs (2003)
Calcium-Mediated Responses of Maize to Oxygen DeprivationRussian Journal of Plant Physiology, 50
J. Berger, F. Wyatt, R. Lovberg (1972)
A Year of Strain Measurements in Southern CaliforniaNature, 238
B. Vartapetian, N. Nuritdincv (1976)
Molecular oxygen transport in plantsNaturwissenschaften, 63
(2004)
A Further Look at Involvement of Haemoglobin and NO in the Hypoxic Stress Response, Abst
T. Webb, W. Armstrong (1983)
The Effects of Anoxia and Carbohydrates on the Growth and Viability of Rice, Pea and Pumpkin RootsJournal of Experimental Botany, 34
M.S. Swaminathan (1993)
International Crop Science I
E. Loreti, A. Alpi, P. Perata (2003)
α-Amylase Expression under Anoxia in Rice Seedlings: An UpdateRussian Journal of Plant Physiology, 50
(1978)
Some Regulatory Mechanisms of Plant Adaptation to Temporal Anaerobiosis, Plant Life in Anaerobic
(1984)
Dynamics of Changes in Mitochondria Ultrastructure in Maize Seedlings under Anoxia, Fiziol
M. Bucher, R. Brändle, C. Kuhlemeier (1994)
Ethanolic fermentation in transgenic tobacco expressing Zymomonas mobilis pyruvate decarboxylase.The EMBO Journal, 13
M. Stam, J. Mol, J. Kooter (1997)
Review Article: The Silence of Genes in Transgenic PlantsAnnals of Botany, 79
(1950)
The Physiology and Pathology of Exposure to Stress, Montreal: Medical
G.M. Grinieva, T.V. Bragina, A.V. Platonova (2000)
Ethylene-Induced Activation of Hydrolytic Enzymes in Maize Adventitious Roots during Progressive FloodingDokl. Akad. Nauk, 374
B. Vartapetian, I. Andreeva, A. Kursanov (1974)
Appearance of Unusual Mitochrondria in Rice Coleoptiles at Conditions of Secondary AnoxiaNature, 248
(1991)
Super-Sensitivity and Super-Resistance of Rice Plants to Oxygen Stress, Rice Production on Acid Soils of the Tropics, Deturek
M. Jackson, P. Ram (2003)
Physiological and molecular basis of susceptibility and tolerance of rice plants to complete submergence.Annals of botany, 91 Spec No
N. Chichkova, Sang Kim, E. Titova, M. Kalkum, V. Morozov, Y. Rubtsov, N. Kalinina, M. Taliansky, A. Vartapetian (2004)
A Plant Caspase-Like Protease Activated during the Hypersensitive Response Article, publication date, and citation information can be found at www.plantcell.org/cgi/doi/10.1105/tpc.017889.The Plant Cell Online, 16
R. Dolferus, E. Klok, Christian Delessert, Sarah Wilson, K. Ismond, A. Good, W. Peacock, E. Dennis (2003)
Enhancing the anaerobic response.Annals of botany, 91 Spec No
B. Vartapetian, N. Zakhmilova (1990)
Ultrastructure of wheat seedling mitochondria under anoxia and postanoxiaProtoplasma, 156
(1996)
Selection of Media for Mass Regeneration of Sugarcane Plants from Callus Culture
(1976)
Oxygen Transport from Above-Ground Organs to Roots in Cotton Plants, Fiziol
M. Sachs, M. Freeling, R. Okimoto (1980)
The anaerobic proteins of maizeCell, 20
Véronique Germain, B. Ricard, Philippe Raymond, P. Saglio (1997)
The Role of Sugars, Hexokinase, and Sucrose Synthase in the Determination of Hypoxically Induced Tolerance to Anoxia in Tomato Roots, 114
T. Vantoai, Christopher Bolles (1991)
Postanoxic Injury in Soybean (Glycine max) Seedlings.Plant physiology, 97 2
(1991)
Biochemical Adaptation to Anoxia: Potential Role of Mitochondria Metabolism to Flood Tolerance in Echinochloa phyllopogon (Barnyard Grass), Plant Life under Oxygen Deprivation
A. Stepanova, L. Polyakova, Y. Dolgikh, B. Vartapetian (2002)
The Response of Sugarcane (Saccharum officinarum) Cultured Cells to Anoxia and the Selection of a Tolerant Cell LineRussian Journal of Plant Physiology, 49
G. Albrecht, A. Mustroph (2003)
Sucrose Utilization via Invertase and Sucrose Synthase with Respect to Accumulation of Cellulose and Callose Synthesis in Wheat Roots under Oxygen DeficiencyRussian Journal of Plant Physiology, 50
C. Subbaiah, K. Kollipara, M. Sachs (2000)
A Ca(2+)-dependent cysteine protease is associated with anoxia-induced root tip death in maize.Journal of experimental botany, 51 345
Chuanjiu He, S. Finlayson, M. Drew, Wayne Jordan, Page Morgan (1996)
Ethylene Biosynthesis during Aerenchyma Formation in Roots of Maize Subjected to Mechanical Impedance and Hypoxia, 112
B. Vartapetian, I. Andreeva, I. Generozova, L. Polyakova, I. Maslova, Y. Dolgikh, A. Stepanova (2003)
Functional electron microscopy in studies of plant response and adaptation to anaerobic stress.Annals of botany, 91 Spec No
P. Saglio, P. Raymond, A. Pradet (1980)
Metabolic Activity and Energy Charge of Excised Maize Root Tips under Anoxia: CONTROL BY SOLUBLE SUGARS.Plant physiology, 66 6
H. Felle (2005)
pH regulation in anoxic plants.Annals of botany, 96 4
M. Drew, P. Saglio, A. Pradet (1985)
Larger adenylate energy charge and ATP/ADP ratios in aerenchymatous roots of Zea mays in anaerobic media as a consequence of improved internal oxygen transportPlanta, 165
(1978)
Plant Cell under Oxygen Stress, Plant Life in Anaerobic
B.B. Vartapetian, I.N. Andreeva, I.P. Maslova (1972)
Root Mitochondria Ultrastructure under Anoxia and Increased TemperaturesFiziol. Rast. (Moscow), 19
L. Polyakova, B. Vartapetian (2003)
Exogenous Nitrate as a Terminal Acceptor of Electrons in Rice (Oryza sativa) Coleoptiles and Wheat (Triticum aestivum) Roots under Strict AnoxiaRussian Journal of Plant Physiology, 50
F. Menegus, Liliana Cattaruzza, Monica Mattana, N. Beffagna, E. Ragg (1991)
Response to Anoxia in Rice and Wheat Seedlings: Changes in the pH of Intracellular Compartments, Glucose-6-Phosphate Level, and Metabolic Rate.Plant physiology, 95 3
(1996)
Anaerobic Expression of Hexokinase in Shoots of Ehinochloa phyllopogan and Ehinochloa crus-pavonia
(1993)
Structural and Functional Properties of Forming of Maize Adaptation to Flooding, Fiziol
M. Jackson, T. Colmer (2005)
Response and adaptation by plants to flooding stress.Annals of botany, 96 4
Chuanjiu He, M. Drew, Page Morgan (1994)
Induction of Enzymes Associated with Lysigenous Aerenchyma Formation in Roots of Zea mays during Hypoxia or Nitrogen Starvation, 105
Allen Good, William Crosby (1989)
Anaerobic induction of alanine aminotransferase in barley root tissue.Plant physiology, 90 4
C. Costes, B. Vartapetian (1978)
Plant grown in a vacuum: The ultrastructure and functions of mitochondriaPlant Science Letters, 11
Cellular and molecular biology of plant stress
Journal of Cellular Biochemistry, 26
B.B. Vartapetian, H.G. Snkhchian, I.P. Generozova (1987)
Plant Life in Aquatic and Amphibious Habitats
M. Altschuler, J. Mascarenhas (1982)
Heat shock proteins and effects of heat shock in plantsPlant Molecular Biology, 1
B. Vartapetian, H. Snkchian, I. Generozova, R. Crawford (1987)
Mitochondrial fine structure in imbibing seeds and seedlings of Zea mays L. under anoxia.
H. Kende, Esther Knaap, Hyung-Taeg Cho (1998)
Deepwater rice: A model plant to study stem elongationPlant physiology, 118 4
C. Mujer, M. Rumpho, J. Lin, R. Kennedy (1993)
Constitutive and Inducible Aerobic and Anaerobic Stress Proteins in the Echinochloa Complex and Rice, 101
W. Vriezen, Zhongyi Zhou, D. Straeten (2003)
Regulation of submergence-induced enhanced shoot elongation in Oryza sativa L.Annals of botany, 91 Spec No
Justin Roberts, D. Wemmer, P. Ray, O. Jardetzky (1982)
Regulation of Cytoplasmic and Vacuolar pH in Maize Root Tips under Different Experimental Conditions.Plant physiology, 69 6
D. Andrews, B. Cobb, J. Johnson, M. Drew (1993)
Hypoxic and Anoxic Induction of Alcohol Dehydrogenase in Roots and Shoots of Seedlings of Zea mays (Adh Transcripts and Enzyme Activity), 101
L. Monk, K. Fagerstedt, R. Crawford (1987)
Superoxide Dismutase as an Anaerobic Polypeptide : A Key Factor in Recovery from Oxygen Deprivation in Iris pseudacorus?Plant physiology, 85 4
T. Rees, L. Jenkin, Alison Smith, P. Wilson, R. Crawford (1987)
The metabolism of flood-tolerant plants.
Subbaiah, Bush, Sachs (1998)
Mitochondrial contribution to the anoxic Ca2+ signal in maize suspension-cultured cellsPlant physiology, 118 3
R. Brändle (1985)
Kohlehydratgehalte und Vitalität isolierter Rhizome von Phragmites australis, Schoenoplectus lacustris und Typha latifolia nach mehrwöchigem O2-MangelstreßFlora, 177
A. Gunawardena, D. Pearce, M. Jackson, C. Hawes, D. Evans (2001)
Rapid changes in cell wall pectic polysaccharides are closely associated with early stages of aerenchyma formation, a spatially localized form of programmed cell death in roots of maize ( Zea mays L.) promoted by ethylenePlant Cell and Environment, 24
Margaret Johnson (1994)
The Arabidopsis thaliana myo-Inositol 1-Phosphate Synthase (EC 5.5.1.4), 105
B. Vartapetian (2005)
Plant Anaerobic Stress as a Novel Trend in Ecological Physiology, Biochemistry, and Molecular Biology: 1. Establishment of a New Scientific DisciplineRussian Journal of Plant Physiology, 52
(1996)
Glycolytic Activity and Resistance to Anoxia in Excised Roots of Pisum sativum L .
G. Fox, N. McCallan, R. Ratcliffe (2004)
Manipulating cytoplasmic pH under anoxia: A critical test of the role of pH in the switch from aerobic to anaerobic metabolismPlanta, 195
T.-H.D. Ho, M.M. Sachs (1989)
The Biochemistry of Plants
Airica Baxter-Burrell, Ruth Chang, P. Springer, J. Bailey-Serres (2003)
Gene and enhancer trap transposable elements reveal oxygen deprivation-regulated genes and their complex patterns of expression in Arabidopsis.Annals of botany, 91 Spec No
H. Selye (1946)
The Physiology and Pathology of Exposure to Stress. A Treatise Based on the Concept of the General Adaptation Syndrome and the Diseases of AdaptationThe Indian Medical Gazette, 87
J. Johnson, B. Cobb, M. Drew (1989)
Hypoxic Induction of Anoxia Tolerance in Root Tips of Zea mays.Plant physiology, 91 3
O. Blokhina, Eija Virolainen, K. Fagerstedt (2003)
Antioxidants, oxidative damage and oxygen deprivation stress: a review.Annals of botany, 91 Spec No
Tatsuhisa Sato, T. Harada, K. Ishizawa (2002)
Stimulation of glycolysis in anaerobic elongation of pondweed (Potamogeton distinctus) turions.Journal of experimental botany, 53 376
V. Saint-Gés, C. Roby, R. Bligny, A. Pradet, R. Douce (1991)
Kinetic studies of the variations of cytoplasmic pH, nucleotide triphosphates (31P-NMR) and lactate during normoxic and anoxic transitions in maize root tips.European journal of biochemistry, 200 2
T.V. Chirkova (1988)
Adaptatsiya rastenii k gipoksii i anoksii
A. Alpi, P. Perata, H. Beevers (1985)
Physiological responses of cereal seedlings to ethanolJournal of Plant Physiology, 119
C. Francis, A. Devitt, P. Steele (1974)
Influence of Flooding on the Alcohol Dehydrogenase Activity of Roots of Trifolium subterraneum L.Functional Plant Biology, 1
J.K.M. Roberts, J. Callis, D. Weemmer, V. Walbot, O. Jardetzky (1984)
Mechanism of Cytoplasmic pH Regulation in Hypoxic Maize Root Tips and Its Role in Survival under HypoxiaProc. Natl. Acad. Sci. USA, 81
M. Kawase (1981)
EFFECT OF ETHYLENE ON AERENCHYMA DEVELOPMENTAmerican Journal of Botany, 68
I. Zs.-Nagy, C. Galli (1977)
On the possible role of unsaturated fatty acids in the anaerobiosis of Anodonta cygenea L. (Mollusca, Pelecypoda).Acta biologica Academiae Scientiarum Hungaricae, 28 1
H. Tsuji (1972)
Respiratory activity in rice seedlings germinated under strictly anaerobic conditionsThe botanical magazine = Shokubutsu-gaku-zasshi, 85
P. Perata, N. Geshi, J. Yamaguchi, T. Akazawa (1993)
Effect of anoxia on the induction of α-amylase in cereal seedsPlanta, 191
T. Colmer, M. Gibberd, A. Wiengweera, T. Tinh (1998)
The barrier to radial oxygen loss from roots of rice (Oryza sativa L.) is induced by growth in stagnant solutionJournal of Experimental Botany, 49
(1978)
Metabolic Adaptation to Anoxia, Plant Life in Anaerobic
D. Schwartz (1969)
An Example of Gene Fixation Resulting from Selective Advantage in Suboptimal ConditionsThe American Naturalist, 103
(1991)
Fruit Metabolism and Practical Problems of Fruit Storage under Hypoxia and Anoxia, Plant Life under Oxygen Deprivation
J. Summers, R. Ratcliffe, Michael Jackson (2000)
Anoxia tolerance in the aquatic monocot Potamogeton pectinatus absence of oxygen stimulates elongation in association with an unusually large pasteur effect.Journal of experimental botany, 51 349
F. Ponnamperuma (1984)
CHAPTER 2 – Effects of Flooding on Soils
(1976)
Transport of 14C-Sucrose in Cotton Plants during Oxygen Starvation in Roots
J. Armstrong, W. Armstrong (2005)
Rice: sulfide-induced barriers to root radial oxygen loss, Fe2+ and water uptake, and lateral root emergence.Annals of botany, 96 4
V. Andreev, B. Vartapetian (1992)
Induction of alcoholic and lactic fermentation in the early stages of anaerobic incubation of higher plantsPhytochemistry, 31
(1991)
Eds., Plant Life under Oxygen Deprivation
Euan Taylor, Xianzhou Nie, A. Macgregor, R. Hill (1994)
A cereal haemoglobin gene is expressed in seed and root tissues under anaerobic conditionsPlant Molecular Biology, 24
B. Vartapetian, M. Jackson (1997)
Plant adaptations to anaerobic stressAnnals of Botany, 79
W. Armstrong, J. Armstrong (2005)
Stem photosynthesis not pressurized ventilation is responsible for light-enhanced oxygen supply to submerged roots of alder (Alnus glutinosa).Annals of botany, 96 4
B. Vartapetian, A. Maslov, I. Andreeva (1975)
Cytochromes and respiratory activity of mitochondria in anaerobically grown rice coleoptilesPlant Science Letters, 4
Y.Y. Ford, R.G. Ratcliffe, R.J. Robins (1996)
Phytohormone Induced GABA Production in Transformed Root Cultures of Datura stramonium: An In Vivo 15N-NMR StudyJ. Exp. Bot., 47
B. Vartapetian, I. Andreeva, G. Kozlova (1976)
The resistance to anoxia and the mitochondrial fine structure of rice seedlingsProtoplasma, 88
P.H. Saglio, V. Germain, B. Ricard (1999)
Plant Responses to Environmental Stresses: From Phytohormones to Genome Reorganization. Books in Soils, Plants and the Environment
(2004)
Molecular Responses to Anaerobic Stress in Maize, Abst
(1996)
Glycolytic Activity and Resistance to Anoxia in Excised Roots of Pisum sativum L., Fiziol
(1990)
Organic Matter Dynamics, Soil Properties and Cultural Practices in Rice Lands and Their Relationship to Methane Production, Soils and Greenhouse Effect
B.B. Vartapetian, A.L. Kursanov (1970)
Oxygen in Roots and Its Transport in PlantsS.-kh. Biol., 5
M.M. Sachs, T.-H.D. Ho (1986)
Alteration of Gene Expression during Environmental Stresses in PlantsAnnu. Rev. Plant Physiol., 37
This review is a logical development of a previous publication, which summarized the main results of the early period of the systematic and active studying of hypoxic and anoxic stresses in plants. These studies laid a foundation for a new scientific discipline in biology, the investigation relevant to plant anaerobic stress. This review considers a further development of this trend when the investigations embraced a wider set of topics and the discipline acquired an international recognition. The results obtained during last decades by physiologists, biochemists, and molecular biologists engaged in the problem of plant anaerobic stress confirmed the correctness of a concept of the two principal strategies of plant adaptation to hypoxia and anoxia conditions. They are “true” tolerance manifesting at the molecular level under conditions of oxygen deficiency or its absence and “apparent” tolerance, which is realized by avoidance of anaerobiosis due to the long-distance oxygen transport. Therefore, experimental material available now is considered and discussed in this review mainly in the light of these principal notions. Especial attention is paid to the role of stress proteins, which synthesis is induced under hypoxia and anoxia. The results of these experiments confirmed earlier conclusions about the key role of energy (glycolysis and alcoholic fermentation) and carbohydrate (mobilization and utilization of reserved carbohydrates) metabolism in plant adaptation to oxygen deficiency or its absence from the environment. The phenomenon of hypoxic acclimation and its role in plant adaptation to anoxia are also considered. Along with these topics, a further development of pH-stat theory is discussed. A special attention is paid to plant strategy realized by the formation of the net of air-filled spaces (aerenchyma) and long-distance oxygen transport from aerated plant parts to those located in anaerobic environment (apparent tolerance). Among other important aspects, we consider (1) post-anaerobic plant injury by free oxygen radicals; (2) the physiological role of alternative pathways of plant adaptation (nitrate reduction and lipid synthesis); (3) the phenomenon of the adaptation syndrome in plants and possible molecular mechanisms of its realization; and (4) some biotechnological advances in the field of genetic and cell engineering used for the creation of plants more tolerant to anaerobic stress.
Russian Journal of Plant Physiology – Springer Journals
Published: Oct 26, 2006
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.