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W. Appel (1974)
Amino Acid Arylamidases (“Leucine-nitroanilidase”)
J. Wolfson, L. Murdock (1990)
Growth of Manduca sexta on wounded tomato plants: role of induced proteinase inhibitorsEntomologia Experimentalis et Applicata, 54
R. Karban (1999)
Insect-Plant Interactions and Induced Plant Defence (Novartis Foundation Symposium 223)
U. Maldonado, A. Estrada (1986)
Grain Amaranth: Expanding Consumption Through Improved Cropping, Marketing and Crop Development
M. Segura-Nieto, N. Vazquez-Sanchez, Hilda. Rubio-Velazquez, Laura Olguin-Martinez, Carlos Rodriguez-Nester, L. Herrera-Estrella (1992)
Characterization of amaranth (Amaranthus hypochondriacus L.) seed proteinsJournal of Agricultural and Food Chemistry, 40
W. Appel (1974)
Methods of Enzymatic Analysis
R. Karban (1999)
Future use of plant signals in agricultural and industrial crops.Novartis Foundation symposium, 223
Deping Xu, X. Duan, Baiyang Wang, B. Hong, T. Ho, R. Wu (1996)
Expression of a Late Embryogenesis Abundant Protein Gene, HVA1, from Barley Confers Tolerance to Water Deficit and Salt Stress in Transgenic Rice, 110
G. Lyon, A. Newton, A. Agrawal, S. Tuzun, E. Bent (1999)
Implementation of elicitor mediated induced resistance in agriculture.
Siegfried Blechert, W. Brodschelm, Swen Hölder, Lothar Kammerer, T. Kutchan, Martin Mueller, Zhi-Qiang Xia, M. Zenk (1995)
The octadecanoic pathway: signal molecules for the regulation of secondary pathways.Proceedings of the National Academy of Sciences of the United States of America, 92 10
G. English-loeb, M. Stout, S. Duffey (1997)
Drought stress in tomatoes : changes in plant chemistry and potential nonlinear consequences for insect herbivoresOikos, 79
L. Corcuera (1993)
Biochemical basis for the resistance of barley to aphidsPhytochemistry, 33
R. Becker, E. Wheeler, K. Lorenz, A. Stafford, O. Grosjean, A. Betschart, R. Saunders (1981)
A Compositional Study of Amaranth GrainJournal of Food Science, 46
D. Cipollini, Ahnya Redman (1999)
Age-Dependent Effects of Jasmonic Acid Treatment and Wind Exposure on Foliar Oxidase Activity and Insect Resistance in TomatoJournal of Chemical Ecology, 25
E. Espitia-Rangel (1990)
El Amaranto Amaranthus spp. Su Cultivo y Aprovechamiento. Colegio de Postgraduados
M. Cordero, D. Raventós, B. Segundo (1994)
Differential expression and induction of chitinases and β-1,3-glucanases in response to fungal infection during germination of maize seedsMolecular Plant-microbe Interactions, 7
N. Dam, M. Horn, M. Mareš, I. Baldwin (2001)
Ontogeny Constrains Systemic Protease Inhibitor Response in Nicotiana attenuataJournal of Chemical Ecology, 27
J. S. Thaler (1999)
Ecology and Agriculture
B. Erlanger, Nicholas Kokowsky, William Cohen (1961)
The preparation and properties of two new chromogenic substrates of trypsin.Archives of biochemistry and biophysics, 95
M. Stout, Jeff Workman, S. Duffey (1994)
Differential induction of tomato foliar proteins by arthropod herbivoresJournal of Chemical Ecology, 20
Gary Felton, C. Summers, A. Mueller (1994)
Oxidative responses in soybean foliage to herbivory by bean leaf beetle and three-cornered alfalfa hopperJournal of Chemical Ecology, 20
R. Teutonico, D. Knorr (1985)
Amaranth: Composition, properties, and applications of a rediscovered food crop
A. Gervaix, G. Kessels, S. Suter, P. Lew, A. Verhoeven (1991)
The chymotrypsin inhibitor carbobenzyloxy-leucine-tyrosine-chloromethylketone interferes with the neutrophyl respirator burst mediated by a signaling pathway independent of PtdIns P2 breakdown and cytosolic free calciumJ. Immunol., 47
S. Valdés‐Rodríguez, Magdalena Segura-Nieto, A. Chagolla-López, Aurora Verver, Vargas-Cortina, Norma Martinez-Callardo, A. Blanco-Labra (1993)
Purification, Characterization, and Complete Amino Acid Sequence of a Trypsin Inhibitor from Amaranth (Amaranthus hypochondriacus) Seeds, 103
K. C. Gross (1982)
A rapid and sensitive spectrophotometric method for assaying polygalacturonase using 2-cyanoacetamideHorticult. Sci., 17
(1999)
Jasmonic acid-signaled responses in plants, pp
R. Sokal, F. Rohlf, Freeman, Co. (1969)
Biometry: The Principles and Practice of Statistics in Biological Research
Yi Xu, P. Chang, Dong Liu, M. Narasimhan, K. Raghothama, P. Hasegawa, R. Bressan (1994)
Plant Defense Genes Are Synergistically Induced by Ethylene and Methyl Jasmonate.The Plant cell, 6
I. Baldwin (1999)
The jasmonate cascade and the complexity of induced defense against herbivore attack
M. Wink (1999)
Functions of Plant Secondary Metabolites and Their Exploitation in Biotechnology
J. Memelink, R. Verpoorte, J. Kijne (2001)
ORCAnization of jasmonate-responsive gene expression in alkaloid metabolism.Trends in plant science, 6 5
K. Gross (1982)
A rapid and sensitive spectrophotometric method for assaying polygalacturonase using 2-cyanoacetamide [Tomato, fruit softening]Hortscience, 17
I. T. Baldwin (1999)
Annual Plant Reviews
J. Bewley (1997)
Seed Germination and Dormancy.The Plant cell, 9
P. E. Staswick, C. C. Lehman (1999)
Induced Plant Defenses Against Pathogens and Herbivores: Biochemistry, Ecology and Agriculture
M. Orozco-Cárdenas, B. McGurl, Clarence Ryan (1993)
Expression of an antisense prosystemin gene in tomato plants reduces resistance toward Manduca sexta larvae.Proceedings of the National Academy of Sciences of the United States of America, 90 17
R. Bird, R. Hopkins (1954)
The action of some α-amylases on amyloseBiochemical Journal, 56
M. L. Sandoval-Cardoso (1991)
BSc dissertation
J. Gatehouse (2002)
Plant resistance towards insect herbivores: a dynamic interaction.The New phytologist, 156 2
Edward Farmer, Russell Johnson, Clarence Ryan (1992)
Regulation of expression of proteinase inhibitor genes by methyl jasmonate and jasmonic Acid.Plant physiology, 98 3
J. Thaler, M. Stout, R. Karban, S. Duffey (2001)
Jasmonate‐mediated induced plant resistance affects a community of herbivoresEcological Entomology, 26
A. Gervaix, G. Kessels, S. Suter, D. Lew, A. Verhoeven (1991)
117 THE CHYMOTRYPSIN INHIBITOR CARBOBENZYLOXY-LEUCINE TYROSINE-CHLOROMETHYLKETONE (zLYCK) INTERFERES WITH THE NEUTROPHIL RESPIRATORY BURST MEDIATED BY A SIGNALING PATHWAY INDEPENDENT OF PtdinsP2 BREAKDOWN AND CYTOSOLIC FREE CALCIUMPediatric Research, 30
J. Lehmann, R. Atzorn, C. Brückner, S. Reinbothe, J. Leopold, C. Wasternack, B. Parthier (1995)
Accumulation of jasmonate, abscisic acid, specific transcripts and proteins in osmotically stressed barley leaf segmentsPlanta, 197
J. Pickering, J. Hewitt
The Action of
Donald Jr. (1997)
Wind-induced mechanical stimulation increases pest resistance in common beanOecologia, 111
C. S. Kauffman, L. E. Weber (1990)
Advances in New Crops. Proceedings of the First National Symposium on New Crops
A. Chagolla-López, A. Blanco-Labra, A. Patthy, R. Sanchez, S. Pongor (1994)
A novel alpha-amylase inhibitor from amaranth (Amaranthus hypocondriacus) seeds.The Journal of biological chemistry, 269 38
R. R. Sokal, F. J. Rohlf (1969)
The Principles and Practice of Statistics in Biological Research
T. Welham, M. O’Neill, Steig Johnson, Trevor Wang, C. Domoney (1998)
Expression patterns of genes encoding seed trypsin inhibitors in Pisum sativumPlant Science, 131
S. Reinbothe, B. Mollenhauer, C. Reinbothe (1994)
JIPs and RIPs: the regulation of plant gene expression by jasmonates in response to environmental cues and pathogens.The Plant cell, 6
F. Lopez, G. Vansuyt, J. Derancourt, P. Fourcroy, F. Casse-Delbart (1994)
Identification by 2D-page analysis of salt-stress induced proteins in radish (Raphanus sativus).Cellular and molecular biology, 40 1
U. Wittstock, J. Gershenzon (2002)
Constitutive plant toxins and their role in defense against herbivores and pathogens.Current opinion in plant biology, 5 4
P. Vera, J. Yago, V. Conejero (1988)
Immunocytochemical localization of the major “Pathogenesis-related” (PR) protein of tomato plantsPlant Science, 55
(1986)
High-tech crop breeding may ease world hunger
(1999)
Insectos asociados con el
J. Alarcón, M. Malone (1995)
The influence of plant age on wound induction of proteinase inhibitors in tomatoPhysiologia Plantarum, 95
J. Thaler (1999)
Jasmonate-inducible plant defences cause increased parasitism of herbivoresNature, 399
H. Flint, F. Wilson, D. Hendrix, Leggett Je, S. Naranjo, T. Henneberry, J. Radin (1994)
The effect of plant water stress on beneficial and pest insects including the pink bollworm and the sweetpotato whitefly in two short-season cultivars of cottonSouthwestern Entomologist
Wichita Downtown (1973)
Amaranthus edulis: a high lysine grain amaranthWorld crops
J. Villagómez-Castro, C. Calvo-Méndez, E. López-Romero (1992)
Chitinase activity in encysting Entamoeba invadens and its inhibition by allosamidin.Molecular and biochemical parasitology, 52 1
(1983)
Amaranth (pigweed): A crop to help solve the world protein shortage
J. Thaler, M. Stout, R. Karban, S. Duffey (1996)
Exogenous jasmonates simulate insect wounding in tomato plants (Lycopersicon esculentum) in the laboratory and fieldJournal of Chemical Ecology, 22
M. Bradford (1976)
A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding.Analytical biochemistry, 72
M. Holdsworth, S. Kurup, Rowan MKibbin (1999)
Molecular and genetic mechanisms regulating the transition from embryo development to germinationTrends in Plant Science, 4
A. Omer, J. Thaler, J. Granett, R. Karban (2000)
Jasmonic Acid Induced Resistance in Grapevines to a Root and Leaf Feeder, 93
J. Thaler (1999)
Induced Resistance in Agricultural Crops: Effects of Jasmonic Acid on Herbivory and Yield in Tomato PlantsEnvironmental Entomology, 28
(2004)
Efecto de la luz sobre la acumulación de inhibidores de proteasas en Amaranthus hypochondriacus . MSc dissertation . Cinvestav I . P . N . at Irapuato , México
W. Horwitz (1980)
Official Methods of Analysis
M. Reviron, N. Vartanian, M. Sallantin, J. Huet, J. Pernollet, D. Vienne (1992)
Characterization of a Novel Protein Induced by Progressive or Rapid Drought and Salinity in Brassica napus Leaves.Plant physiology, 100 3
N. Inouchi, K. Nishi, S. Tanaka, M. Asai, Y. Kawase, Y. Hata, Y. Konishi, S. Yue, H. Fuwa (1999)
Characterization of Amaranth and Quinoa StarchesJournal of applied glycoscience, 46
Anurag Agrawal (2000)
Overcompensation of plants in response to herbivory and the by-product benefits of mutualism.Trends in plant science, 5 7
G. D. Lyon, A. C. Newton (1999)
Biochemistry, Ecology and Agriculture
Jimmy Lam, K. Pwee, Wendell Sun, Y. Chua, Xing-Jun Wang (1999)
Enzyme-stabilizing activity of seed trypsin inhibitors during desiccationPlant Science, 142
Yu-Yi Zheng, C. Wozniak (1997)
Adaptation of a β-1,3-glucanase assay to microplate formatBioTechniques, 22
(1986)
Amaranth genetic variation and utilization in Mexico, pp
J. Dombrowski (2003)
Salt Stress Activation of Wound-Related Genes in Tomato Plants1Plant Physiology, 132
Amaranthus hypochondriacus is a C4 pseudocereal crop capable of producing reasonable grain yields in adverse environmental conditions that limit cereal performance. It accumulates trypsin inhibitors and α-amylase inhibitors in seeds and leaves that are considered to act as insect feeding deterrents. Foliar trypsin and α-amylase inhibitors also accumulate by treatment with exogenous jasmonic acid (JA) in controlled laboratory conditions. Three field experiments were performed in successive years to test if two nonphytotoxic dosages of JA were capable of inducing inhibitor activity in A. hypochondriacus in agronomical settings, and if this induced response reduced insect herbivory and insect abundance in foliage and seed heads. The performance of JA-treated plants was compared to insecticide-treated plants and untreated controls. The effect of exogenous JA on the foliar levels of six additional putatively defence proteins was also evaluated. Possible adverse effects of JA induction on productivity were evaluated by measuring grain yield, seed protein content, and germination efficiency. The results present a complex pattern and were not consistent from year to year. To some extent, the yearly variability observed could have been consequence of growth under drought versus nondrought conditions. In a drought year, JA-treated plants had lower levels of insect herbivory-derived damage in apical leaves and panicle than control plants, whereas in nondrought years, there was an inconsistent effect on aphids, with no effect on lepidopteran larvae. JA treatments reduced the size of the insect community in seed heads. The effect varied with year. Exogenous JA did not adversely affect productivity, and in the absence of drought stress, the higher dosage enhanced grain yield. Induction of defensive proteins by JA, although sporadic, was more effective in nondrought conditions. The patterns of foliar protein accumulation observed suggest that they may be part of a constitutive, rather than inducible, chemical defense mechanism that is developmentally regulated and critically dependent on the environment. The results emphasize the difficulties that are often encountered when evaluating the performance of chemical elicitors of induced resistance in field settings.
Journal of Chemical Ecology – Springer Journals
Published: Oct 18, 2004
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