Access the full text.
Sign up today, get DeepDyve free for 14 days.
Anthony Gordon, F. Minchin, C. James, O. Komina (1999)
Sucrose synthase in legume nodules is essential for nitrogen fixationPlant physiology, 120 3
'. Smith, K. Blee, Anne Anderson (1996)
Defense-Related Transcript Accumulation in Phaseolus vulgaris L. Colonized by the Arbuscular Mycorrhizal Fungus Glomus intraradices Schenck & Smith, 110
(1991)
Timing of elicitor-mediated events
James Robertson, M. Taylor (1973)
Acid and alkaline invertases in roots and nodules of Lupinus angustifolius infected with Rhizobium lupiniPlanta, 112
Forrest Fuller, Peter Künstner, Truyen Nguyen, D. Verma (1983)
Soybean nodulin genes: Analysis of cDNA clones reveals several major tissue-specific sequences in nitrogen-fixing root nodules.Proceedings of the National Academy of Sciences of the United States of America, 80 9
J. Holley, R. Peterson (1979)
Development of a vesicular-arbuscular mycorrhiza in bean roots.Botany, 57
L. Angerer, R. Angerer (1991)
Localization of mRNAs by in situ hybridization.Methods in cell biology, 35
Ai‐Yu Wang, Man-Han Kao, Weibing Yang, Yiyang Sayion, Li-Fei Liu, Ping-Du Lee, J. Su (1999)
Differentially and developmentally regulated expression of three rice sucrose synthase genes.Plant & cell physiology, 40 8
B. Ylstra, Dolores Garrido, J. Busscher, A. Tunen (1998)
Hexose transport in growing petunia pollen tubes and characterization of a pollen-specific, putative monosaccharide transporter.Plant physiology, 118 1
L. Angerer, R. Angerer (1991)
Chapter 2 Localization of mRNAs by in Situ HybridizationMethods in Cell Biology, 35
K. Blee, A. Anderson (1998)
Regulation of arbuscule formation by carbon in the plantPlant Journal, 16
C. Marx, J. Dexheimer, V. Gianinazzi‐Pearson, S. Gianinazzi (1982)
ENZYMATIC STUDIES ON THE METABOLISM OF VESICULAR–ARBUSCULAR MYCORRHIZASNew Phytologist, 90
A. Anderson, K. Rogers, C. Tepper, K. Blee, J. Cardon (1991)
Timing of molecular events following elicitor treatment of plant cellsPhysiological and Molecular Plant Pathology, 38
H. Winter, S.C. Huber (2000)
Regulation of sucrose metabolism in higher plants: localization and regulation of activity of key enzymesCriti. Rev. Biochem. Mol. Biol., 35
P. Salzer, T.R Boller (2000)
Current Advances in Mycorrhizae Research: Integrating Principles of Plant Pathology and Molecular Biology
(1999)
Arbuscular mycorrhizal fungi and defense responses in plants
G. Sal, G. Manfioletti, C. Schneider (1988)
A one-tube plasmid DNA mini-preparation suitable for sequencing.Nucleic acids research, 16 20
(1989)
Phloem unloading of photoassimilates
P.S. Dick, T. ap Rees (1975)
The pathway of sugar transport in roots of Pisum sativumJ. Exp. Bot., 26
H. Winter, S. Huber (2000)
Regulation of Sucrose Metabolism in Higher Plants: Localization and regulation of Activity of Key EnzymesCritical Reviews in Plant Sciences, 19
P. Geigenberger, Silke Langenberger, I. Wilke, D. Heineke, H. Heldt, M. Stitt (1993)
Sucrose is metabolised by sucrose synthase and glycolysis within the phloem complex of Ricinus communis L. seedlingsPlanta, 190
Ying Zeng, Yong Wu, W. Avigne, K. Koch (1999)
Rapid repression of maize invertases by low oxygen. Invertase/sucrose synthase balance, sugar signaling potential, and seedling survival.Plant physiology, 121 2
D. Long, A. Fung, E. McGee, R. Cooke, D. Lewis (1975)
THE ACTIVITY OF INVERTASE AND ITS RELEVANCE TO THE ACCUMULATION OF STORAGE POLYSACCHARIDES IN LEAVES INFECTED BY BIOTROPHIC FUNGINew Phytologist, 74
A. Sturm, G. Tang (1999)
The sucrose-cleaving enzymes of plants are crucial for development, growth and carbon partitioning.Trends in plant science, 4 10
(2000)
arbuscular mycorrhiza in bean
(1975)
Ultrastructural evidence relating to host-endophyte transfer in a vesicular-arbuscular mycorrhiza
H. W. Dehne (1986)
Physiological and Genetic Aspects of Mycorrhizae
N. Nelson (1944)
A PHOTOMETRIC ADAPTATION OF THE SOMOGYI METHOD FOR THE DETERMINATION OF GLUCOSEJournal of Biological Chemistry, 153
D. Bush (1999)
Sugar transporters in plant biology.Current opinion in plant biology, 2 3
R. Ehness, M. Ecker, D. Godt, T. Roitsch (1997)
Glucose and Stress Independently Regulate Source and Sink Metabolism and Defense Mechanisms via Signal Transduction Pathways Involving Protein Phosphorylation.The Plant cell, 9
Dawn Luthe, R. Quatrano (1980)
Transcription in Isolated Wheat Nuclei: I. ISOLATION OF NUCLEI AND ELIMINATION OF ENDOGENOUS RIBONUCLEASE ACTIVITY.Plant physiology, 65 2
W. Eschrich (1989)
Transport of Photoassimilates
C. Marx, J. Dexheimer, V. Gianinazzi-Pearson, S. Gianinazzi (1982)
Enzymatic studies on the metabolism of vesicular-arbuscular mycorrhizas. IV. Ultracytoenzymological evidence (ATPase) for active transfer processes in the host-arbuscular interfaceNew Phytol., 9
Z. Tymowska‐Lalanne, M. Kreis (1998)
Expression of the Arabidopsis thaliana invertase gene familyPlanta, 207
D. Heisterüber, P. Schulte, B. Moerschbacher (1994)
Soluble carbohydrates and invertase activity in stem rust-infected, resistant and susceptible near-isogenic wheat leavesPhysiological and Molecular Plant Pathology, 45
J. Logemann, Jeff Schell, Lothar Willmitzer (1987)
Improved method for the isolation of RNA from plant tissues.Analytical biochemistry, 163 1
F. Thummler, D. Verma (1987)
Nodulin-100 of soybean is the subunit of sucrose synthase regulated by the availability of free heme in nodules.The Journal of biological chemistry, 262 30
P. Dick, T. Rees (1975)
Effects of Water Stress on the Respiratory and Nitrogen-fixing Activity of Soybean Root NodulesJournal of Experimental Botany, 26
D. Godt, T. Roitsch (1997)
Regulation and Tissue-Specific Distribution of mRNAs for Three Extracellular Invertase Isoenzymes of Tomato Suggests an Important Function in Establishing and Maintaining Sink Metabolism, 115
C. Chin, G. Weston (1973)
Distribution in excised Lycopersicum esculentum roots of the principal enzymes involved in sucrose metabolismPhytochemistry, 12
J. Patrick (1989)
Solute Efflux From the Host at Plant-Microorganism InterfacesAustralian Journal of Plant Physiology, 16
R. Warmbrodt (1985)
Studies on the Root of Zea mays L.-Structure of the Adventitious Roots with Respect to Phloem UnloadingBotanical Gazette, 146
Y. Shachar-Hill, P. Pfeffer, D. Douds, S. Osman, L. Doner, R. Ratcliffe (1995)
Partitioning of Intermediary Carbon Metabolism in Vesicular-Arbuscular Mycorrhizal Leek, 108
A. Sturm, S. Lienhard, S. Schatt, M. Hardegger (2004)
Tissue-specific expression of two genes for sucrose synthase in carrot (Daucus carota L.)Plant Molecular Biology, 39
J. Sambrook, E. Fritsch, T. Maniatis (2001)
Molecular Cloning: A Laboratory Manual
S. Gianinazzi, J. Dexheimer, V. Gianinazzi‐Pearson, C. Marx (1983)
Role of the host-arbuscule interface in the VA mycorrhizal symbiosis: ultracytological studies of processes involved in phosphate and carbohydrate exchangePlant and Soil, 71
P. Tomlinson, E. Duke, K. Nolte, K. Koch (1991)
Sucrose synthase and invertase in isolated vascular bundles.Plant physiology, 97 3
H. Vierheilig, M. Knoblauch, K. Juergensen, A. Bel, F. Grundler, Y. Piché (2001)
Imaging arbuscular mycorrhizal structures in living roots of Nicotiana tabacum by light, epifluorescence, and confocal laser scanning microscopyBotany, 79
Jae-Yean Kim, Aline Mahé, J. Brangeon, J. Prioul (2000)
A maize vacuolar invertase, IVR2, is induced by water stress. Organ/tissue specificity and diurnal modulation of expression.Plant physiology, 124 1
T. Roitsch, M. Bittner, E. Codt (1995)
Induction of Apoplastic Invertase of Chenopodium rubrum by D-Glucose and a Glucose Analog and Tissue-Specific Expression Suggest a Role in Sink-Source Regulation, 108
P. Chourey, O. Nelson (1976)
The enzymatic deficiency conditioned by the shrunken-1 mutations in maizeBiochemical Genetics, 14
D. Wright, B. Baldwin, M. Shephard, J. Scholes (1995)
Source-sink relationships in wheat leaves infected with powdery mildew. II. Changes in the regulation of the Calvin cyclePhysiological and Molecular Plant Pathology, 47
S. Smith, V. Gianinazzi‐Pearson, R. Koide, J. Cairney (1994)
Nutrient transport in mycorrhizas: structure, physiology and consequences for efficiency of the symbiosisPlant and Soil, 159
A. Gordon, B. Thomas, P. Reynolds (1992)
Localization of sucrose synthase in soybean root nodules.The New phytologist, 122 1
J. Callow, D. Long, E. Lithgow (1980)
Multiple molecular forms of invertase in maize smut infectionsPhysiologial Plant Pathology, 16
P. Bonfante-Fasolo, B. Vian, S. Perotto, A. Faccio, J. Knox (1990)
Cellulose and pectin localization in roots of mycorrhizalAllium porrum: labelling continuity between host cell wall and interfacial materialPlanta, 180
(2000)
Elicitor induced reactions in mycorrhizae and their suppression
Y. Amor, C. Haigler, S. Johnson, Melody Wainscott, D. Delmer (1995)
A membrane-associated form of sucrose synthase and its potential role in synthesis of cellulose and callose in plants.Proceedings of the National Academy of Sciences of the United States of America, 92 20
G. Heijne (1986)
A new method for predicting signal sequence cleavage sites.Nucleic acids research, 14 11
J. Thompson, D. Higgins, T. Gibson (1994)
CLUSTAL W: improving the sensitivity of progressive multiple sequence alignment through sequence weighting, position-specific gap penalties and weight matrix choice.Nucleic acids research, 22 22
P. Bonfante-Fasolo (1984)
VA Mycorrhiza
L. Schellenbaum, Joachim Müller, T. Boller, A. Wiemken, H. Schüepp (1998)
Effects of drought on non-mycorrhizal and mycorrhizal maize: changes in the pools of non-structural carbohydrates, in the activities of invertase and trehalase, and in the pools of amino acids and imino acidsNew Phytologist, 138
D. Luthe, R. Quatrano (2004)
Transcription in Isolated Wheat Nuclei VITRO1
R. Giaquinta, W. Lin, N. Sadler, V. Franceschi (1983)
Pathway of Phloem unloading of sucrose in corn roots.Plant physiology, 72 2
J. Dexheimer, S. Gianinazzi, V. Gianinazzi‐Pearson (1979)
Ultrastructural Cytochemistry of the Host-Fungus Interfaces in the Endornycorrhizal Association Glomus mosseae / Allium cepaZeitschrift für Pflanzenphysiologie, 92
I. Ho, J. Trappe (1973)
Translocation of C from Festuca plants to their endomycorrhizal fungi.Nature: New biology, 244 131
G. Cox, F.E. Sanders, P.B. Tinker, J.A. Wild (1975)
Endomycorrhizas
M. Guttenberger (2000)
Arbuscules of vesicular-arbuscular mycorrhizal fungi inhabit an acidic compartment within plant rootsPlanta, 211
J. Patrick (1990)
Sieve element unloading: cellular pathway, mechanism and controlPhysiologia Plantarum, 78
Heng‐Long Wang, Ping-Du Lee, Wei-Liang Chen, Dong-Jiann Huang, Jong‐Ching Su (2000)
Osmotic stress-induced changes of sucrose metabolism in cultured sweet potato cells.Journal of experimental botany, 51 353
D. Wright, B. Baldwin, M. Shephard, J. Scholes (1995)
Source-sink relationships in wheat leaves infected with powdery mildew. I. Alterations in carbohydrate metabolismPhysiological and Molecular Plant Pathology, 47
A. Sturm, M. Chrispeels (1990)
cDNA cloning of carrot extracellular beta-fructosidase and its expression in response to wounding and bacterial infection.The Plant cell, 2
M. Harrison (1996)
A sugar transporter from Medicago truncatula: altered expression pattern in roots during vesicular-arbuscular (VA) mycorrhizal associations.The Plant journal : for cell and molecular biology, 9 4
N. Benhamou, J. Grenier, M. Chrispeels (1991)
Accumulation of beta-Fructosidase in the Cell Walls of Tomato Roots following Infection by a Fungal Wilt Pathogen.Plant physiology, 97 2
M. Morell, L. Copeland (1985)
Sucrose synthase of soybean nodules.Plant physiology, 78 1
R. Lyne, T. Rees (1971)
Invertase and sugar content during differentiation of roots of Pisum sativumPhytochemistry, 10
T. Roitsch (1999)
Source-sink regulation by sugar and stress.Current opinion in plant biology, 2 3
(1986)
Influence of VA mycorrhizae on host plant physiology
Arbuscule formation by the arbuscular mycorrhizal fungus Glomus intraradices (Schenck & Smith) was limited to cortical cells immediately adjacent to the endodermis. Because these cortical cells are the first to intercept photosynthate exiting the vascular cylinder, transcript levels for sucrose metabolizing-enzymes were compared between mycorrhizal and non-mycorrhizal roots. The probes corresponded to genes encoding a soluble acid invertase with potential vacuolar targeting, which we generated from Phaseolus vulgaris roots, a Rhizobium-responsive sucrose synthase of soybean and a cell wall acid invertase of carrot. Transcripts in non-mycorrhizal roots were developmentally regulated and abundant in the root tips for all three probes but in differentiated roots of P. vulgaris they were predominantly located in phloem tissues for sucrose synthase or the endodermis and phloem for soluble acid invertase. In mycorrhizal roots increased accumulations of transcripts for sucrose synthase and vacuolar invertase were both observed in the same cortical cells bearing arbuscules that fluoresce. There was no effect on the expression of the cell wall invertase gene in fluorescent carrot cells containing arbuscules. Thus, it appears that presence of the fungal hyphae in the fluorescent arbusculated cell stimulates discrete alterations in expression of sucrose metabolizing enzymes to increase the sink potential of the cell.
Plant Molecular Biology – Springer Journals
Published: Oct 13, 2004
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.