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The Symbiotic Synthesis of Auxin by Legumes and Nodule Bacteria and its Eole in Nodule Development
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Modern Methods of Plant Analysis / Moderne Methoden der Pflanzenanalyse (1964)
The legume Rhizosphere
Dart P. J., Mercer F. V.
Archiv f�r Mikrobiologie. 1964 47(4). p.344
Progress in Botany, Vol. 71 (2010)
Genes Involved in Microbe-Plant Interactions (1984)
New Root Formation in Plants and Cuttings (1986)
Plant Hormones - Recent Advances, New Perspectives and Applications (2022)
Influence of Root‐Applied Epibrassinolide and Carbenoxolone on the Nodulation and Growth of Soybean (Glycine max L.) Seedlings
Hunter W. J.
Journal of Agronomy and Crop Science. 2001 186(4). p.217
Nodulation ofMedicago sativa in solution culture
Munns D. N.
Plant and Soil. 1968 28(1). p.129
Effect of gamma irradiation on indole acetic acid synthesizing system in potatoes
Ussuf K.K., Madhusudanan Nair P.
Phytochemistry. 1971 10(5). p.929
Croissance, teneur en auxine et catabolisme auxinique chez Rhizobium
Rigaud Jean
Archiv f�r Mikrobiologie. 1969 66(1). p.29
Products of Soil Microorganisms in Relation to Plant Growth
Lynch J. M., Audus L. J.
CRC Critical Reviews in Microbiology. 1976 5(1). p.67
QUANTITATIVE ESTIMATION OF INDOLEACETIC ACID AND INDOLECARBOXYLIC ACID IN ROOT NODULES AND ROOTS OF LUPINUS LUTEUS L.
Dullaart J.
Acta Botanica Neerlandica. 1967 16(6). p.222
Auxin Production by Species of Arthrobacter
KATZNELSON H., SIROIS J. C.
Nature. 1961 191(4795). p.1323
Establishment of Symbiosis between Rhizobium and Plant Cells in vitro
HOLSTEN R. D.,
BURNS R. C.,
HARDY R. W. F., HEBERT R. R.
Nature. 1971 232(5307). p.173
Evidence for the Transfer of Rhizobial Metabolites to the Polyploid Nuclei of Young Clover Nodules
BRUENING M. L., WULLSTEIN L. H.
Physiologia Plantarum. 1972 27(2). p.244
The Hormones (1964)
Soil Microbial Associations - control of structures and functions (1988)
The Influence of Infection by Dolichos enation mosaic on Nodulation and Nitrogen Fixation by Field Bean (Dolichos lablab L.))
Rajagopalan N., Raju P. N.
Journal of Phytopathology. 1972 73(4). p.285
Ecological Significance of Anthocyanins in the Seed Coats of the Phaseoleae
STANTON W. R., FRANCIS B. J.
Nature. 1966 211(5052). p.970
Contents of hormones, and indoleacetic acid metabolism in root nodules of Erythrina indicaLamk., Sesbania grandifloraPers., and Pterocarpus santalinusLinn.
Bhowmick P.K., Basu P.S.
Biochemie und Physiologie der Pflanzen. 1984 179(6). p.455
The Effect of Gibberellic Acid, when Applied to the Rooting Medium, on Nodulation and Nitrogen Fixation in Gram (Cicer arietinum)
Swaraj K., Garg O. P.
Physiologia Plantarum. 1970 23(4). p.747
Content of indoleacetic acid and its metabolism in root nodules ofMelilotus alba
Datta C., Basu P. S.
Folia Microbiologica. 1998 43(4). p.427
Studies on root nodules of leguminous plants bioproduction of indole acetic acid by a Rhizobium sp. from a twiner Clitoria ternatea L.
Roy M., Basu P. S.
Acta Biotechnologica. 1992 12(6). p.453
Production and metabolism of indole acetic acid in roots and root nodules of Phaseolus mungo
Ghosh Sisir, Basu P.S.
Microbiological Research. 2006 161(4). p.362
Influence of 5-Methyltryptophan-Resistant
Bradyrhizobium japonicum
on Soybean Root Nodule Indole-3-Acetic Acid Content
Hunter William J.
Applied and Environmental Microbiology. 1987 53(5). p.1051
Growth behaviour and IAA production by a Rhizobium sp. isolated from root nodules of a leguminous medicinal herb, Tephrosea purpurea Pers., in culture
De P.S., Basu P.S.
Microbiological Research. 1996 151(1). p.71
Der Tryptophanabbau bei Rhizobium leguminosarum
Hartmann Thomas, Glombitza Karl-Werner
Archiv f�r Mikrobiologie. 1967 56(1). p.1
Production of a Gibberellin-like Substance by Arthrobacter globiformis
KATZNELSON H.,
SIROIS J. C., COLE SHIRLEY E.
Nature. 1962 196(4858). p.1012
Relationships between nodulation and auxin level in pea roots
El-Desouky S. A.,
Psota V.,
Šebánek J., Choi G. N.
Biologia Plantarum. 1988 30(6). p.427
Studies on the root nodules of leguminous plants: The production of indole acetic acid in culture by a Rhizobium sp. from a leguminous climbing shrub Derris scandens benth
De P. S., Basu P. S.
Acta Biotechnologica. 1995 15(3). p.307
NODULATION OF TRIFOLIUM ALEXANDRINUM IN VITRO AND NITRATE EFFECT ON THE AMINO ACID COMPOSITION OF THE PLANT AND ITS ROOT EXUDATE
Subba-Rao N. S., Vasantha P.
Canadian Journal of Botany. 1965 43(10). p.1189
Reversal of Nitrate Inhibition of Nodulation by Indolyl-3-acetic Acid
VALERA CONCEPCION L., ALEXANDER M.
Nature. 1965 206(4981). p.326
Nitrate reductase activity and yield of Lens culinaris sprayed with 28-homobrassinolide
Hayat S., Ahmad A.
Acta Agronomica Hungarica. 2003 51(4). p.381
The role of hormones and gradients in the initiation of cortex proliferation and nodule formation in Pisum sativum L.
Libbenga K. R.,
van Iren F.,
Bogers R. J., Schraag-Lamers M. F.
Planta. 1973 114(1). p.29
Growth behaviour and IAA production by a Rhizobium sp. isolated from root nodules of a leguminous medicinal herb, Dolichos biflorus. L., in culture
Datta Chhaya, Basu P.S.
Microbiological Research. 1997 152(4). p.353
Nitrate effects on the nodulation of legumes inoculated with nitrate-reductase-deficient mutants of Rhizobium
Gibson A. H., Pagan Janet D.
Planta. 1977 134(1). p.17
The role of iron in the (brady)Rhizobiumlegume symbiosis
Tang Caixian,
Robson A. D., Dilworth M. J.
Journal of Plant Nutrition. 1992 15(10). p.2235
Molecular Biology of Plant Tumors (1982)
Characterization of an aromatic amino acid aminotransferase from Rhizobium leguminosarum biovar trifolii
Pérez-Galdona R.,
Corzo J.,
León-Barrios M.A., Gutiérrez-Navarro A.M.
Biochimie. 1992 74(6). p.539
Indoleacetic acid production byRhizobium sp. from a leguminous tree,Erythrina indica
Bhowmick P. K., Basu P. S.
Folia Microbiologica. 1987 32(2). p.142
Mass Spectrometric Quantification of Indole-3-Acetic Acid in
Rhizobium
Culture Supernatants: Relation to Root Hair Curling and Nodule Initiation
Badenoch-Jones Jane,
Summons R. E.,
Djordjevic M. A.,
Shine J.,
Letham D. S., Rolfe B. G.
Applied and Environmental Microbiology. 1982 44(2). p.275
Biotechnological and industrial significance of cyanobacterial secondary metabolites
Rastogi Rajesh P., Sinha Rajeshwar P.
Biotechnology Advances. 2009 27(4). p.521
Effect of imazaquin applications on the growth, leaf chlorophyll and yield of soybean in the Guinea Savanna of Nigeria
Alonge S.O.
Journal of Environmental Science and Health, Part B. 2000 35(3). p.321
Studies of the root nodules of leguminous plants IV: Production of indole acetic acid by a bradyrhizobium sp. from the root nodules of a leguminous shrub, crotalaria retusa L
Bhattacharyya R. N., Basu P. S.
Acta Biotechnologica. 1991 11(5). p.439
Interactions Between Non-Pathogenic Soil Microorganisms and Plants (1978)
Nodulation in Sesbania aculeata as Affected by Some Pyrimidine Bases and Their Analogues
MATHUR S. N., SINGH H. S.
Physiologia Plantarum. 1971 25(1). p.154
Plant-endophyte symbiosis in non-leguminous plants
Becking J. H.
Plant and Soil. 1970 32(1-3). p.611
THE BIOPRODUCTION OF INDOLE-3-ACETIC ACID AND RELATED COMPOUNDS IN ROOT NODULES AND ROOTS OF LUPINUS LUTEUS L. AND BY ITS RHIZOBIAL SYMBIONT
Dullaart J.
Acta Botanica Neerlandica. 1970 19(5). p.573
Hormonal Regulation of Development III (1985)
What Does It Take to Evolve A Nitrogen-Fixing Endosymbiosis?
Geurts Rene,
Xiao Ting Ting, Reinhold-Hurek Barbara
Trends in Plant Science. 2016 21(3). p.199
The Formation of Growth Substances by Rhizobium Species
Beltká R.,
Díaz F., Fraile G.
Zentralblatt für Bakteriologie, Parasitenkunde, Infektionskrankheiten und Hygiene. Zweite Naturwissenschaftliche Abteilung: Mikrobiologie der Landwirtschaft, der Technologie und des Umweltschutzes. 1980 135(7). p.617
Aromatic amino acid aminotransferases in Rhizobium leguminosarum biovar Trifolii. Their role in indoleacetic acid synthesis
Pérez-Galdona R.,
CoRzo J.,
León-Barrios M., Gutiérrez-Navarro A.M.
Soil Biology and Biochemistry. 1989 21(4). p.573
Nodulation ofMedicago sativa in solution culture
Munns D. N.
Plant and Soil. 1968 29(2). p.257
Nodulation ofMedicago sativa in solution culture
Munns D. N.
Plant and Soil. 1968 29(1). p.33
Studies on the root nodules of leguminous trees V. Production of indole acetic acid by a Bradyrhizobium sp. from the root nodules of a leguminous tree, Acacia auriculiformis A. CUNN
Bhattacharyya R. N., Basu P. S.
Journal of Basic Microbiology. 1992 32(4). p.219
Cytokinin production by microorganisms
Greene Elizabeth M.
The Botanical Review. 1980 46(1). p.25
Auxin: at the root of nodule development?
Mathesius Ulrike
Functional Plant Biology. 2008 35(8). p.651
Tryptophan catabolism to indolepyruvic and indoleacetic acids byRhizobium japonicum L-259 mutants
Kaneshiro Tsuneo,
Slodki Morey E., Plattner Ronald D.
Current Microbiology. 1983 8(5). p.301
Production of indole acetic acid in root nodules and culture by a Rhizobium species from root nodules of the fodder legume Melilotus alba DESR.
Datta C., Basu P. S.
Acta Biotechnologica. 1998 18(1). p.53
Biological Nitrogen Fixation (2015)
Progress in Botany 72 (2010)
Auxin and Its Role in Plant Development (2014)
The Control of Auxin Transport in Parasitic and Symbiotic Root–Microbe Interactions
Ng Jason,
Perrine-Walker Francine,
Wasson Anton, Mathesius Ulrike
Plants. 2015 4(3). p.606
The Effect of Ascorbic Acid, when Applied to the Rooting Medium, on Nodulation and Nitrogen Fixation in Gram (Cicer arietinum)
Swaraj K., Garg O. P.
Physiologia Plantarum. 1970 23(5). p.889
Molecular Microbial Ecology of the Rhizosphere (2013)
Advances in Microbial Ecology (1986)
Aromatic aminotransferase activity and indoleacetic acid production in Rhizobium meliloti
Kittell B L,
Helinski D R, Ditta G S
Journal of Bacteriology. 1989 171(10). p.5458
External Effect of Indolyl-3-acetic Acid, Benzimidazole and B-nine on Nodulation of Cowpea
MISHRA D., MOHANTY B.
Nature. 1967 214(5085). p.320
Indole acetic acid production by a Rhizobium species from root nodules of a leguminous shrub, Cajanus cajan
Datta Chhaya, Basu P.S.
Microbiological Research. 2000 155(2). p.123
Sustainable Agriculture Reviews 60 (2023)
Soil Organic Matter and Biological Activity (1985)
The Hormones (1964)
Interactions between Plants and Epiphytic Bacteria Regarding Their Auxin Metabolism VI. The Influence of the Epiphytic Bacteria on the Content of Extractable Auxin in the Plant
Libbert Eike,
Kaiser Wolfgang, Kunert Reinhard
Physiologia Plantarum. 1969 22(2). p.432
Electron Microscopy of the Infection and Subsequent Development of Soybean Nodule Cells
Goodchild D. J., Bergersen F. J.
Journal of Bacteriology. 1966 92(1). p.204
Synergism of VAM and Rhizobium on Production and Metabolism of IAA in Roots and Root Nodules of Vigna Mungo
Chakrabarti Jayanta,
Chatterjee Sabyasachi,
Ghosh Sisir,
Chatterjee Narayan Chandra, Dutta Sikha
Current Microbiology. 2010 61(3). p.203
Production of 3-indoleacetic acid by aRhizobium sp. fromMimosa pudica
Roy M., Basu P. S.
Folia Microbiologica. 1989 34(2). p.120
Studies on Root Nodules of Leguminous Trees II. The Bioproduction of Different Phytohormones in Root Nodules of Samanea saman (JACQ.) MERRIL and by Its Rhizobial Microsymbiont
Chattopadhyay K.K., Basu P.S.
Biochemie und Physiologie der Pflanzen. 1989 184(5-6). p.387
The Chemistry and Biochemistry of Nitrogen Fixation (1971)
Gas chromatography-mass spectrometry analysis of indoleacetic acid and tryptophan following aqueous chloroformate derivatisation of Rhizobium exudates
Perrine Francine M.,
Rolfe Barry G.,
Hynes Michael F., Hocart Charles H.
Plant Physiology and Biochemistry. 2004 42(9). p.723
