Plant protecting and regulating compositions – Plant growth regulating compositions – Organic active compound containing
Patent
1996-03-05
1998-12-08
Clardy, S. Mark
Plant protecting and regulating compositions
Plant growth regulating compositions
Organic active compound containing
504136, 504142, 504144, 504147, 504149, 504324, A01N 3744, A01N 3748
Patent
active
058469087
ABSTRACT:
Methods and compositions for enhancing plant growth provide for foliar application of a substance which enhances the accumulation of formylterahydropteroyl polyglutamate (C.sub.1 -THF) in a treated plant. Treatment with substance that contribute to the structure of (C.sub.1 -THF) increase the rate and quantity of carbon fixation by the plant. Thereafter, plant growth is further improved either by exposure of the plant to elevated oxygen, illumination and heat or by foliar input of single carbon fragment sources. Opitmal results are obtained by combined treatment with a substance that can serve as a sink for C.sub.1 fragments produced in the leaf.
REFERENCES:
patent: 3891756 (1975-06-01), Kasugai et al.
patent: 3897241 (1975-07-01), Washio et al.
patent: 3918952 (1975-11-01), Neumiller
patent: 3978119 (1976-08-01), Onopchenko et al.
patent: 4033745 (1977-07-01), Moore
patent: 4383845 (1983-05-01), Rutherford
patent: 4405531 (1983-09-01), Franz
patent: 4409015 (1983-10-01), Grace, Jr.
patent: 4594096 (1986-06-01), Albrecht et al.
patent: 4799953 (1989-01-01), Danzig et al.
patent: 4863506 (1989-09-01), Young
patent: 5139555 (1992-08-01), Freepons
patent: 5549729 (1996-08-01), Yamashita
H. Aono et al., Effect of foliar application of fertilizer on the growth and quality of new shoot of tea plant, Nat'l. Res. Inst. Tea, 63:23-32 (1982).
D. Barel et al., Foliar application of P. II. yield responses of corn and soybeans sprayed with various condensed phosphates and P-N compounds in greenhouse and field experiments, Agronomy Journal, 71(1) : 21-24 (1979).
A. Benson, Identification of ribulose in C1402 photosynthesis products, J. Am. Chem. Soc., 73:2971 (1951).
V. Besson et al., Effects of tetrahydrofolate polyglutamates on the kinetic parameters of serine hydroxymethyltransferase and glycine decarboxylase from pea leaf mitochondria, Biochem. J., 292:425-430 (1993).
Chemistry and Biology of Pteridines and Folates, Edited by J. Ayling et al., Plenum Press, New York, NY, pp. 1-16 (1993).
C. Cooney et al., Microbial utilization of methanol, Adv. in Applied Microbiology, 15:337-365 (1972).
E. Cossins, Folate biochemistry and the metabolism of one-carbon units, The Biochemistry of Plants -- vol. 11, Academic Press, pp. 317-353 (1987).
E. Cossins, One-carbon metabolism, The Biochemistry of Plants -- vol. 2, Academic Press, pp. 365-418 (1980).
E. Cossins, The utilization of carbon-1 compounds by plants, Canadian J. Biochem., 42:1793-1802 (1964).
P. Crosti et al., Growth-dependent changes of folate metabolsim and biosynthesis in cultures Daucus-carota cells, Plant Science, 88:97-106 (1993).
R. Gates et al., Free amino acids exhibit anthozoan "host factor" activity: They induce the release of photosynthate from symbiotic dinoflagellates in vitro, Proc. Nat'l. Acad. Sci. USA, 92:7430-7434 (Aug. 1995).
T. Gorontzy et al., Microbial transformation of nitroaromatic compounds under anaerobic conditions, J. General Microbiol., 139:1331-1336 (1993).
H. Grassi Filho et al., Effect of calcium, boron, molybdenum, and zinc on the dry-matter yield of soybeans, Rev. Agric. (Brazil), 67(1) :89-95 (1992).
B. Grodzinski, Glyoxylate decarboxylation during photorespiration, Planta, 144:31-37 (1978).
A. Gupta et al., Metabolism of N-(4-Chloro-o-tolyl)-N,N-dimethylformamidine by apple seedlings, J. Agr. Food Chem., 17(3) :595-600 (1969).
W. Harder et al., Methanol assimilation by Hyphomicrobium sp., J. General Microbiol., 78:155-163 (1973).
S. Kannan, Effects of dibutyl phthalate and phthalic acid on chlorosis recovery in iron-deficiency stressed sorghum cultivars, J. Plant Nutrition, 9(12) : 1543-1551 (1986).
V. Kazaryan et al., On the influence of nitrogen nutrition on the growth intensity and balance of physiologically active substances in separate organs of sunflower and lilac, Biol. Zh. Arm., 42(3) : 177-181 (1989).
J. Killmer, Growth of cultured carrot cells as affected by glyphosphate, asulam and various plant metabolites, Graduate Thesis -- University of Illinois, (1980).
C. Knowles, Metabolism of two acaricidal chemicals, N-(4-Chloro-o-tolyl) -N,N-dimethylformamidine (chlorphenamidine) and (formetanate), J. Agr. Food Chem., 18(6) :1038-1047 (1970).
H. Kruschwitz, 5-Formyltetrahydropteroylpolyglutamates are the major folate derivatives in Neurospora crassa conidiospores, J. Biol. Chem., 269(46) : 28757-28763 (1994).
A. Lawyer et al., Glyoxylate and glutamate effects of photosynthetic carbon metabolism in isolated chloroplasts and mesophyll cells of spinach, Plant Physiol., 72:420-425 (1983).
J. Nishio et al., Changes in thylakoid galactolipids and proteins during iron nutrition-mediated chloroplast development, Plant Physiol., 77:705-711 (1985).
W. Ogren, Photorespiration: pathways, regulation, and modification, Ann. Rev. Plant Physiol., 35:415-442 (1984).
D. Oliver et al., Increasing photosynthesis by inhibiting photorespiration with glyoxylate, Science, 196;1450-1451 (1977).
D. Oliver et al., Metabolic regulation of glycolate synthesis, photorespiration, and net photosynthesis in tobacco by L-glutamate, Plant Physiol., 59:688-694 (1977).
A. Pavlova et al., Influence of leaf feeding on 14C-proline uptake by forming wheat grain, Dokl. Bolg. Akad. Nauk., 39(3) :101-103 (1986).
J. Quayle et al., Enzymatic Carboxylation of Ribulose Diphosphate, J. Amer. Chem. Soc., 76:3610-3611 (1954).
A. Schackmann et al., Reduction of nitroaromatic compounds by different Pseudomonas species under aerobic conditions, Appl. Microbiol. Biotechnol., 34:809-813 (1991).
S. Schuler et al., Nitrogen nutrition and growth regulator effects of oxamide on wheat and soybean, J. Plant Nutrition, 11(2) :217-233 (1988).
P. Stover et al., Evidence that 5-formytetrahydropteroylglutamate has a metabolic role in one carbon metabolism, Chem. and Biol. of Pteridines and Folates, Edited by J. Ayling et al., Plenum Press New York, NY, pp. 679-685 (1993).
N. Tolbert, Formic acid metabolism in barley leaves, J. Biol. Chem., 215:27-34 (1955).
C. Wendler et al., Effect of glufosinate (phosphinothricin) and inhibitors of photorespiration on photosynthesis and ribulose-1,5-biphosphate carboxylase activity, J. Plant Physiol., 139:666-671 (1992).
Western Fertilizer Handbook, Edited by G. Hawkes et al., Soil Improvement Committee of California Fertilizer Association, pp. 55-81 (1985).
J. Wu et al., Photorespiration is more effective than the Mehler reaction in protecting the photosynthetic apparatus against photoinhibition, Bot. Acta, 104:283-291 (1991).
I. Zelitch, Effect of glycidate, an inhibitor of glycolate synthesis in leaves, on the activity of some enzymes of the glycolate pathway, Plant Physiol., 61:236-241 (1978).
I. Zelitch, The photooxidation of glyoxylate by envelope-free spinach chloroplasts and its relation to photorespiration, Archives of Biochem. and Biophys., 150:698-707 (1972).
Benson Andrew A.
Nishio John N.
Nonomura Arthur M.
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