The metabolism of aromatic compounds in higer plants. X. Properties of the cinnamic acid 4-hydroxylase of pea seedlings and some aspects of its metabolic and developmental control.
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[1] D. Russell,et al. Blockage by gibberellic Acid of phytochrome effects on growth, auxin responses, and flavonoid synthesis in etiolated pea internodes. , 1969, Plant physiology.
[2] P. Murphy,et al. The role of mixed function oxidases in kaurene metabolism in Echinocystis macrocarpa Greene endosperm. , 1969, Archives of biochemistry and biophysics.
[3] P. Vaughan,et al. Hydroxylation of flavonoids by a phenolase preparation from leaves of spinach beet , 1969 .
[4] P. Vaughan,et al. The hydroxylation of p-coumaric acid by an enzyme from leaves of spinach beet (Beta vulgaris L.). , 1969, The Biochemical journal.
[5] D. Russell,et al. Hydroxylation-induced migration and retention of tritium on conversion of (4-3H) cinnamic acid to 4-hydroxycinnamic acid by an enzyme from pea seedings. , 1968, Biochimica et biophysica acta.
[6] E. Havir,et al. L-phenylalanine ammonia-lyase. II. Mechanism and kinetic properties of the enzyme from potato tubers. , 1968, Biochemistry.
[7] M. Zucker. Sequential Induction of Phenylalanine Ammonia-lyase and a Lyase-inactivating System in Potato Tuber Disks. , 1968, Plant physiology.
[8] Harry Smith,et al. A phytochrome-mediated increase in the level of phenylalanine ammonialyase activity in the terminal buds of Pisum sativum , 1967 .
[9] D. Russell,et al. The cinnamic acid 4-hydroxylase of pea seedlings. , 1967, Archives of biochemistry and biophysics.
[10] S Udenfriend,et al. Hydroxylation-induced migration: the NIH shift. Recent experiments reveal an unexpected and general result of enzymatic hydroxylation of aromatic compounds. , 1967, Science.
[11] V. Williamson,et al. 3-Methyleneoxindole reductase of peas. , 1967, Plant physiology.
[12] H. Moyed,et al. Inhibitory oxidation products of indole-3-acetic Acid: 3-hydroxymethyloxindole and 3-methyleneoxindole as plant metabolites. , 1967, Plant physiology.
[13] D. Russell,et al. Flavonoid complexes in Pisum sativum—IV. : The effect of red light on synthesis of kaempferol complexes and on growth in sub-apical internode tissues , 1967 .
[14] R. Estabrook,et al. Isolation from adrenal cortex of a nonheme iron protein and a flavoprotein functional as a reduced triphosphopyridine nucleotide-cytochrome P-450 reductase , 1966 .
[15] M. Zucker,et al. Induction of Phenylalanine Deaminase by Light and its Relation to Chlorogenic Acid Synthesis in Potato Tuber Tissue. , 1965, Plant physiology.
[16] L. Vining,et al. Phenylalanine hydroxylase from spinach leaves , 1965 .
[17] A. Galston,et al. Flavonoid complexes in Pisum sativum—III. : The effect of light on the synthesis of kaempferol and quercetin complexes , 1965 .
[18] L. Vining,et al. CINNAMIC ACID HYDROXYLASE IN SPINACH , 1965 .
[19] R. Estabrook,et al. Photochemical Action Spectrum of the Terminal Oxidase of Mixed Function Oxidase Systems , 1965, Science.
[20] R. Hinman,et al. PEROXIDASE-CATALYZED OXIDATION OF INDOLE-3-ACETIC ACID. , 1965, Biochemistry.
[21] A. Neish. Formation of m- and p-coumaric acids by enzymatic deamination of the corresponding isomers of tyrosine , 1961 .
[22] J. Koukol,et al. The metabolism of aromatic compounds in higher plants. IV. Purification and properties of the phenylalanine deaminase of Hordeum vulgare. , 1961, The Journal of biological chemistry.
[23] A. Galston,et al. The effect of substituted phenols on the activity of the indoleacetic acid oxidase of peas. , 1953, Archives of biochemistry and biophysics.
[24] Y. Tang,et al. The enzymatic inactivation of indoleacetic acid; some characteristics of the enzyme contained in pea seedlings. , 1947, Archives of biochemistry.