Publications
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A reversibly glycosylated polypeptide (RGP1) possibly involved in plant cell wall synthesis: purification, gene cloning, and trans-Golgi localization.
Dhugga KS,
Tiwari SC, Ray PM.
Proc Natl Acad Sci U S A.
1997;
94
(14):
7679-84
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Purification of 1,3-beta-D-glucan synthase activity from pea tissue. Two polypeptides of 55 kDa and 70 kDa copurify with enzyme activity.
Dhugga KS,
Ray PM.
Eur J Biochem.
1994;
220
(3):
943-53
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Changes in molecular size of previously deposited and newly synthesized pea cell wall matrix polysaccharides : effects of auxin and turgor.
Talbott LD,
Ray PM.
Plant Physiol.
1992;
98
(1):
369-79
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Molecular size and separability features of pea cell wall polysaccharides : implications for models of primary wall structure.
Talbott LD,
Ray PM.
Plant Physiol.
1992;
98
(1):
357-68
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A 55 kDa plasma membrane-associated polypeptide is involved in beta-1,3-glucan synthase activity in pea tissue.
Dhugga KS,
Ray PM.
FEBS Lett.
1991;
278
(2):
283-6
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Isoelectric Focusing of Plant Plasma Membrane Proteins : Further Evidence that a 55 Kilodalton Polypeptide Is Associated with beta-1,3-Glucan Synthase Activity from Pea.
Dhugga KS,
Ray PM.
Plant Physiol.
1991;
95
(4):
1302-5
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Plant polypeptides reversibly glycosylated by UDP-glucose. Possible components of Golgi beta-glucan synthase in pea cells.
Dhugga KS,
Ulvskov P, Gallagher SR, Ray PM.
J Biol Chem.
1991;
266
(32):
21977-84
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Auxin Enhancement of mRNAs in Epidermis and Internal Tissues of the Pea Stem and Its Significance for Control of Elongation.
Dietz A,
Kutschera U, Ray PM.
Plant Physiol.
1990;
93
(2):
432-8
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Effect of Indoleacetic Acid- and Fusicoccin-Stimulated Proton Extrusion on Internal pH of Pea Internode Cells.
Talbott LD,
Ray PM, Roberts JK.
Plant Physiol.
1988;
87
(1):
211-6
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Light-mediated changes in two proteins found associated with plasma membrane fractions from pea stem sections.
Gallagher S,
Short TW, Ray PM, Pratt LH, Briggs WR.
Proc Natl Acad Sci U S A.
1988;
85
(21):
8003-7
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Involvement of Macromolecule Biosynthesis in Auxin and Fusicoccin Enhancement of beta-Glucan Synthase Activity in Pea.
Ray PM,
Plant Physiol.
1987;
85
(2):
523-8
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Auxin and Fusicoccin Enhancement of beta-Glucan Synthase in Peas : An Intracellular Enzyme Activity Apparently Modulated by Proton Extrusion.
Ray PM,
Plant Physiol.
1985;
78
(3):
466-72
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Early auxin-regulated polyadenylylated mRNA sequences in pea stem tissue.
Theologis A,
Ray PM.
Proc Natl Acad Sci U S A.
1982;
79
(2):
418-21
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Regulation of Cytoplasmic and Vacuolar pH in Maize Root Tips under Different Experimental Conditions.
Roberts JK,
Wemmer D, Ray PM, Jardetzky O.
Plant Physiol.
1982;
69
(6):
1344-7
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Evidence for Receptor Function of Auxin Binding Sites in Maize : RED LIGHT INHIBITION OF MESOCOTYL ELONGATION AND AUXIN BINDING.
Walton JD,
Ray PM.
Plant Physiol.
1981;
68
(6):
1334-8
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pH-Dependent Interactions between Pea Cell Wall Polymers Possibly Involved in Wall Deposition and Growth.
Bates GW,
Ray PM.
Plant Physiol.
1981;
68
(1):
158-64
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Labeling of the Plasma Membrane of Pea Cells by a Surface-localized Glucan Synthetase.
Anderson RL,
Ray PM.
Plant Physiol.
1978;
61
(5):
723-30
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Auxin-binding Sites of Maize Coleoptiles Are Localized on Membranes of the Endoplasmic Reticulum.
Ray PM,
Plant Physiol.
1977;
59
(4):
594-9
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Characterization of naphthaleneacetic Acid binding to receptor sites on cellular membranes of maize coleoptile tissue.
Ray PM,
Dohrmann U.
Plant Physiol.
1977;
59
(3):
357-64
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Phospholipid-synthesizing Enzymes Associated with Golgi Dictyosomes from Pea Tissue.
Montague MJ,
Ray PM.
Plant Physiol.
1977;
59
(2):
225-30
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Specificity of Auxin-binding Sites on Maize Coleoptile Membranes as Possible Receptor Sites for Auxin Action.
Ray PM,
Plant Physiol.
1977;
60
(4):
585-91
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Rapid Auxin-induced Decrease in Free Space pH and Its Relationship to Auxin-induced Growth in Maize and Pea.
Jacobs M,
Ray PM.
Plant Physiol.
1976;
58
(2):
203-9
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Promotion of Xyloglucan Metabolism by Acid pH.
Jacobs M,
Ray PM.
Plant Physiol.
1975;
56
(3):
373-6
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Relationship between Promotion of Xyloglucan Metabolism and Induction of Elongation by Indoleacetic Acid.
Labavitch JM,
Ray PM.
Plant Physiol.
1974;
54
(4):
499-502
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Turnover of cell wall polysaccharides in elongating pea stem segments.
Labavitch JM,
Ray PM.
Plant Physiol.
1974;
53
(5):
669-73
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Regulation of beta-Glucan Synthetase Activity by Auxin in Pea Stem Tissue: I. Kinetic Aspects.
Ray PM,
Plant Physiol.
1973;
51
(4):
601-8
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Regulation of beta-Glucan Synthetase Activity by Auxin in Pea Stem Tissue: II. Metabolic Requirements.
Ray PM,
Plant Physiol.
1973;
51
(4):
609-14
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ISOLATION OF beta-GLUCAN SYNTHETASE PARTICLES FROM PLANT CELLS AND IDENTIFICATION WITH GOLGI MEMBRANES.
Ray PM,
Shininger TL, Ray MM.
Proc Natl Acad Sci U S A.
1969;
64
(2):
605-12
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