Timothy F. Walseth spends much of his time researching Cyclic ADP-ribose, Biochemistry, ADP-ribosyl Cyclase, NAD+ kinase and Nicotinic acid adenine dinucleotide phosphate. His Cyclic ADP-ribose research integrates issues from Ryanodine receptor, Calcium, Internal medicine, Endocrinology and Second messenger system. The Endocrinology study combines topics in areas such as Calcium in biology and Endoplasmic reticulum, Cell biology.
His research investigates the connection between Biochemistry and topics such as Biophysics that intersect with issues in Calmodulin, Activator and Signal transduction. His work deals with themes such as Amino acid, Cyclase activity, Cyclase, Nucleotide and Stereochemistry, which intersect with ADP-ribosyl Cyclase. His Stereochemistry research is multidisciplinary, incorporating elements of Metabolite and Nicotinamide.
Timothy F. Walseth mainly focuses on Biochemistry, Cyclic ADP-ribose, Cell biology, Endocrinology and Internal medicine. His Cyclic ADP-ribose study combines topics in areas such as Ryanodine receptor, Calcium, Stereochemistry, ADP-ribosyl Cyclase and NAD+ kinase. The various areas that Timothy F. Walseth examines in his ADP-ribosyl Cyclase study include Cyclase activity and NAD+ nucleosidase.
His NAD+ kinase research includes elements of Adenosine and Nicotinamide. His work focuses on many connections between Cell biology and other disciplines, such as Tumor necrosis factor alpha, that overlap with his field of interest in Transfection and Molecular biology. His Endocrinology research incorporates elements of Calcium in biology and G protein.
His main research concerns Nicotinic acid adenine dinucleotide phosphate, Cell biology, Biochemistry, Second messenger system and Photoaffinity labeling. His Nicotinic acid adenine dinucleotide phosphate research incorporates themes from Calcium in biology, Adenosine and NAD+ kinase. His study in the fields of Signal transduction, Endosome and GTPase under the domain of Cell biology overlaps with other disciplines such as IL-2 receptor.
Borrowing concepts from Structure–activity relationship, Timothy F. Walseth weaves in ideas under Biochemistry. He studied Second messenger system and Calcium signaling that intersect with Cyclic ADP-ribose. His research in Cyclic ADP-ribose intersects with topics in Respiratory function and Inositol trisphosphate.
His primary areas of study are Cell biology, Second messenger system, Two-pore channel, Nicotinic acid adenine dinucleotide phosphate and Photoaffinity labeling. His Cell biology study integrates concerns from other disciplines, such as Molecular biology, Gene expression and Transfection. The concepts of his Second messenger system study are interwoven with issues in Voltage-dependent calcium channel, Inflammation, Endogeny, Kinase and Contractility.
His Two-pore channel research is multidisciplinary, incorporating perspectives in Rab and Interactome. Timothy F. Walseth is investigating Photoaffinity labeling as part of his Biochemistry and Binding site and Photoaffinity labeling study. His study in Binding site is interdisciplinary in nature, drawing from both Nicotinamide, Nicotinamide mononucleotide and NAD+ kinase.
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Formation and hydrolysis of cyclic ADP-ribose catalyzed by lymphocyte antigen CD38
M. Howard;J. C. Grimaldi;J. F. Bazan;F. E. Lund.
Structural determination of a cyclic metabolite of NAD+ with intracellular Ca2+-mobilizing activity.
Hon Cheung Lee;T. F. Walseth;G. T. Bratt;R. N. Hayes.
Journal of Biological Chemistry (1989)
ADP-ribosyl cyclase and CD38 catalyze the synthesis of a calcium-mobilizing metabolite from NADP.
Robert Aarhus;Richard M. Graeff;Deborah M. Dickey;Timothy F. Walseth.
Journal of Biological Chemistry (1995)
Calcium mobilization by dual receptors during fertilization of sea urchin eggs
Hon Cheung Lee;Robert Aarhus;Timothy F. Walseth.
Synthesis and characterization of antagonists of cyclic-ADP-ribose-induced Ca2+ release
Timothy F. Walseth;Hon Cheung Lee.
Biochimica et Biophysica Acta (1993)
Enzymatic synthesis and characterizations of cyclic GDP-ribose. A procedure for distinguishing enzymes with ADP-ribosyl cyclase activity.
R. M. Graeff;T. F. Walseth;K. Fryxell;W. D. Branton.
Journal of Biological Chemistry (1994)
Cyclic ADP ribose activation of the ryanodine receptor is mediated by calmodulin
Hon Cheung Lee;Robert Aarhus;Richard M Graeff;Mary E. Gurnack.
Similarities in amino acid sequences of Aplysia ADP-ribosyl cyclase and human lymphocyte antigen CD38.
David J. States;Timothy F. Walseth;Hon Cheung Lee.
Trends in Biochemical Sciences (1992)
Activation and Inactivation of Ca Release by NAADP
Robert Aarhus;Deborah M. Dickey;Richard M. Graeff;Kyle R. Gee.
Journal of Biological Chemistry (1996)
Cyclic AMP and LDL trigger a rapid enhancement in gap junction assembly through a stimulation of connexin trafficking
Alicia F. Paulson;Paul D. Lampe;Rita A. Meyer;Erica TenBroek.
Journal of Cell Science (2000)
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