Barbara E. Ehrlich spends much of her time researching Cell biology, Biochemistry, Inositol, Calcium and Biophysics. Her studies in Cell biology integrate themes in fields like Internal medicine, Endocrinology and Cytosol. Her research in Inositol focuses on subjects like Calcium signaling, which are connected to Neuronal calcium sensor-1.
Her study of Ryanodine receptor is a part of Calcium. Her research integrates issues of Calcium metabolism, FKBP and Analytical chemistry in her study of Ryanodine receptor. Her biological study spans a wide range of topics, including Endoplasmic reticulum, Inositol phosphate and Intracellular.
Her primary scientific interests are in Cell biology, Calcium, Biophysics, Biochemistry and Calcium signaling. Her Cell biology research integrates issues from Receptor and Cytosol. Her Calcium research is within the category of Internal medicine.
Her Biophysics research includes elements of Voltage-dependent calcium channel, Polycystin 2, Inositol phosphate, Ion channel and Stereochemistry. Her study connects Calcium channel and Biochemistry. Her Ryanodine receptor research incorporates elements of FKBP and Skeletal muscle.
Barbara E. Ehrlich focuses on Cell biology, Cancer research, Neuronal calcium sensor-1, Autosomal dominant polycystic kidney disease and Endoplasmic reticulum. Her Cell biology study combines topics in areas such as Polycystin 2, Ion channel complex and Gene. Her work carried out in the field of Neuronal calcium sensor-1 brings together such families of science as Cancer cell, Neuroscience and Intracellular.
Her Endoplasmic reticulum research is multidisciplinary, incorporating perspectives in Calcium, Convoluted tubule, Function, Inositol and Mitochondrion. Her Calcium study integrates concerns from other disciplines, such as Peripheral neuropathy, Chemotherapy-induced peripheral neuropathy, Signal transduction, Disease and Regulator. Her study on Inositol is covered under Receptor.
Barbara E. Ehrlich mainly focuses on Calcium signaling, Chemotherapy-induced peripheral neuropathy, Peripheral neuropathy, Calcium and Signal transduction. Her Calcium signaling research includes themes of Autophagy, Cancer research and Autosomal dominant polycystic kidney disease. Her Chemotherapy-induced peripheral neuropathy research is multidisciplinary, incorporating elements of Adverse effect and Chemotherapy.
The Calcium study combines topics in areas such as Flux and Steatosis, Endocrinology. Her Signal transduction study also includes fields such as
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Bell-shaped calcium-response curves of Ins(1,4,5)P3- and calcium-gated channels from endoplasmic reticulum of cerebellum.
Ilya Bezprozvanny;James Watras;Barbara E. Ehrlich.
Stabilization of calcium release channel (ryanodine receptor) function by FK506-binding protein.
Anne-Marie B. Brillantes;Karol Ondrias;Karol Ondrias;Andrew Scott;Andrew Scott;Evgeny Kobrinsky;Evgeny Kobrinsky.
Polycystin-2 is an intracellular calcium release channel
Peter Koulen;Yiqiang Cai;Lin Geng;Yoshiko Maeda.
Nature Cell Biology (2002)
The pharmacology of intracellular Ca2+-release channels
Barbara E. Ehrlich;Ed Kaftan;Svetlana Bezprozvannaya;Ilya Bezprozvanny.
Trends in Pharmacological Sciences (1994)
Inositol 1,4,5-trisphosphate activates a channel from smooth muscle sarcoplasmic reticulum.
B. E. Ehrlich;J. Watras.
Channels formed by botulinum, tetanus, and diphtheria toxins in planar lipid bilayers: relevance to translocation of proteins across membranes.
David H. Hoch;Miryam Romero-Mira;Barbara E. Ehrlich;Alan Finkelstein.
Proceedings of the National Academy of Sciences of the United States of America (1985)
Type III InsP3 receptor channel stays open in the presence of increased calcium
Robert E. Hagar;Angela D. Burgstahler;Michael H. Nathanson;Barbara E. Ehrlich.
Cilia at the node of mouse embryos sense fluid flow for left-right determination via Pkd2
Satoko Yoshiba;Hidetaka Shiratori;Ivana Y. Kuo;Aiko Kawasumi.
Effects of Rapamycin on Ryanodine Receptor/Ca2+-Release Channels From Cardiac Muscle
Edward Kaftan;Andrew R. Marks;Barbara E. Ehrlich.
Circulation Research (1996)
Inositol (1,4,5)-trisphosphate (InsP3)-gated Ca Channels from Cerebellum: Conduction Properties for Divalent Cations and Regulation by Intraluminal Calcium
Ilya Bezprozvanny;Barbara E. Ehrlich.
The Journal of General Physiology (1994)
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